- published: 23 Sep 2011
- views: 461
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Reno resident Linda Peri interviews Charlene Wardlow, Director of Business Development for Ormat Technologies. Charlene talks about being interested in geology from a young age, experiences in many different aspects of geothermal development, similarities to oil and gas development, and doing what you love. This series on Jobs in the Geothermal Community was filmed at GEA's National Geothermal Summit 2011 in Reno, Nevada.
Geothermal drilling is the process of creating boreholes in the earth to extract the earth's heat.
Geothermal Exploration is the exploration of the subsurface in search of viable active geothermal regions with the goal of building a geothermal power plant, where hot fluids drive turbines to create electricity. Exploration methods include a broad range of disciplines including geology, geophysics, geochemistry and engineering.
Geothermal regions with adequate heat flow to fuel power plants are found in rift zones, subduction zones and mantle plumes. Hot spots are characterized by four geothermal elements. An active region will have:
Heat Source - Shallow magmatic body, decaying radioactive elements or ambient heat from high pressures
Reservoir - Collection of hot rocks from which heat can be drawn
Geothermal Fluid - Gas, vapor and water found within the reservoir
Recharge Area - Area surrounding the reservoir that rehydrates the geothermal system.
Exploration involves not only identifying hot geothermal bodies, but also low-density, cost effective regions to drill and already constituted plumbing systems inherent within the subsurface. This information allows for higher success rates in geothermal plant production as well as lower drilling costs.
As much as 42% of all expenses associated with geothermal energy production can be attributed to exploration. These costs are mostly from drilling operations necessary to confirm or deny viable geothermal regions. Some geothermal experts have gone to say that developments in exploration techniques and technologies have the potential to bring the greatest advancements within the industry.
- published: 02 Dec 2014
- views: 62973
Service dedicated for Geothermal exploration companies. Multi sensor solutions for geothermal exploration measurements and engineering planning.
GeoDrone provides spatial detection and analysis of geological fault lines, collection and analysis of spatial data for engineering planning, development and construction works. Our analysis base on thermal signatures, mineral mapping and gas seepage detection. That allows us to provide data for further verification of the fault lines for geothermal deposit analysis.
Our service includes dedicated Personal Assistance and co-creation with client of final, customized reports and analysis. We use drones and various other types of UAVs, so that we are able to reduce time necessary for data collection, formalities and overcoming restrictions. The accuracy of all positioning is based on the supplied GPS base in the survey area. Maintaining a constant high standard measurements and performance, our service reduces costs and investment risk.
- published: 17 Jul 2014
- views: 720
We visit the largest geothermal operation in the world to see how heat from the earths core is transformed into electricity. We meet a chemist, geologist, plant operator, environmental manager and engineer as they show us how they manage steam production wells and electric generators. This growing field relies not just on professionals with advanced degrees but entry- level workers who drill the wells and maintain the power plants in this vanguard of clean energy.
Jobs profiled in this program include:
Geologist, Project Manager, Chemist, Environmental Manager, Plant Operator
Grade Levels: 7 to Adult
22 minutes • Color
Direct link to purchase the DVD:
http://www.phoenixlearninggroup.com/Products/VideoDetail.aspx?id=be1f20f7-873a-46ea-aeb1-48ea14e5aa8c⊂=6516bc9d-f8fd-4e94-b702-ab180d939306&cat;=
- published: 30 Sep 2009
- views: 1729
Geothermal borehole,1164m deep. Cementing process 0-200m.
-----------------------------------------------------------------------------------------------
Company Geo-Hidro has been established in 1990 and is specialized to carry out applied geology and drilling works in the field of hydrogeology and engineering geology.
OUR SERVICES:
1. Hydrogeological and engineering geological surveys, studies, design and revision of bore holes mining projects and all other research projects for the purpose of irrigation, land drainage, construction of dams on rivers, drainage of mines, etc. ..
2. Research and exploitation drilling boreholes and wells for drinking, thermal and mineral water to a depth of 1800m
3. Production of drilled wells and large diameter piles, piezometers, geothermal probe, etc...
4. Drilling structural boreholes for geological and geotechnical surveys.
More you can find out at www.geo-hidro.si
- published: 07 Jun 2011
- views: 2334
"Geothermal gradient" is the rate of increasing temperature with respect to increasing depth in the Earth's interior. Away from tectonic plate boundaries, it is about "25 °C per km of depth" in most of the world. Strictly speaking, "geo"-thermal necessarily refers to the Earth but the concept may be applied to other planets. The Earth's internal heat comes from a combination of residual heat from planetary accretion, heat produced through radioactive decay, and possibly heat from other sources. The major heat-producing isotopes in the Earth are potassium-40, uranium-238, uranium-235, and thorium-232. At the center of the planet, the temperature may be up to 7,000 K and the pressure could reach 360 GPa . Because much of the heat is provided by radioactive decay, scientists believe that early in Earth history, before isotopes with short half-lives had been depleted, Earth's heat production would have been much higher. Heat production was twice that of present-day at approximately 3 billion years ago, resulting in larger temperature gradients within the Earth, larger rates of mantle convection and plate tectonics, allowing the production of igneous rocks such as komatiites that are not formed anymore today.
Temperature within the Earth increases with depth. Highly viscous or partially molten rock at temperatures between 650 to is postulated to exist everywhere beneath the Earth's surface at depths of 80 to , and the temperature at the Earth's inner core/outer core boundary, around 3500 km deep, is estimated to be 5650 ± 600 kelvins. The heat content of the Earth is 10 31 joules.
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SUBSCRIBE TODAY
Disclaimer: This video is for your information only. The author or publisher does not guarantee the accuracy of the content presented in this video. USE AT YOUR OWN RISK.
Background Music:
"The Place Inside" by Silent Partner (royalty-free) from YouTube Audio Library.
This video uses material/images from https://en.wikipedia.org/wiki/Geothermal+gradient, which is released under Creative Commons Attribution-Share-Alike License 3.0 http://creativecommons.org/licenses/by-sa/3.0/ . This video is licensed under Creative Commons Attribution-Share-Alike License 3.0 http://creativecommons.org/licenses/by-sa/3.0/ . To reuse/adapt the content in your own work, you must comply with the license terms.
- published: 02 Sep 2015
- views: 165
Geothermal borehole, 1164m deep. End of drilling and preparing for well logging.
-------------------------------------------------------------------------------------------------------
Company Geo-Hidro has been established in 1990 and is specialized to carry out applied geology and drilling works in the field of hydrogeology and engineering geology.
OUR SERVICES:
1. Hydrogeological and engineering geological surveys, studies, design and revision of bore holes mining projects and all other research projects for the purpose of irrigation, land drainage, construction of dams on rivers, drainage of mines, etc. ..
2. Research and exploitation drilling boreholes and wells for drinking, thermal and mineral water to a depth of 1800m
3. Production of drilled wells and large diameter piles, piezometers, geothermal probe, etc...
4. Drilling structural boreholes for geological and geotechnical surveys.
More you can find out at www.geo-hidro.si
- published: 29 May 2011
- views: 2341
Discovery of a new type of geothermal energy resource in Utah offers hope for significantly more potential across the western U.S., and a boost in geothermal power production. In 2011 and 2012, Utah Geological Survey geoscientists, in partnership with a U.S. Geological Survey research drilling crew, drilled nine temperature gradient holes in Utah's Black Rock Desert basin south of Delta in western Utah to test a new concept that high-temperature geothermal resources might exist beneath young sedimentary basins. Preliminary results show that near-surface temperature gradients in the basin vary from about 33⁰F/1000 feet to 55⁰F/1000 feet. This implies temperatures of 300 to 500⁰F at 10,000 to 13,000 feet depth beneath the basin. Given the large area of this basin, the power potential is conservatively estimated to be hundreds of megawatts, and preliminary economic modeling suggests a cost of electricity of about 10c per kilowatt-hour over the life of a geothermal power project. This basin is especially attractive for geothermal development because of the existing nearby infrastructure ─ it is next to a large coal-fired power plant, a 300 MWe wind farm, and a major electrical transmission line to California.
The project findings are being presented on Monday, October 1, at the annual meeting of the Geothermal Resources Council in Reno, Nevada.
- published: 27 Sep 2012
- views: 2102
Secoroc EDGE utilizes sensor technology to detect and translate percussion vibrations to an easy-to-read, real-time display. The display provides a continuous report of how the bit is engaging the geology at the bottom. This enables drillers to optimize the hammer and bit performance with precision, throughout the drilling, as they evaluate the effect of their inputs instantly. Secoroc EDGE extends the operator's vision, hearing, and touch, allowing the operator to "see" what's happening all the way to total depth.
- published: 30 Jan 2012
- views: 1747
Geothermal gradient is the rate of increasing temperature with respect to increasing depth in the Earth's interior. Away from tectonic plate boundaries, it is 22.1°C per km of depth (1°F per 70 feet of depth) in most of the world. Strictly speaking, geo-thermal necessarily refers to the Earth but the concept may be applied to other planets. The Earth's internal heat comes from a combination of residual heat from planetary accretion (about 20%) and heat produced through radioactive decay (80%). The major heat-producing isotopes in the Earth are potassium-40, uranium-238, uranium-235, and thorium-232. At the center of the planet, the temperature may be up to 7,000 K and the pressure could reach 360 GPa. Because much of the heat is provided by radioactive decay, scientists believe that early in Earth history, before isotopes with short half-lives had been depleted, Earth's heat production would have been much higher. Heat production was twice that of present-day at approximately 3 billion years ago, resulting in larger temperature gradients within the Earth, larger rates of mantle convection and plate tectonics, allowing the production of igneous rocks such as komatiites that are not formed anymore today.
This page contains text from Wikipedia, the Free Encyclopedia -
http://en.wikipedia.org/wiki/Geothermal_gradient
This article is licensed under the Creative Commons Attribution-ShareAlike 3.0 Unported License, which means that you can copy and modify it as long as the entire work (including additions) remains under this license.
This article is licensed under the Creative Commons Attribution-ShareAlike 3.0 Unported License, which means that you can copy and modify it as long as the entire work (including additions) remains under this license.
Geology (from the Greek γῆ, gê, "earth" and λόγος, logos, "study") is the science comprising the study of solid Earth, the rocks of which it is composed, and the processes by which it evolves. Geology gives insight into the history of the Earth, as it provides the primary evidence for plate tectonics, the evolutionary history of life, and past climates. In modern times, geology is commercially important for mineral and hydrocarbon exploration and for evaluating water resources; is publicly important for the prediction and understanding of natural hazards, the remediation of environmental problems, and for providing insights into past climate change; plays a role in geotechnical engineering; and is a major academic discipline.
The study of the physical material of the Earth dates back at least to ancient Greece when Theophrastus (372-287 BCE) wrote the work Peri Lithon (On Stones). In the Roman period, Pliny the Elder wrote in detail of the many minerals and metals then in practical use, and correctly noted the origin of amber.
This page contains text from Wikipedia, the Free Encyclopedia -
http://en.wikipedia.org/wiki/Geology
This article is licensed under the Creative Commons Attribution-ShareAlike 3.0 Unported License, which means that you can copy and modify it as long as the entire work (including additions) remains under this license.
This article is licensed under the Creative Commons Attribution-ShareAlike 3.0 Unported License, which means that you can copy and modify it as long as the entire work (including additions) remains under this license.
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8:08Geologist/Engineer Charlene Wardlow - Focusing on Jobs in the Geothermal Community
Geologist/Engineer Charlene Wardlow - Focusing on Jobs in the Geothermal CommunityGeologist/Engineer Charlene Wardlow - Focusing on Jobs in the Geothermal Community
Reno resident Linda Peri interviews Charlene Wardlow, Director of Business Development for Ormat Technologies. Charlene talks about being interested in geology from a young age, experiences in many different aspects of geothermal development, similarities to oil and gas development, and doing what you love. This series on Jobs in the Geothermal Community was filmed at GEA's National Geothermal Summit 2011 in Reno, Nevada. -
5:54Iceland-Geothermal
Iceland-Geothermal -
47:00Steam Drillers (Geothermal Energy Development)
Steam Drillers (Geothermal Energy Development)Steam Drillers (Geothermal Energy Development)
Geothermal drilling is the process of creating boreholes in the earth to extract the earth's heat. Geothermal Exploration is the exploration of the subsurface in search of viable active geothermal regions with the goal of building a geothermal power plant, where hot fluids drive turbines to create electricity. Exploration methods include a broad range of disciplines including geology, geophysics, geochemistry and engineering. Geothermal regions with adequate heat flow to fuel power plants are found in rift zones, subduction zones and mantle plumes. Hot spots are characterized by four geothermal elements. An active region will have: Heat Source - Shallow magmatic body, decaying radioactive elements or ambient heat from high pressures Reservoir - Collection of hot rocks from which heat can be drawn Geothermal Fluid - Gas, vapor and water found within the reservoir Recharge Area - Area surrounding the reservoir that rehydrates the geothermal system. Exploration involves not only identifying hot geothermal bodies, but also low-density, cost effective regions to drill and already constituted plumbing systems inherent within the subsurface. This information allows for higher success rates in geothermal plant production as well as lower drilling costs. As much as 42% of all expenses associated with geothermal energy production can be attributed to exploration. These costs are mostly from drilling operations necessary to confirm or deny viable geothermal regions. Some geothermal experts have gone to say that developments in exploration techniques and technologies have the potential to bring the greatest advancements within the industry. -
2:01Remote Sensing for Geothermal Spatial measurements - GeoDrone ehf.
Remote Sensing for Geothermal Spatial measurements - GeoDrone ehf.Remote Sensing for Geothermal Spatial measurements - GeoDrone ehf.
Service dedicated for Geothermal exploration companies. Multi sensor solutions for geothermal exploration measurements and engineering planning. GeoDrone provides spatial detection and analysis of geological fault lines, collection and analysis of spatial data for engineering planning, development and construction works. Our analysis base on thermal signatures, mineral mapping and gas seepage detection. That allows us to provide data for further verification of the fault lines for geothermal deposit analysis. Our service includes dedicated Personal Assistance and co-creation with client of final, customized reports and analysis. We use drones and various other types of UAVs, so that we are able to reduce time necessary for data collection, formalities and overcoming restrictions. The accuracy of all positioning is based on the supplied GPS base in the survey area. Maintaining a constant high standard measurements and performance, our service reduces costs and investment risk. -
2:37Green Careers: Clean Energy - Geothermal Power (clip)
Green Careers: Clean Energy - Geothermal Power (clip)Green Careers: Clean Energy - Geothermal Power (clip)
We visit the largest geothermal operation in the world to see how heat from the earths core is transformed into electricity. We meet a chemist, geologist, plant operator, environmental manager and engineer as they show us how they manage steam production wells and electric generators. This growing field relies not just on professionals with advanced degrees but entry- level workers who drill the wells and maintain the power plants in this vanguard of clean energy. Jobs profiled in this program include: Geologist, Project Manager, Chemist, Environmental Manager, Plant Operator Grade Levels: 7 to Adult 22 minutes • Color Direct link to purchase the DVD: http://www.phoenixlearninggroup.com/Products/VideoDetail.aspx?id=be1f20f7-873a-46ea-aeb1-48ea14e5aa8c⊂=6516bc9d-f8fd-4e94-b702-ab180d939306&cat;= -
10:55GEO-HIDRO: Geothermal well drilling - cementing well from 0-200m
GEO-HIDRO: Geothermal well drilling - cementing well from 0-200mGEO-HIDRO: Geothermal well drilling - cementing well from 0-200m
Geothermal borehole,1164m deep. Cementing process 0-200m. ----------------------------------------------------------------------------------------------- Company Geo-Hidro has been established in 1990 and is specialized to carry out applied geology and drilling works in the field of hydrogeology and engineering geology. OUR SERVICES: 1. Hydrogeological and engineering geological surveys, studies, design and revision of bore holes mining projects and all other research projects for the purpose of irrigation, land drainage, construction of dams on rivers, drainage of mines, etc. .. 2. Research and exploitation drilling boreholes and wells for drinking, thermal and mineral water to a depth of 1800m 3. Production of drilled wells and large diameter piles, piezometers, geothermal probe, etc... 4. Drilling structural boreholes for geological and geotechnical surveys. More you can find out at www.geo-hidro.si -
2:09Geothermal gradient - Video Learning - WizScience.com
Geothermal gradient - Video Learning - WizScience.comGeothermal gradient - Video Learning - WizScience.com
"Geothermal gradient" is the rate of increasing temperature with respect to increasing depth in the Earth's interior. Away from tectonic plate boundaries, it is about "25 °C per km of depth" in most of the world. Strictly speaking, "geo"-thermal necessarily refers to the Earth but the concept may be applied to other planets. The Earth's internal heat comes from a combination of residual heat from planetary accretion, heat produced through radioactive decay, and possibly heat from other sources. The major heat-producing isotopes in the Earth are potassium-40, uranium-238, uranium-235, and thorium-232. At the center of the planet, the temperature may be up to 7,000 K and the pressure could reach 360 GPa . Because much of the heat is provided by radioactive decay, scientists believe that early in Earth history, before isotopes with short half-lives had been depleted, Earth's heat production would have been much higher. Heat production was twice that of present-day at approximately 3 billion years ago, resulting in larger temperature gradients within the Earth, larger rates of mantle convection and plate tectonics, allowing the production of igneous rocks such as komatiites that are not formed anymore today. Temperature within the Earth increases with depth. Highly viscous or partially molten rock at temperatures between 650 to is postulated to exist everywhere beneath the Earth's surface at depths of 80 to , and the temperature at the Earth's inner core/outer core boundary, around 3500 km deep, is estimated to be 5650 ± 600 kelvins. The heat content of the Earth is 10 31 joules. Wiz Science™ is "the" learning channel for children and all ages. SUBSCRIBE TODAY Disclaimer: This video is for your information only. The author or publisher does not guarantee the accuracy of the content presented in this video. USE AT YOUR OWN RISK. Background Music: "The Place Inside" by Silent Partner (royalty-free) from YouTube Audio Library. This video uses material/images from https://en.wikipedia.org/wiki/Geothermal+gradient, which is released under Creative Commons Attribution-Share-Alike License 3.0 http://creativecommons.org/licenses/by-sa/3.0/ . This video is licensed under Creative Commons Attribution-Share-Alike License 3.0 http://creativecommons.org/licenses/by-sa/3.0/ . To reuse/adapt the content in your own work, you must comply with the license terms. -
2:46GEO-HIDRO: Geothermal well drilling - End of drilling and preparing for well logging
GEO-HIDRO: Geothermal well drilling - End of drilling and preparing for well loggingGEO-HIDRO: Geothermal well drilling - End of drilling and preparing for well logging
Geothermal borehole, 1164m deep. End of drilling and preparing for well logging. ------------------------------------------------------------------------------------------------------- Company Geo-Hidro has been established in 1990 and is specialized to carry out applied geology and drilling works in the field of hydrogeology and engineering geology. OUR SERVICES: 1. Hydrogeological and engineering geological surveys, studies, design and revision of bore holes mining projects and all other research projects for the purpose of irrigation, land drainage, construction of dams on rivers, drainage of mines, etc. .. 2. Research and exploitation drilling boreholes and wells for drinking, thermal and mineral water to a depth of 1800m 3. Production of drilled wells and large diameter piles, piezometers, geothermal probe, etc... 4. Drilling structural boreholes for geological and geotechnical surveys. More you can find out at www.geo-hidro.si -
3:222012 UGS Geothermal Drilling
2012 UGS Geothermal Drilling2012 UGS Geothermal Drilling
Discovery of a new type of geothermal energy resource in Utah offers hope for significantly more potential across the western U.S., and a boost in geothermal power production. In 2011 and 2012, Utah Geological Survey geoscientists, in partnership with a U.S. Geological Survey research drilling crew, drilled nine temperature gradient holes in Utah's Black Rock Desert basin south of Delta in western Utah to test a new concept that high-temperature geothermal resources might exist beneath young sedimentary basins. Preliminary results show that near-surface temperature gradients in the basin vary from about 33⁰F/1000 feet to 55⁰F/1000 feet. This implies temperatures of 300 to 500⁰F at 10,000 to 13,000 feet depth beneath the basin. Given the large area of this basin, the power potential is conservatively estimated to be hundreds of megawatts, and preliminary economic modeling suggests a cost of electricity of about 10c per kilowatt-hour over the life of a geothermal power project. This basin is especially attractive for geothermal development because of the existing nearby infrastructure ─ it is next to a large coal-fired power plant, a 300 MWe wind farm, and a major electrical transmission line to California. The project findings are being presented on Monday, October 1, at the annual meeting of the Geothermal Resources Council in Reno, Nevada. -
4:31Secoroc EDGE - geothermal applications (English subtitles)
Secoroc EDGE - geothermal applications (English subtitles)Secoroc EDGE - geothermal applications (English subtitles)
Secoroc EDGE utilizes sensor technology to detect and translate percussion vibrations to an easy-to-read, real-time display. The display provides a continuous report of how the bit is engaging the geology at the bottom. This enables drillers to optimize the hammer and bit performance with precision, throughout the drilling, as they evaluate the effect of their inputs instantly. Secoroc EDGE extends the operator's vision, hearing, and touch, allowing the operator to "see" what's happening all the way to total depth. -
6:59Class 10, Vid 2: Shallow geothermal energy
Class 10, Vid 2: Shallow geothermal energyClass 10, Vid 2: Shallow geothermal energy
-
15:56Class 10, Vid 1: Deep geothermal energy
Class 10, Vid 1: Deep geothermal energyClass 10, Vid 1: Deep geothermal energy
Quiz link: http://tinyurl.com/geol112-q13 -
4:06InnovWeek ENGIE - GeoThermal Energy in Indonesia
InnovWeek ENGIE - GeoThermal Energy in IndonesiaInnovWeek ENGIE - GeoThermal Energy in Indonesia
Since 2011, ENGIE has been exploring three high temperature geothermal resource areas in Sumatra, Indonesia, that are to deliver total added capacity of 530 MW to the region. Geothermal energy is energy generated by heat stored beneath the earth's surface. Indonesia, as a result of its volcanic geology, is said to have 40 percent of the world's potential geothermal resources. Only 5 percent are currently being used in the country and the government is therefore encouraging developments in this area as part of its power generation capacity plan. The video focuses on the Rantau Dedap project located in a remote area, 225km from Palembang, the capital of South Sumatra. The project started in 2009 with early exploration surveys. Following significant construction works (roads, platforms), the drilling of the wells commenced in 2014. Six wells are now being tested. The Rantau Dedap project, which is groundbreaking and innovative both from a technical and financial perspective, is critical for the acceleration of the geothermal sector in Indonesia. -
2:44CompactRotoSonic drilling for geothermal loops in east germany
CompactRotoSonic drilling for geothermal loops in east germanyCompactRotoSonic drilling for geothermal loops in east germany
This video shows you a CompactRotoSonic crawler drilling with 5,5" diameter till 42 meters in east germany (thuringen) for installation of amasond geothermal heat loop exchangers. the geology was dolomite rock layers mixed with overburden and overconsolidated sediments inbetween the hard rock. in total 12 heat loops were installed. in normal circumstances 4-5 loops must be achieved per day. installation of the loop is done trough the casing. All loops were grouted with a cement slurry trough the swivel while retracting the drill string. quikest hole was done including grouting within 1,5 hour. for more info visit www.sonicsampdrill.com
- Acre
- Adiabatic
- Advection
- Alaska
- Ambient temperature
- Bibcode
- Binary cycle
- Capacity factor
- Climate change
- Climatic
- Continental crust
- Convection
- Copper
- Coriolis effect
- Crystallization
- Decay heat
- District heating
- Drill bits
- Drilling
- Earth
- Earth's crust
- Earth's mantle
- Electricity
- Energy in Mexico
- Energy storage
- Energy subsidies
- Engineering
- EROEI
- Erosion
- Fluid
- Friction
- Geodesy
- Geodynamics
- Geodynamo
- Geophysics
- Geothermal electric
- Geothermal energy
- Geothermal gradient
- Geothermal heat pump
- Geothermal heating
- Geothermal power
- Gold
- GPa
- Granite
- Gravity of Earth
- Heat conduction
- Heat flow
- Heat flux
- Heat pump
- Heavy metals
- Holocene
- Inner core
- Internal heat
- Iron
- Kelvin
- Komatiites
- Light bulb
- Lithosphere
- Magnetic field
- Mantle (geology)
- Mantle convection
- Mantle plume
- Meteorite
- Mid-ocean ridge
- Milankovitch cycle
- Mineral physics
- Mining
- Nickel
- Northern Canada
- Oceanic crust
- Outer core
- Paleomagnetism
- Peridotite
- Permafrost
- Plate tectonics
- Pleistocene
- Poland
- Polar ice caps
- Portal Energy
- Potassium
- PubMed Identifier
- Radioactive decay
- S-waves
- Seismic wave
- Seismology
- Siberia
- Solid
- South Africa
- Subsidence
- Suwałki
- Tectonic
- Tectonic uplift
- Tectonophysics
- Temperature
- Thermal conductivity
- Thorium
- Tidal force
- Tropics
- Turbine
- Uranium
- Watt
- West Indies Power
-
Geologist/Engineer Charlene Wardlow - Focusing on Jobs in the Geothermal Community
Reno resident Linda Peri interviews Charlene Wardlow, Director of Business Development for Ormat Technologies. Charlene talks about being interested in geology from a young age, experiences in many different aspects of geothermal development, similarities to oil and gas development, and doing what you love. This series on Jobs in the Geothermal Community was filmed at GEA's National Geothermal Summit 2011 in Reno, Nevada. -
-
Steam Drillers (Geothermal Energy Development)
Geothermal drilling is the process of creating boreholes in the earth to extract the earth's heat. Geothermal Exploration is the exploration of the subsurface in search of viable active geothermal regions with the goal of building a geothermal power plant, where hot fluids drive turbines to create electricity. Exploration methods include a broad range of disciplines including geology, geophysics, geochemistry and engineering. Geothermal regions with adequate heat flow to fuel power plants are found in rift zones, subduction zones and mantle plumes. Hot spots are characterized by four geothermal elements. An active region will have: Heat Source - Shallow magmatic body, decaying radioactive elements or ambient heat from high pressures Reservoir - Collection of hot rocks from which heat ca... -
Remote Sensing for Geothermal Spatial measurements - GeoDrone ehf.
Service dedicated for Geothermal exploration companies. Multi sensor solutions for geothermal exploration measurements and engineering planning. GeoDrone provides spatial detection and analysis of geological fault lines, collection and analysis of spatial data for engineering planning, development and construction works. Our analysis base on thermal signatures, mineral mapping and gas seepage detection. That allows us to provide data for further verification of the fault lines for geothermal deposit analysis. Our service includes dedicated Personal Assistance and co-creation with client of final, customized reports and analysis. We use drones and various other types of UAVs, so that we are able to reduce time necessary for data collection, formalities and overcoming restrictions. The acc... -
Green Careers: Clean Energy - Geothermal Power (clip)
We visit the largest geothermal operation in the world to see how heat from the earths core is transformed into electricity. We meet a chemist, geologist, plant operator, environmental manager and engineer as they show us how they manage steam production wells and electric generators. This growing field relies not just on professionals with advanced degrees but entry- level workers who drill the wells and maintain the power plants in this vanguard of clean energy. Jobs profiled in this program include: Geologist, Project Manager, Chemist, Environmental Manager, Plant Operator Grade Levels: 7 to Adult 22 minutes • Color Direct link to purchase the DVD: http://www.phoenixlearninggroup.com/Products/VideoDetail.aspx?id=be1f20f7-873a-46ea-aeb1-48ea14e5aa8c⊂=6516bc9d-f8fd-4e9... -
GEO-HIDRO: Geothermal well drilling - cementing well from 0-200m
Geothermal borehole,1164m deep. Cementing process 0-200m. ----------------------------------------------------------------------------------------------- Company Geo-Hidro has been established in 1990 and is specialized to carry out applied geology and drilling works in the field of hydrogeology and engineering geology. OUR SERVICES: 1. Hydrogeological and engineering geological surveys, studies, design and revision of bore holes mining projects and all other research projects for the purpose of irrigation, land drainage, construction of dams on rivers, drainage of mines, etc. .. 2. Research and exploitation drilling boreholes and wells for drinking, thermal and mineral water to a depth of 1800m 3. Production of drilled wells and large diameter piles, piezometers, geothermal probe, etc... -
Geothermal gradient - Video Learning - WizScience.com
"Geothermal gradient" is the rate of increasing temperature with respect to increasing depth in the Earth's interior. Away from tectonic plate boundaries, it is about "25 °C per km of depth" in most of the world. Strictly speaking, "geo"-thermal necessarily refers to the Earth but the concept may be applied to other planets. The Earth's internal heat comes from a combination of residual heat from planetary accretion, heat produced through radioactive decay, and possibly heat from other sources. The major heat-producing isotopes in the Earth are potassium-40, uranium-238, uranium-235, and thorium-232. At the center of the planet, the temperature may be up to 7,000 K and the pressure could reach 360 GPa . Because much of the heat is provided by radioactive decay, scientists believe that e... -
GEO-HIDRO: Geothermal well drilling - End of drilling and preparing for well logging
Geothermal borehole, 1164m deep. End of drilling and preparing for well logging. ------------------------------------------------------------------------------------------------------- Company Geo-Hidro has been established in 1990 and is specialized to carry out applied geology and drilling works in the field of hydrogeology and engineering geology. OUR SERVICES: 1. Hydrogeological and engineering geological surveys, studies, design and revision of bore holes mining projects and all other research projects for the purpose of irrigation, land drainage, construction of dams on rivers, drainage of mines, etc. .. 2. Research and exploitation drilling boreholes and wells for drinking, thermal and mineral water to a depth of 1800m 3. Production of drilled wells and large diameter piles, pie... -
2012 UGS Geothermal Drilling
Discovery of a new type of geothermal energy resource in Utah offers hope for significantly more potential across the western U.S., and a boost in geothermal power production. In 2011 and 2012, Utah Geological Survey geoscientists, in partnership with a U.S. Geological Survey research drilling crew, drilled nine temperature gradient holes in Utah's Black Rock Desert basin south of Delta in western Utah to test a new concept that high-temperature geothermal resources might exist beneath young sedimentary basins. Preliminary results show that near-surface temperature gradients in the basin vary from about 33⁰F/1000 feet to 55⁰F/1000 feet. This implies temperatures of 300 to 500⁰F at 10,000 to 13,000 feet depth beneath the basin. Given the large area of this basin, the power potential is co... -
Secoroc EDGE - geothermal applications (English subtitles)
Secoroc EDGE utilizes sensor technology to detect and translate percussion vibrations to an easy-to-read, real-time display. The display provides a continuous report of how the bit is engaging the geology at the bottom. This enables drillers to optimize the hammer and bit performance with precision, throughout the drilling, as they evaluate the effect of their inputs instantly. Secoroc EDGE extends the operator's vision, hearing, and touch, allowing the operator to "see" what's happening all the way to total depth. -
Class 10, Vid 2: Shallow geothermal energy
-
Class 10, Vid 1: Deep geothermal energy
Quiz link: http://tinyurl.com/geol112-q13 -
InnovWeek ENGIE - GeoThermal Energy in Indonesia
Since 2011, ENGIE has been exploring three high temperature geothermal resource areas in Sumatra, Indonesia, that are to deliver total added capacity of 530 MW to the region. Geothermal energy is energy generated by heat stored beneath the earth's surface. Indonesia, as a result of its volcanic geology, is said to have 40 percent of the world's potential geothermal resources. Only 5 percent are currently being used in the country and the government is therefore encouraging developments in this area as part of its power generation capacity plan. The video focuses on the Rantau Dedap project located in a remote area, 225km from Palembang, the capital of South Sumatra. The project started in 2009 with early exploration surveys. Following significant construction works (roads, platforms),... -
CompactRotoSonic drilling for geothermal loops in east germany
This video shows you a CompactRotoSonic crawler drilling with 5,5" diameter till 42 meters in east germany (thuringen) for installation of amasond geothermal heat loop exchangers. the geology was dolomite rock layers mixed with overburden and overconsolidated sediments inbetween the hard rock. in total 12 heat loops were installed. in normal circumstances 4-5 loops must be achieved per day. installation of the loop is done trough the casing. All loops were grouted with a cement slurry trough the swivel while retracting the drill string. quikest hole was done including grouting within 1,5 hour. for more info visit www.sonicsampdrill.com -
3-D Visualization of IU EHouse Geothermal System
3-D visualization showing the vertical geothermal ground loops and underlying geology at Indiana University Office of Sustainability EHouse in Bloomington, Indiana. Heat is transferred back and forth between the 55℉ soil and bedrock and the geothermal ground loops to provide year-round heating and cooling for EHouse. Let’s use this continuous, widely-distributed, renewable energy to help solve our energy problems. Bob Autio Geologist and IGSHPA-accredited geothermal installer bautio@envdata.com -
Rotorua Geothermal Feature (Kuirau Park)
Find out more about New Zealand on www.FunNewZealandTravel.com Alkaline Chloride Springs Geology - Geothermal Feature Natural geothermal activity presents itself in many forms but can be generally classified as either an alkaline chloride feature or as an acid sulphate feature. Both are found within Kuirau Park. Alkaline chloride features are often clear water springs forced rapidly to the surface by geothermal pressure from deep underground. In prehistoric times sinter was deposited in and around the surface vents from the mixture of mineral dissolved within the spring water. Today the chemistry of the springs in Kuirau Park is different. The hot water contains higher levels of bicarbonate and low levels of the mineral silica. This has reduced the amount of white silica being deposited... -
Rotorua Geothermal Feature (Kuirau Park)
Find out more about New Zealand on www.FunNewZealandTravel.com Alkaline Chloride Springs Geology - Geothermal Feature Natural geothermal activity presents itself in many forms but can be generally classified as either an alkaline chloride feature or as an acid sulphate feature. Both are found within Kuirau Park. Alkaline chloride features are often clear water springs forced rapidly to the surface by geothermal pressure from deep underground. In prehistoric times sinter was deposited in and around the surface vents from the mixture of mineral dissolved within the spring water. Today the chemistry of the springs in Kuirau Park is different. The hot water contains higher levels of bicarbonate and low levels of the mineral silica. This has reduced the amount of white silica being dep... -
Rotorua Geothermal Feature (Kuirau Park)
Find out more about New Zealand on www.FunNewZealandTravel.com Alkaline Chloride Springs Geology - Geothermal Feature Natural geothermal activity presents itself in many forms but can be generally classified as either an alkaline chloride feature or as an acid sulphate feature. Both are found within Kuirau Park. Alkaline chloride features are often clear water springs forced rapidly to the surface by geothermal pressure from deep underground. In prehistoric times sinter was deposited in and around the surface vents from the mixture of mineral dissolved within the spring water. Today the chemistry of the springs in Kuirau Park is different. The hot water contains higher levels of bicarbonate and low levels of the mineral silica. This has reduced the amount of white silica being deposited... -
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North Bay Bountiful: Geothermal Energy
Jim Kluesener, Vice President Geothermal Region for Calpine, explains how “The Geysers” geothermal energy complex works. What is the geology? What are the cost savings compared to traditional carbon energy sources? What is the process? -
Project Developer Stephen Hirsch - Focusing on Jobs in the Geothermal Community
UNLV geology student Beverly Laag interviews Stephen Hirsch, Director of New Program Development at Geothermal Development Associates. Steve talks about exciting opportunities in the burgeoning geothermal market of the East African Rift region and about being dedicated to your work. This series on Jobs in the Geothermal Community was filmed at GEA's National Geothermal Summit 2011 in Reno, Nevada. -
mini student World Cafe - sustainable geothermal energy
Students from a geology class discuss sustainability issues in geothermal energy development -
Nevada Bureau of Mines and Geology
The Nevada Bureau of Mines and Geology conducts cutting edge, societally relevant science that fosters economic development and public safety and involves training of the next generation of geoscientists. Major projects include earthquake hazard studies in the nation's third most seismically active state, mineral and geothermal resource assessments, and regional tectonic studies of Nevada's rapidly evolving landscape. (Produced in cooperation with WebsEdge)
Geologist/Engineer Charlene Wardlow - Focusing on Jobs in the Geothermal Community
- Order: Reorder
- Duration: 8:08
- Updated: 23 Sep 2011
- views: 461
Reno resident Linda Peri interviews Charlene Wardlow, Director of Business Development for Ormat Technologies. Charlene talks about being interested in geology...
Reno resident Linda Peri interviews Charlene Wardlow, Director of Business Development for Ormat Technologies. Charlene talks about being interested in geology from a young age, experiences in many different aspects of geothermal development, similarities to oil and gas development, and doing what you love. This series on Jobs in the Geothermal Community was filmed at GEA's National Geothermal Summit 2011 in Reno, Nevada.
wn.com/Geologist Engineer Charlene Wardlow Focusing On Jobs In The Geothermal Community
Reno resident Linda Peri interviews Charlene Wardlow, Director of Business Development for Ormat Technologies. Charlene talks about being interested in geology from a young age, experiences in many different aspects of geothermal development, similarities to oil and gas development, and doing what you love. This series on Jobs in the Geothermal Community was filmed at GEA's National Geothermal Summit 2011 in Reno, Nevada.
- published: 23 Sep 2011
- views: 461
Iceland-Geothermal
- Order: Reorder
- Duration: 5:54
- Updated: 17 Oct 2009
- views: 13130
Description of geology of Iceland and geothermal energy
Description of geology of Iceland and geothermal energy
wn.com/Iceland Geothermal
Steam Drillers (Geothermal Energy Development)
- Order: Reorder
- Duration: 47:00
- Updated: 02 Dec 2014
- views: 62973
Geothermal drilling is the process of creating boreholes in the earth to extract the earth's heat.
Geothermal Exploration is the exploration of the subsurface ...
Geothermal drilling is the process of creating boreholes in the earth to extract the earth's heat.
Geothermal Exploration is the exploration of the subsurface in search of viable active geothermal regions with the goal of building a geothermal power plant, where hot fluids drive turbines to create electricity. Exploration methods include a broad range of disciplines including geology, geophysics, geochemistry and engineering.
Geothermal regions with adequate heat flow to fuel power plants are found in rift zones, subduction zones and mantle plumes. Hot spots are characterized by four geothermal elements. An active region will have:
Heat Source - Shallow magmatic body, decaying radioactive elements or ambient heat from high pressures
Reservoir - Collection of hot rocks from which heat can be drawn
Geothermal Fluid - Gas, vapor and water found within the reservoir
Recharge Area - Area surrounding the reservoir that rehydrates the geothermal system.
Exploration involves not only identifying hot geothermal bodies, but also low-density, cost effective regions to drill and already constituted plumbing systems inherent within the subsurface. This information allows for higher success rates in geothermal plant production as well as lower drilling costs.
As much as 42% of all expenses associated with geothermal energy production can be attributed to exploration. These costs are mostly from drilling operations necessary to confirm or deny viable geothermal regions. Some geothermal experts have gone to say that developments in exploration techniques and technologies have the potential to bring the greatest advancements within the industry.
wn.com/Steam Drillers (Geothermal Energy Development)
Geothermal drilling is the process of creating boreholes in the earth to extract the earth's heat.
Geothermal Exploration is the exploration of the subsurface in search of viable active geothermal regions with the goal of building a geothermal power plant, where hot fluids drive turbines to create electricity. Exploration methods include a broad range of disciplines including geology, geophysics, geochemistry and engineering.
Geothermal regions with adequate heat flow to fuel power plants are found in rift zones, subduction zones and mantle plumes. Hot spots are characterized by four geothermal elements. An active region will have:
Heat Source - Shallow magmatic body, decaying radioactive elements or ambient heat from high pressures
Reservoir - Collection of hot rocks from which heat can be drawn
Geothermal Fluid - Gas, vapor and water found within the reservoir
Recharge Area - Area surrounding the reservoir that rehydrates the geothermal system.
Exploration involves not only identifying hot geothermal bodies, but also low-density, cost effective regions to drill and already constituted plumbing systems inherent within the subsurface. This information allows for higher success rates in geothermal plant production as well as lower drilling costs.
As much as 42% of all expenses associated with geothermal energy production can be attributed to exploration. These costs are mostly from drilling operations necessary to confirm or deny viable geothermal regions. Some geothermal experts have gone to say that developments in exploration techniques and technologies have the potential to bring the greatest advancements within the industry.
- published: 02 Dec 2014
- views: 62973
Remote Sensing for Geothermal Spatial measurements - GeoDrone ehf.
- Order: Reorder
- Duration: 2:01
- Updated: 17 Jul 2014
- views: 720
Service dedicated for Geothermal exploration companies. Multi sensor solutions for geothermal exploration measurements and engineering planning.
GeoDrone provi...
Service dedicated for Geothermal exploration companies. Multi sensor solutions for geothermal exploration measurements and engineering planning.
GeoDrone provides spatial detection and analysis of geological fault lines, collection and analysis of spatial data for engineering planning, development and construction works. Our analysis base on thermal signatures, mineral mapping and gas seepage detection. That allows us to provide data for further verification of the fault lines for geothermal deposit analysis.
Our service includes dedicated Personal Assistance and co-creation with client of final, customized reports and analysis. We use drones and various other types of UAVs, so that we are able to reduce time necessary for data collection, formalities and overcoming restrictions. The accuracy of all positioning is based on the supplied GPS base in the survey area. Maintaining a constant high standard measurements and performance, our service reduces costs and investment risk.
wn.com/Remote Sensing For Geothermal Spatial Measurements Geodrone Ehf.
Service dedicated for Geothermal exploration companies. Multi sensor solutions for geothermal exploration measurements and engineering planning.
GeoDrone provides spatial detection and analysis of geological fault lines, collection and analysis of spatial data for engineering planning, development and construction works. Our analysis base on thermal signatures, mineral mapping and gas seepage detection. That allows us to provide data for further verification of the fault lines for geothermal deposit analysis.
Our service includes dedicated Personal Assistance and co-creation with client of final, customized reports and analysis. We use drones and various other types of UAVs, so that we are able to reduce time necessary for data collection, formalities and overcoming restrictions. The accuracy of all positioning is based on the supplied GPS base in the survey area. Maintaining a constant high standard measurements and performance, our service reduces costs and investment risk.
- published: 17 Jul 2014
- views: 720
Green Careers: Clean Energy - Geothermal Power (clip)
- Order: Reorder
- Duration: 2:37
- Updated: 30 Sep 2009
- views: 1729
We visit the largest geothermal operation in the world to see how heat from the earths core is transformed into electricity. We meet a chemist, geologist, plant...
We visit the largest geothermal operation in the world to see how heat from the earths core is transformed into electricity. We meet a chemist, geologist, plant operator, environmental manager and engineer as they show us how they manage steam production wells and electric generators. This growing field relies not just on professionals with advanced degrees but entry- level workers who drill the wells and maintain the power plants in this vanguard of clean energy.
Jobs profiled in this program include:
Geologist, Project Manager, Chemist, Environmental Manager, Plant Operator
Grade Levels: 7 to Adult
22 minutes • Color
Direct link to purchase the DVD:
http://www.phoenixlearninggroup.com/Products/VideoDetail.aspx?id=be1f20f7-873a-46ea-aeb1-48ea14e5aa8c⊂=6516bc9d-f8fd-4e94-b702-ab180d939306&cat;=
wn.com/Green Careers Clean Energy Geothermal Power (Clip)
We visit the largest geothermal operation in the world to see how heat from the earths core is transformed into electricity. We meet a chemist, geologist, plant operator, environmental manager and engineer as they show us how they manage steam production wells and electric generators. This growing field relies not just on professionals with advanced degrees but entry- level workers who drill the wells and maintain the power plants in this vanguard of clean energy.
Jobs profiled in this program include:
Geologist, Project Manager, Chemist, Environmental Manager, Plant Operator
Grade Levels: 7 to Adult
22 minutes • Color
Direct link to purchase the DVD:
http://www.phoenixlearninggroup.com/Products/VideoDetail.aspx?id=be1f20f7-873a-46ea-aeb1-48ea14e5aa8c⊂=6516bc9d-f8fd-4e94-b702-ab180d939306&cat;=
- published: 30 Sep 2009
- views: 1729
GEO-HIDRO: Geothermal well drilling - cementing well from 0-200m
- Order: Reorder
- Duration: 10:55
- Updated: 07 Jun 2011
- views: 2334
Geothermal borehole,1164m deep. Cementing process 0-200m.
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Compa...
Geothermal borehole,1164m deep. Cementing process 0-200m.
-----------------------------------------------------------------------------------------------
Company Geo-Hidro has been established in 1990 and is specialized to carry out applied geology and drilling works in the field of hydrogeology and engineering geology.
OUR SERVICES:
1. Hydrogeological and engineering geological surveys, studies, design and revision of bore holes mining projects and all other research projects for the purpose of irrigation, land drainage, construction of dams on rivers, drainage of mines, etc. ..
2. Research and exploitation drilling boreholes and wells for drinking, thermal and mineral water to a depth of 1800m
3. Production of drilled wells and large diameter piles, piezometers, geothermal probe, etc...
4. Drilling structural boreholes for geological and geotechnical surveys.
More you can find out at www.geo-hidro.si
wn.com/Geo Hidro Geothermal Well Drilling Cementing Well From 0 200M
Geothermal borehole,1164m deep. Cementing process 0-200m.
-----------------------------------------------------------------------------------------------
Company Geo-Hidro has been established in 1990 and is specialized to carry out applied geology and drilling works in the field of hydrogeology and engineering geology.
OUR SERVICES:
1. Hydrogeological and engineering geological surveys, studies, design and revision of bore holes mining projects and all other research projects for the purpose of irrigation, land drainage, construction of dams on rivers, drainage of mines, etc. ..
2. Research and exploitation drilling boreholes and wells for drinking, thermal and mineral water to a depth of 1800m
3. Production of drilled wells and large diameter piles, piezometers, geothermal probe, etc...
4. Drilling structural boreholes for geological and geotechnical surveys.
More you can find out at www.geo-hidro.si
- published: 07 Jun 2011
- views: 2334
Geothermal gradient - Video Learning - WizScience.com
- Order: Reorder
- Duration: 2:09
- Updated: 02 Sep 2015
- views: 165
"Geothermal gradient" is the rate of increasing temperature with respect to increasing depth in the Earth's interior. Away from tectonic plate boundaries, it is...
"Geothermal gradient" is the rate of increasing temperature with respect to increasing depth in the Earth's interior. Away from tectonic plate boundaries, it is about "25 °C per km of depth" in most of the world. Strictly speaking, "geo"-thermal necessarily refers to the Earth but the concept may be applied to other planets. The Earth's internal heat comes from a combination of residual heat from planetary accretion, heat produced through radioactive decay, and possibly heat from other sources. The major heat-producing isotopes in the Earth are potassium-40, uranium-238, uranium-235, and thorium-232. At the center of the planet, the temperature may be up to 7,000 K and the pressure could reach 360 GPa . Because much of the heat is provided by radioactive decay, scientists believe that early in Earth history, before isotopes with short half-lives had been depleted, Earth's heat production would have been much higher. Heat production was twice that of present-day at approximately 3 billion years ago, resulting in larger temperature gradients within the Earth, larger rates of mantle convection and plate tectonics, allowing the production of igneous rocks such as komatiites that are not formed anymore today.
Temperature within the Earth increases with depth. Highly viscous or partially molten rock at temperatures between 650 to is postulated to exist everywhere beneath the Earth's surface at depths of 80 to , and the temperature at the Earth's inner core/outer core boundary, around 3500 km deep, is estimated to be 5650 ± 600 kelvins. The heat content of the Earth is 10 31 joules.
Wiz Science™ is "the" learning channel for children and all ages.
SUBSCRIBE TODAY
Disclaimer: This video is for your information only. The author or publisher does not guarantee the accuracy of the content presented in this video. USE AT YOUR OWN RISK.
Background Music:
"The Place Inside" by Silent Partner (royalty-free) from YouTube Audio Library.
This video uses material/images from https://en.wikipedia.org/wiki/Geothermal+gradient, which is released under Creative Commons Attribution-Share-Alike License 3.0 http://creativecommons.org/licenses/by-sa/3.0/ . This video is licensed under Creative Commons Attribution-Share-Alike License 3.0 http://creativecommons.org/licenses/by-sa/3.0/ . To reuse/adapt the content in your own work, you must comply with the license terms.
wn.com/Geothermal Gradient Video Learning Wizscience.Com
"Geothermal gradient" is the rate of increasing temperature with respect to increasing depth in the Earth's interior. Away from tectonic plate boundaries, it is about "25 °C per km of depth" in most of the world. Strictly speaking, "geo"-thermal necessarily refers to the Earth but the concept may be applied to other planets. The Earth's internal heat comes from a combination of residual heat from planetary accretion, heat produced through radioactive decay, and possibly heat from other sources. The major heat-producing isotopes in the Earth are potassium-40, uranium-238, uranium-235, and thorium-232. At the center of the planet, the temperature may be up to 7,000 K and the pressure could reach 360 GPa . Because much of the heat is provided by radioactive decay, scientists believe that early in Earth history, before isotopes with short half-lives had been depleted, Earth's heat production would have been much higher. Heat production was twice that of present-day at approximately 3 billion years ago, resulting in larger temperature gradients within the Earth, larger rates of mantle convection and plate tectonics, allowing the production of igneous rocks such as komatiites that are not formed anymore today.
Temperature within the Earth increases with depth. Highly viscous or partially molten rock at temperatures between 650 to is postulated to exist everywhere beneath the Earth's surface at depths of 80 to , and the temperature at the Earth's inner core/outer core boundary, around 3500 km deep, is estimated to be 5650 ± 600 kelvins. The heat content of the Earth is 10 31 joules.
Wiz Science™ is "the" learning channel for children and all ages.
SUBSCRIBE TODAY
Disclaimer: This video is for your information only. The author or publisher does not guarantee the accuracy of the content presented in this video. USE AT YOUR OWN RISK.
Background Music:
"The Place Inside" by Silent Partner (royalty-free) from YouTube Audio Library.
This video uses material/images from https://en.wikipedia.org/wiki/Geothermal+gradient, which is released under Creative Commons Attribution-Share-Alike License 3.0 http://creativecommons.org/licenses/by-sa/3.0/ . This video is licensed under Creative Commons Attribution-Share-Alike License 3.0 http://creativecommons.org/licenses/by-sa/3.0/ . To reuse/adapt the content in your own work, you must comply with the license terms.
- published: 02 Sep 2015
- views: 165
GEO-HIDRO: Geothermal well drilling - End of drilling and preparing for well logging
- Order: Reorder
- Duration: 2:46
- Updated: 29 May 2011
- views: 2341
Geothermal borehole, 1164m deep. End of drilling and preparing for well logging.
------------------------------------------------------------------------------...
Geothermal borehole, 1164m deep. End of drilling and preparing for well logging.
-------------------------------------------------------------------------------------------------------
Company Geo-Hidro has been established in 1990 and is specialized to carry out applied geology and drilling works in the field of hydrogeology and engineering geology.
OUR SERVICES:
1. Hydrogeological and engineering geological surveys, studies, design and revision of bore holes mining projects and all other research projects for the purpose of irrigation, land drainage, construction of dams on rivers, drainage of mines, etc. ..
2. Research and exploitation drilling boreholes and wells for drinking, thermal and mineral water to a depth of 1800m
3. Production of drilled wells and large diameter piles, piezometers, geothermal probe, etc...
4. Drilling structural boreholes for geological and geotechnical surveys.
More you can find out at www.geo-hidro.si
wn.com/Geo Hidro Geothermal Well Drilling End Of Drilling And Preparing For Well Logging
Geothermal borehole, 1164m deep. End of drilling and preparing for well logging.
-------------------------------------------------------------------------------------------------------
Company Geo-Hidro has been established in 1990 and is specialized to carry out applied geology and drilling works in the field of hydrogeology and engineering geology.
OUR SERVICES:
1. Hydrogeological and engineering geological surveys, studies, design and revision of bore holes mining projects and all other research projects for the purpose of irrigation, land drainage, construction of dams on rivers, drainage of mines, etc. ..
2. Research and exploitation drilling boreholes and wells for drinking, thermal and mineral water to a depth of 1800m
3. Production of drilled wells and large diameter piles, piezometers, geothermal probe, etc...
4. Drilling structural boreholes for geological and geotechnical surveys.
More you can find out at www.geo-hidro.si
- published: 29 May 2011
- views: 2341
2012 UGS Geothermal Drilling
- Order: Reorder
- Duration: 3:22
- Updated: 27 Sep 2012
- views: 2102
Discovery of a new type of geothermal energy resource in Utah offers hope for significantly more potential across the western U.S., and a boost in geothermal po...
Discovery of a new type of geothermal energy resource in Utah offers hope for significantly more potential across the western U.S., and a boost in geothermal power production. In 2011 and 2012, Utah Geological Survey geoscientists, in partnership with a U.S. Geological Survey research drilling crew, drilled nine temperature gradient holes in Utah's Black Rock Desert basin south of Delta in western Utah to test a new concept that high-temperature geothermal resources might exist beneath young sedimentary basins. Preliminary results show that near-surface temperature gradients in the basin vary from about 33⁰F/1000 feet to 55⁰F/1000 feet. This implies temperatures of 300 to 500⁰F at 10,000 to 13,000 feet depth beneath the basin. Given the large area of this basin, the power potential is conservatively estimated to be hundreds of megawatts, and preliminary economic modeling suggests a cost of electricity of about 10c per kilowatt-hour over the life of a geothermal power project. This basin is especially attractive for geothermal development because of the existing nearby infrastructure ─ it is next to a large coal-fired power plant, a 300 MWe wind farm, and a major electrical transmission line to California.
The project findings are being presented on Monday, October 1, at the annual meeting of the Geothermal Resources Council in Reno, Nevada.
wn.com/2012 Ugs Geothermal Drilling
Discovery of a new type of geothermal energy resource in Utah offers hope for significantly more potential across the western U.S., and a boost in geothermal power production. In 2011 and 2012, Utah Geological Survey geoscientists, in partnership with a U.S. Geological Survey research drilling crew, drilled nine temperature gradient holes in Utah's Black Rock Desert basin south of Delta in western Utah to test a new concept that high-temperature geothermal resources might exist beneath young sedimentary basins. Preliminary results show that near-surface temperature gradients in the basin vary from about 33⁰F/1000 feet to 55⁰F/1000 feet. This implies temperatures of 300 to 500⁰F at 10,000 to 13,000 feet depth beneath the basin. Given the large area of this basin, the power potential is conservatively estimated to be hundreds of megawatts, and preliminary economic modeling suggests a cost of electricity of about 10c per kilowatt-hour over the life of a geothermal power project. This basin is especially attractive for geothermal development because of the existing nearby infrastructure ─ it is next to a large coal-fired power plant, a 300 MWe wind farm, and a major electrical transmission line to California.
The project findings are being presented on Monday, October 1, at the annual meeting of the Geothermal Resources Council in Reno, Nevada.
- published: 27 Sep 2012
- views: 2102
Secoroc EDGE - geothermal applications (English subtitles)
- Order: Reorder
- Duration: 4:31
- Updated: 30 Jan 2012
- views: 1747
Secoroc EDGE utilizes sensor technology to detect and translate percussion vibrations to an easy-to-read, real-time display. The display provides a continuous r...
Secoroc EDGE utilizes sensor technology to detect and translate percussion vibrations to an easy-to-read, real-time display. The display provides a continuous report of how the bit is engaging the geology at the bottom. This enables drillers to optimize the hammer and bit performance with precision, throughout the drilling, as they evaluate the effect of their inputs instantly. Secoroc EDGE extends the operator's vision, hearing, and touch, allowing the operator to "see" what's happening all the way to total depth.
wn.com/Secoroc Edge Geothermal Applications (English Subtitles)
Secoroc EDGE utilizes sensor technology to detect and translate percussion vibrations to an easy-to-read, real-time display. The display provides a continuous report of how the bit is engaging the geology at the bottom. This enables drillers to optimize the hammer and bit performance with precision, throughout the drilling, as they evaluate the effect of their inputs instantly. Secoroc EDGE extends the operator's vision, hearing, and touch, allowing the operator to "see" what's happening all the way to total depth.
- published: 30 Jan 2012
- views: 1747
Class 10, Vid 2: Shallow geothermal energy
- Order: Reorder
- Duration: 6:59
- Updated: 07 Mar 2016
- views: 12
- published: 07 Mar 2016
- views: 12
Class 10, Vid 1: Deep geothermal energy
- Order: Reorder
- Duration: 15:56
- Updated: 07 Mar 2016
- views: 52
Quiz link: http://tinyurl.com/geol112-q13
Quiz link: http://tinyurl.com/geol112-q13
wn.com/Class 10, Vid 1 Deep Geothermal Energy
InnovWeek ENGIE - GeoThermal Energy in Indonesia
- Order: Reorder
- Duration: 4:06
- Updated: 01 Jun 2015
- views: 591
Since 2011, ENGIE has been exploring three high temperature geothermal resource areas in Sumatra, Indonesia, that are to deliver total added capacity of 530 MW ...
Since 2011, ENGIE has been exploring three high temperature geothermal resource areas in Sumatra, Indonesia, that are to deliver total added capacity of 530 MW to the region.
Geothermal energy is energy generated by heat stored beneath the earth's surface.
Indonesia, as a result of its volcanic geology, is said to have 40 percent of the world's potential geothermal resources. Only 5 percent are currently being used in the country and the government is therefore encouraging developments in this area as part of its power generation capacity plan.
The video focuses on the Rantau Dedap project located in a remote area, 225km from Palembang, the capital of South Sumatra. The project started in 2009 with early exploration surveys. Following significant construction works (roads, platforms), the drilling of the wells commenced in 2014. Six wells are now being tested. The Rantau Dedap project, which is groundbreaking and innovative both from a technical and financial perspective, is critical for the acceleration of the geothermal sector in Indonesia.
wn.com/Innovweek Engie Geothermal Energy In Indonesia
Since 2011, ENGIE has been exploring three high temperature geothermal resource areas in Sumatra, Indonesia, that are to deliver total added capacity of 530 MW to the region.
Geothermal energy is energy generated by heat stored beneath the earth's surface.
Indonesia, as a result of its volcanic geology, is said to have 40 percent of the world's potential geothermal resources. Only 5 percent are currently being used in the country and the government is therefore encouraging developments in this area as part of its power generation capacity plan.
The video focuses on the Rantau Dedap project located in a remote area, 225km from Palembang, the capital of South Sumatra. The project started in 2009 with early exploration surveys. Following significant construction works (roads, platforms), the drilling of the wells commenced in 2014. Six wells are now being tested. The Rantau Dedap project, which is groundbreaking and innovative both from a technical and financial perspective, is critical for the acceleration of the geothermal sector in Indonesia.
- published: 01 Jun 2015
- views: 591
CompactRotoSonic drilling for geothermal loops in east germany
- Order: Reorder
- Duration: 2:44
- Updated: 31 Aug 2009
- views: 4176
This video shows you a CompactRotoSonic crawler drilling with 5,5" diameter till 42 meters in east germany (thuringen) for installation of amasond geothermal he...
This video shows you a CompactRotoSonic crawler drilling with 5,5" diameter till 42 meters in east germany (thuringen) for installation of amasond geothermal heat loop exchangers. the geology was dolomite rock layers mixed with overburden and overconsolidated sediments inbetween the hard rock. in total 12 heat loops were installed. in normal circumstances 4-5 loops must be achieved per day. installation of the loop is done trough the casing. All loops were grouted with a cement slurry trough the swivel while retracting the drill string. quikest hole was done including grouting within 1,5 hour. for more info visit www.sonicsampdrill.com
wn.com/Compactrotosonic Drilling For Geothermal Loops In East Germany
This video shows you a CompactRotoSonic crawler drilling with 5,5" diameter till 42 meters in east germany (thuringen) for installation of amasond geothermal heat loop exchangers. the geology was dolomite rock layers mixed with overburden and overconsolidated sediments inbetween the hard rock. in total 12 heat loops were installed. in normal circumstances 4-5 loops must be achieved per day. installation of the loop is done trough the casing. All loops were grouted with a cement slurry trough the swivel while retracting the drill string. quikest hole was done including grouting within 1,5 hour. for more info visit www.sonicsampdrill.com
- published: 31 Aug 2009
- views: 4176
3-D Visualization of IU EHouse Geothermal System
- Order: Reorder
- Duration: 1:24
- Updated: 18 May 2015
- views: 24
3-D visualization showing the vertical geothermal ground loops and underlying geology at Indiana University Office of Sustainability EHouse in Bloomington, Indi...
3-D visualization showing the vertical geothermal ground loops and underlying geology at Indiana University Office of Sustainability EHouse in Bloomington, Indiana.
Heat is transferred back and forth between the 55℉ soil and bedrock and the geothermal ground loops to provide year-round heating and cooling for EHouse.
Let’s use this continuous, widely-distributed, renewable energy to help solve our energy problems.
Bob Autio
Geologist and IGSHPA-accredited geothermal installer
bautio@envdata.com
wn.com/3 D Visualization Of Iu Ehouse Geothermal System
3-D visualization showing the vertical geothermal ground loops and underlying geology at Indiana University Office of Sustainability EHouse in Bloomington, Indiana.
Heat is transferred back and forth between the 55℉ soil and bedrock and the geothermal ground loops to provide year-round heating and cooling for EHouse.
Let’s use this continuous, widely-distributed, renewable energy to help solve our energy problems.
Bob Autio
Geologist and IGSHPA-accredited geothermal installer
bautio@envdata.com
- published: 18 May 2015
- views: 24
Rotorua Geothermal Feature (Kuirau Park)
- Order: Reorder
- Duration: 0:16
- Updated: 27 Mar 2011
- views: 132
Find out more about New Zealand on www.FunNewZealandTravel.com
Alkaline Chloride Springs Geology - Geothermal Feature
Natural geothermal activity presents its...
Find out more about New Zealand on www.FunNewZealandTravel.com
Alkaline Chloride Springs Geology - Geothermal Feature
Natural geothermal activity presents itself in many forms but can be generally classified as either an alkaline chloride feature or as an acid sulphate feature. Both are found within Kuirau Park.
Alkaline chloride features are often clear water springs forced rapidly to the surface by geothermal pressure from deep underground. In prehistoric times sinter was deposited in and around the surface vents from the mixture of mineral dissolved within the spring water. Today the chemistry of the springs in Kuirau Park is different. The hot water contains higher levels of bicarbonate and low levels of the mineral silica. This has reduced the amount of white silica being deposited as sinter in and around the pools.
Lowering of the ground water table and concentrating the flows in channels may also result in less deposition of silica in Kuirau Park.
The ever changing nature of the geothermal field below means that new activity can occur anywhere and what was once stable ground can become unstable very quickly. New hot water springs can appear overnight. Where you see steam rising on the ground is white with orange, brown or white salts, a new feature may be forming.
wn.com/Rotorua Geothermal Feature (Kuirau Park)
Find out more about New Zealand on www.FunNewZealandTravel.com
Alkaline Chloride Springs Geology - Geothermal Feature
Natural geothermal activity presents itself in many forms but can be generally classified as either an alkaline chloride feature or as an acid sulphate feature. Both are found within Kuirau Park.
Alkaline chloride features are often clear water springs forced rapidly to the surface by geothermal pressure from deep underground. In prehistoric times sinter was deposited in and around the surface vents from the mixture of mineral dissolved within the spring water. Today the chemistry of the springs in Kuirau Park is different. The hot water contains higher levels of bicarbonate and low levels of the mineral silica. This has reduced the amount of white silica being deposited as sinter in and around the pools.
Lowering of the ground water table and concentrating the flows in channels may also result in less deposition of silica in Kuirau Park.
The ever changing nature of the geothermal field below means that new activity can occur anywhere and what was once stable ground can become unstable very quickly. New hot water springs can appear overnight. Where you see steam rising on the ground is white with orange, brown or white salts, a new feature may be forming.
- published: 27 Mar 2011
- views: 132
Rotorua Geothermal Feature (Kuirau Park)
- Order: Reorder
- Duration: 0:05
- Updated: 27 Mar 2011
- views: 23
Find out more about New Zealand on www.FunNewZealandTravel.com
Alkaline Chloride Springs Geology - Geothermal Feature
Natural geothermal activity presents...
Find out more about New Zealand on www.FunNewZealandTravel.com
Alkaline Chloride Springs Geology - Geothermal Feature
Natural geothermal activity presents itself in many forms but can be generally classified as either an alkaline chloride feature or as an acid sulphate feature. Both are found within Kuirau Park.
Alkaline chloride features are often clear water springs forced rapidly to the surface by geothermal pressure from deep underground. In prehistoric times sinter was deposited in and around the surface vents from the mixture of mineral dissolved within the spring water. Today the chemistry of the springs in Kuirau Park is different. The hot water contains higher levels of bicarbonate and low levels of the mineral silica. This has reduced the amount of white silica being deposited as sinter in and around the pools.
Lowering of the ground water table and concentrating the flows in channels may also result in less deposition of silica in Kuirau Park.
The ever changing nature of the geothermal field below means that new activity can occur anywhere and what was once stable ground can become unstable very quickly. New hot water springs can appear overnight. Where you see steam rising on the ground is white with orange, brown or white salts, a new feature may be forming.
wn.com/Rotorua Geothermal Feature (Kuirau Park)
Find out more about New Zealand on www.FunNewZealandTravel.com
Alkaline Chloride Springs Geology - Geothermal Feature
Natural geothermal activity presents itself in many forms but can be generally classified as either an alkaline chloride feature or as an acid sulphate feature. Both are found within Kuirau Park.
Alkaline chloride features are often clear water springs forced rapidly to the surface by geothermal pressure from deep underground. In prehistoric times sinter was deposited in and around the surface vents from the mixture of mineral dissolved within the spring water. Today the chemistry of the springs in Kuirau Park is different. The hot water contains higher levels of bicarbonate and low levels of the mineral silica. This has reduced the amount of white silica being deposited as sinter in and around the pools.
Lowering of the ground water table and concentrating the flows in channels may also result in less deposition of silica in Kuirau Park.
The ever changing nature of the geothermal field below means that new activity can occur anywhere and what was once stable ground can become unstable very quickly. New hot water springs can appear overnight. Where you see steam rising on the ground is white with orange, brown or white salts, a new feature may be forming.
- published: 27 Mar 2011
- views: 23
Rotorua Geothermal Feature (Kuirau Park)
- Order: Reorder
- Duration: 0:13
- Updated: 27 Mar 2011
- views: 34
Find out more about New Zealand on www.FunNewZealandTravel.com
Alkaline Chloride Springs Geology - Geothermal Feature
Natural geothermal activity presents its...
Find out more about New Zealand on www.FunNewZealandTravel.com
Alkaline Chloride Springs Geology - Geothermal Feature
Natural geothermal activity presents itself in many forms but can be generally classified as either an alkaline chloride feature or as an acid sulphate feature. Both are found within Kuirau Park.
Alkaline chloride features are often clear water springs forced rapidly to the surface by geothermal pressure from deep underground. In prehistoric times sinter was deposited in and around the surface vents from the mixture of mineral dissolved within the spring water. Today the chemistry of the springs in Kuirau Park is different. The hot water contains higher levels of bicarbonate and low levels of the mineral silica. This has reduced the amount of white silica being deposited as sinter in and around the pools.
Lowering of the ground water table and concentrating the flows in channels may also result in less deposition of silica in Kuirau Park.
The ever changing nature of the geothermal field below means that new activity can occur anywhere and what was once stable ground can become unstable very quickly. New hot water springs can appear overnight. Where you see steam rising on the ground is white with orange, brown or white salts, a new feature may be forming.
wn.com/Rotorua Geothermal Feature (Kuirau Park)
Find out more about New Zealand on www.FunNewZealandTravel.com
Alkaline Chloride Springs Geology - Geothermal Feature
Natural geothermal activity presents itself in many forms but can be generally classified as either an alkaline chloride feature or as an acid sulphate feature. Both are found within Kuirau Park.
Alkaline chloride features are often clear water springs forced rapidly to the surface by geothermal pressure from deep underground. In prehistoric times sinter was deposited in and around the surface vents from the mixture of mineral dissolved within the spring water. Today the chemistry of the springs in Kuirau Park is different. The hot water contains higher levels of bicarbonate and low levels of the mineral silica. This has reduced the amount of white silica being deposited as sinter in and around the pools.
Lowering of the ground water table and concentrating the flows in channels may also result in less deposition of silica in Kuirau Park.
The ever changing nature of the geothermal field below means that new activity can occur anywhere and what was once stable ground can become unstable very quickly. New hot water springs can appear overnight. Where you see steam rising on the ground is white with orange, brown or white salts, a new feature may be forming.
- published: 27 Mar 2011
- views: 34
Building a geological model in Leapfrog Geo - Part 1 of 3
- Order: Reorder
- Duration: 6:53
- Updated: 25 Feb 2014
- views: 7447
A short and simple introduction to importing data into Leapfrog, as well as manipulating the data to make it easier to model. It's the first video in a series o...
A short and simple introduction to importing data into Leapfrog, as well as manipulating the data to make it easier to model. It's the first video in a series of 3 that will be posted on our blog http://blog.leapfrog3d.com
wn.com/Building A Geological Model In Leapfrog Geo Part 1 Of 3
North Bay Bountiful: Geothermal Energy
- Order: Reorder
- Duration: 1:36
- Updated: 15 Jan 2016
- views: 10
Jim Kluesener, Vice President Geothermal Region for Calpine, explains how “The Geysers” geothermal energy complex works. What is the geology? What are the cost ...
Jim Kluesener, Vice President Geothermal Region for Calpine, explains how “The Geysers” geothermal energy complex works. What is the geology? What are the cost savings compared to traditional carbon energy sources? What is the process?
wn.com/North Bay Bountiful Geothermal Energy
Jim Kluesener, Vice President Geothermal Region for Calpine, explains how “The Geysers” geothermal energy complex works. What is the geology? What are the cost savings compared to traditional carbon energy sources? What is the process?
- published: 15 Jan 2016
- views: 10
Project Developer Stephen Hirsch - Focusing on Jobs in the Geothermal Community
- Order: Reorder
- Duration: 9:34
- Updated: 23 Sep 2011
- views: 323
UNLV geology student Beverly Laag interviews Stephen Hirsch, Director of New Program Development at Geothermal Development Associates. Steve talks about exciti...
UNLV geology student Beverly Laag interviews Stephen Hirsch, Director of New Program Development at Geothermal Development Associates. Steve talks about exciting opportunities in the burgeoning geothermal market of the East African Rift region and about being dedicated to your work. This series on Jobs in the Geothermal Community was filmed at GEA's National Geothermal Summit 2011 in Reno, Nevada.
wn.com/Project Developer Stephen Hirsch Focusing On Jobs In The Geothermal Community
UNLV geology student Beverly Laag interviews Stephen Hirsch, Director of New Program Development at Geothermal Development Associates. Steve talks about exciting opportunities in the burgeoning geothermal market of the East African Rift region and about being dedicated to your work. This series on Jobs in the Geothermal Community was filmed at GEA's National Geothermal Summit 2011 in Reno, Nevada.
- published: 23 Sep 2011
- views: 323
mini student World Cafe - sustainable geothermal energy
- Order: Reorder
- Duration: 7:44
- Updated: 28 Feb 2013
- views: 103
Students from a geology class discuss sustainability issues in geothermal energy development
Students from a geology class discuss sustainability issues in geothermal energy development
wn.com/Mini Student World Cafe Sustainable Geothermal Energy
Students from a geology class discuss sustainability issues in geothermal energy development
- published: 28 Feb 2013
- views: 103
Nevada Bureau of Mines and Geology
- Order: Reorder
- Duration: 7:32
- Updated: 30 Jan 2014
- views: 2215
The Nevada Bureau of Mines and Geology conducts cutting edge, societally relevant science that fosters economic development and public safety and involves train...
The Nevada Bureau of Mines and Geology conducts cutting edge, societally relevant science that fosters economic development and public safety and involves training of the next generation of geoscientists. Major projects include earthquake hazard studies in the nation's third most seismically active state, mineral and geothermal resource assessments, and regional tectonic studies of Nevada's rapidly evolving landscape. (Produced in cooperation with WebsEdge)
wn.com/Nevada Bureau Of Mines And Geology
The Nevada Bureau of Mines and Geology conducts cutting edge, societally relevant science that fosters economic development and public safety and involves training of the next generation of geoscientists. Major projects include earthquake hazard studies in the nation's third most seismically active state, mineral and geothermal resource assessments, and regional tectonic studies of Nevada's rapidly evolving landscape. (Produced in cooperation with WebsEdge)
- published: 30 Jan 2014
- views: 2215
BRETT NORMAN NATIONAL PARK RANGER BROKEN HILL ON PARKS OF THE REGION WITH BEN BEETON
- Order: Reorder
- Duration: 1:58
- Updated: 10 Nov 2010
- views: 30
BRETT NORMAN NATIONAL PARK RANGER BROKEN HILL ON PARKS OF THE REGION WITH BEN BEETON PART1 09 14TH 2010 Part 1
BRETT NORMAN NATIONAL PARK RANGER BROKEN HILL ON PARKS OF THE REGION WITH BEN BEETON PART1 09 14TH 2010 Part 1
wn.com/Brett Norman National Park Ranger Broken Hill On Parks Of The Region With Ben Beeton
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Southeastern U.S Geothermal Resources Workshop, 08-07-2013
Hosted by: VA Department of Mines, Minerals and Energy Division of Geology and Mineral Resources With Support from: Arizona Geological Survey, National Geothermal Data System Purpose: Provide a forum for discussion of the AASG/DOE sponsored National Geothermal Data System (NGDS) project, the status of state geothermal data contributions, data needs and the work products that would be of value to understanding the potential for geothermal resources development in the southeastern U.S. Contents: 00:38:35 Wendy Kelly, Virginia's Contributions to the National Geothermal Data System 01:41:30 Message from Arlene Anderson 01:43:31 Doug Curl, NGDS Data Hub at Kentucky Geological Survey 02:50:02 Kenneth B. Taylor, Geothermal Resources, Development, and State Regulatory Framework: North Carolina ... -
Southeastern U.S Geothermal Resources Workshop, 08-08-2013
Hosted by: VA Department of Mines, Minerals and Energy Division of Geology and Mineral Resources With Support from: Arizona Geological Survey, National Geothermal Data System Purpose: Provide a forum for discussion of the AASG/DOE sponsored National Geothermal Data System (NGDS) project, the status of state geothermal data contributions, data needs and the work products that would be of value to understanding the potential for geothermal resources development in the southeastern U.S. 00:00:11 John K. Costain, Evaluation and Targeting of Geothermal Energy Resources in the Southeastern United States 00:43:44 Stephen W. Paskvich, Regional Estimates of Water Table Elevation and Base Flow in Virginia: A Progress Report 01:16:22 Wendy Kelly, Geothermal Resources for the Eastern United States... -
Kent Hovind does Geology
In this video I attempt to debunk the Kent Hovind's idea of Geology. If you have any questions regarding the video or if you picked up on a mistake I made please leave a comment! Resources: Earth Crust Geothermal gradient: http://www.mpoweruk.com/geothermal_energy.htm Earth Crust Pressure gradient: http://www.geol.ucsb.edu/faculty/hacker/geo102C/lectures/part3.html Water Phase Diagram: http://www1.lsbu.ac.uk/water/water_phase_diagram.html Debate: https://www.youtube.com/watch?v=UKc1RcVVxFY Thunderf00t's video on Kent: https://youtu.be/7W8TJ2vg38s?t=1m31s If you enjoyed this video please consider giving it a thumbs up and subscribe to my channel! A very special thanks to Oskar Jungell who helped me with editing and providing me with the outro music!!!! Follow me on the twitter @Ps... -
Geological aspects of renewable energy
November's Shell London lecture, delivered by Bruce Levell (Shell) at the Geological Society on 14 November 2012. Moving to a lower carbon energy system and, over time, displacing fossil fuels with renewable energy will involve new challenges for geologists. In this talk we will explore these challenges. Below ground geothermal energy is an obvious example: High grade for converting to power, low grade for space heating and shallow for seasonal storage and heat pumping. Underground energy storage, for example hydrogen in salt caverns, may be a more effective and flexible solution than batteries to the challenges of matching renewables' intermittent supply with demand. Less obviously the siting of renewable energy projects from hydro electric power or storage to wind farms, both onshore ... -
H12F. Shallow and Deep Geothermal Systems II - 2012 AGU Fall Meeting
H12F. Shallow and Deep Geothermal Systems II - 2012 AGU Fall Meeting Abstracts: [H12F-01] Seismostatistical characterization of microseismicity observed at geothermal fields http://abstractsearch.agu.org/meetings/2012/FM/H12F-01 [H12F-02] Time Lapse Stress and Rock Property Profiling using Microseismic Data: A Case Study at NW Geysers http://abstractsearch.agu.org/meetings/2012/FM/H12F-02 [H12F-03] The Stress State of the Northwest Geysers Geothermal Field and Implications for Fault-Controlled Fluid Flow (Invited) http://abstractsearch.agu.org/meetings/2012/FM/H12F-03 [H12F-04] A Comprehensive Seismic Characterization of the Cove Fort-Sulphurdale Geothermal Site, Utah http://abstractsearch.agu.org/meetings/2012/FM/H12F-04 [H12F-05] Towards the Design of Effective Engineered Geotherm... -
FULL EPISODE Lesson 08 - Metamorphic Rocks - Understanding the Earth HD
Full series listing https://sites.google.com/site/mineguy101/home/lessons This geology course through Laurentian University in Ontario. "Understanding the Earth" originally aired on TVO Ontario in 1975 and rebroadcasted in 1986 Metamorphic Rocks - Geological Interpretation Host; Dr. David Pearson. 0-10min •Heat,pressure and fluids processes •Metamorphic types; Gniess, Schists, Slate, Serpentine, Garnets •Basalt Meta equiv. Amphibolite •Limestone Meta equiv. Marble •Sandstone Meta equiv. Quartzite •Contact metamorphism •Contraction cracks, new minerals formed 10-20min •Pyroxene in limestone •Succession of minerals dependent upon temperature, ie. High heat; pyroxene, Lower heat Olivine •Metamorphic aureole •Ore concentrations in metamorphic rocks •Clarabelle Mill, Sudbury ON; Staurolite ... -
Let's Play Sol0 Mars Colonization - E07 All the Germs!!
In this episode, we work on splicing the bacteria to drive our farm efficiency. We also get into geothermal power as well as a Geology Lab. Lots happening!! --------------------------------------------------------------------------------------- Sol0 is a Real Time Strategy game set on Mars. You establish, develop and sustain a colony on Mars and are regularly being resupplied by launches from Earth. This game combines city building, with resource and supply chain management in a visually appealing and enjoyable Martian setting. Im only new to the game but its very addictive and I cant wait to play this series!! If you enjoyed this video, please like, subscribe, or comment! Thanks for watching! ------------------------------------------- Contact me through Google+ (mwallace142), Twi... -
Speaker Series -The Geysers
Talks on the history of the Geysers Inn, The Geology of the region, and Calpine, who run the worlds largest geothermal power facility right outside of Cloverdale California. From 9/10/2013 -
Rise of the Tomb Raider - Walkthrough Part 9 - Geothermal Valley (Survivor Difficulty Gameplay)
Rise of the Tomb Raider Walkthrough Part 9 includes the Geothermal Valley part of the single player campaign of Rise of the Tomb Raider on Xbox One and Xbox 360. The gameplay featured in the video is recorded while playing on Survivor difficulty. Our full Rise of the Tomb Raider Let’s Play Walkthrough will feature the entire Single Player, all Story Missions, Side Missions, Collectibles, Optional Tombs, Challenges, Documents, Relics, Murals, Strongboxes, Crypt Treasures, Survival Caches, Coin Caches, Upgrades, Achievements, Cheats, Easter Eggs. Subscribe! ► http://www.youtube.com/user/VGFAQ?sub_confirmation=1 Twitter ► https://twitter.com/VGFAQ Facebook ► https://www.facebook.com/VGFAQ Rise of the Tomb Raider Playlist ► https://www.youtube.com/playlist?list=PLlRXv9MVYcSywhwvSoCcZMdcGzH3... -
Extreme Environments - Hydrothermal settings for early life on Earth (and Mars?) - Kathleen Campbell
It is well known that New Zealand hosts spectacular hot-springs associated with a live super-volcano. Less well known is that these geothermal systems are rapidly mineralizing, entombing within silica a biota adapted to high temperatures, and thus serving as an extreme environment analog in the continuing search for the earliest signs of life on Earth and potentially other planets, such as Mars. This hypothesis stems from the following observations – the deepest roots of today’s “Tree of Life” constitute heat-loving microbes in hot springs; some Precambrian settings for early life were silica-rich and hydrothermally influenced; and siliceous deposits recently found by Martian rover Spirit are interpreted as hot-spring related. The problem in trying to peer back into “deep time” on Earth i... -
DigitalGlobe LEAD Webinar Series: Geology, Exploration and WorldView 3 SWIR 102313
Mineral exploration for both ore deposits and hydrocarbons (oil/gas) depends on finding patterns that point to a profitable deposit. The actual material of interest, whether it is gold, oil, or something else, is not detectable by imagery and optical remote sensing. Instead, the exploration geologist must understand models that describe how these economic deposits form. WorldView 3 data will fill a previously unoccupied niche for mineral exploration because of its 8 SWIR bands and high spatial resolution. This presentation will focus on optical remote sensing methods of seeking environmental clues that can lead to finding economic mineral deposits. Visit www.digitalglobe.com/webinars to learn more about the DigitalGlobe LEAD Webinar Series. -
2011NevadaFieldCamp
In May of 2011, I led a field course to investigate the geology of eastern California and Nevada. The goals of this trip were to introduce the fourth-year students to a region of modern tectonics and associated volcanic activity. Nevada is almost entirely within the Great Basin of the Western United States, as are the easternmost parts of California. Truly a geological playground! Stops included: ignimbrites following paleo-river channels across the Sierra Nevada; Long Valley caldera and surrounding areas; Yucca Mountain geology; tectonism in southern Nevada and western Arizona; mining history at Tonopah, Nevada; ignimbrites and calderas in central and northern Nevada; geothermal power at Soda Lakes. A huge thank-you to Ann Timmermans for her help in writing the field guide and co-le... -
FULL EPSIODE 05 Volcanoes - Understanding the Earth HD
Channel Listing of episodes https://sites.google.com/site/mineguy101/home/lessons This geology course through Laurentian University in Ontario. "Understanding the Earth" originally aired on TVO Ontario in 1975 and rebroadcasted in 1986 Fundamentals of volcanoes - Location of Volcanoes in relation to plates, Products of Volcanoes Planet of Man Series -- Fire Within (30minutes) Starring; Tuzo Wilson -- renowned Canadian geophysicist Planet of Man Series -- Fire Within Lesson 5 -- Part 1 of 7 •Illustration showing a crossection of Europe with respect to plates •Occur at plates are colliding and pulling apart •Vulcan the roman god of fire and earthquakes •Mt Fugi Fire festival in japan "to soothe the restless God" •Illustration showing distribution of volcanoes along the plates •Two plate... -
Yellowstone National Park (USA) Vacation Travel Video Guide
✱ 182 Hotels in Yellowstone National Park - Lowest Price Guarantee ► http://goo.gl/PeoBKD Travel video about nature park Yellowstone National Park in the USA. Located in the northwest of the U.S.A., in the state of Wyoming, is Yellowstone, a national park of the superlative, in which the impressive white water of Old Faithful is today one of the most famous and most photographed natural spectacles in the world. Indeed, for more than a century, this mighty geyser has been the proud and unique landmark of the oldest national park in the United States. The Yellowstone National Park is famous for its highly visible geological processes. The area close to Old Faithful not only features a number of geysers but also numerous hot springs that highlight the tremendous thermal power that lies bene... -
Tenerife's geothermal potential
Dr Nemesio Pérez, Coordinator of the Canary Island Volcano Institute, INVOLCAN, analyses Tenerife's geothermal potential. With all that heat stored in the earth's crust, by tapping just 1% of it we could produce enough energy to service the world's needs for 13,500 years... Science fiction? Science fact! What contribution can Tenerife's geothermal potential make to resolving the world's looming energy crisis? -
Geology of the Butte Ore Deposit
Dr. John Dilles discusses the geochemistry of the porphyry Cu-Mo resource found at at Butte, Montana. The porphyry formed from dilute magmatic fluids that contained 1,000s of ppm Cu between 66 and 64 Ma, and at depths of ~8 km. The porphory is zoned from innermost Cu (Ag) ore; to mixed intermediate Cu (Zn, Ag) / Zn-MJn-Ag (Cu, Pb, Au) ore; to an outer Mn-Ag (Pb) ore that grades to barren quartz. -
Geologic Carbon Sequestration: Mitigating Climate Change by Injecting CO2 Underground
July 21, 2009 Berkeley Lab summer lecture: Climate change provides strong motivation to reduce CO2 emissions from the burning of fossil fuels. Carbon dioxide capture and storage involves the capture, compression, and transport of CO2 to geologically favorable areas, where its injected into porous rock more than one kilometer underground for permanent storage. Oldenburg, who heads Berkeley Labs Geologic Carbon Sequestration Program, will focus on the challenges, opportunities, and research needs of this innovative technology. -
From Seismic to Simulation: Geologic Integrity, No Compromise on 3D Reservoir Models
Matthieu Quinquet, Technical Director - EMEA-CIS, presents the journey of a reservoir model, from the initial interpreted seismic and geological data all the way to a final flow simulation model. Topics Covered: - Building and preserving accurate reservoir architectures all the way to flow simulation models - Analyzing and understanding the impact of geology on flow estimates - Reconciling 3D model accuracy and ease-of-use through robust and integrated workflows -
Seismic interpretation in a geothermal reservoir
Agile* Опубликовано: 31 авг. 2012 г. How I applied volume interpretation and attribute analysis to the problem of characterizing a geothermal reservoir in the Imperial Valley of California, US. A short version of a talk at the SEG IQ Earth Forum in Avon, Colorado, August 2012. Read more at http://www.agilegeoscience.com/. -
Heavy Ion Fusion
Google Tech Talk November 11th, 2010 Presented by Dr. Charles Helsley. Abstract: The limited supply and worldwide environmental effects of carbon-based fuels demand that a different source of energy be identified and tapped. This analysis applies to synthetic bio fuels as well as fossil fuels. The obvious candidates to supplant carbon-based fuels are solar conversion, wind generation, hydraulic generation, geothermal extraction, fission, and fusion. When scaled to the size necessary to satisfy the energy demands of the world, all except fusion have severe unmitigated environmental impacts, induce geopolitical instability, or exhibit very limited availability, reliability, and sustainability. Most technologies suffer from more than one of these drawbacks. The fusion of Deuterium and Tri... -
THF:GEOLOGICAL SURVEY OF INDIA (புவியியல் அருங்காட்சியகம், சென்னை)
Recorded on: 14.June.2013 -
IHRDC: GL 302 Production Technology and Reservoir Management for the Geologist 1
Southeastern U.S Geothermal Resources Workshop, 08-07-2013
- Order: Reorder
- Duration: 360:15
- Updated: 24 Sep 2013
- views: 51
Hosted by:
VA Department of Mines, Minerals and Energy Division of Geology and Mineral Resources
With Support from:
Arizona Geological Survey, National Geother...
Hosted by:
VA Department of Mines, Minerals and Energy Division of Geology and Mineral Resources
With Support from:
Arizona Geological Survey, National Geothermal Data System
Purpose:
Provide a forum for discussion of the AASG/DOE sponsored National Geothermal Data System (NGDS) project, the status of state geothermal data contributions, data needs and the work products that would be of value to understanding the potential for geothermal resources development in the southeastern U.S.
Contents:
00:38:35 Wendy Kelly, Virginia's Contributions to the National Geothermal Data System
01:41:30 Message from Arlene Anderson
01:43:31 Doug Curl, NGDS Data Hub at Kentucky Geological Survey
02:50:02 Kenneth B. Taylor, Geothermal Resources, Development, and State Regulatory Framework: North Carolina
03:16:48 South Carolina Department of Health and Environmental Control, South Carolina Well Standards
03:20:55 Patrick Duff, South Carolina Basement Mapping Project: Implications for Geothermal Prospectivity
04:06:20 David R. Wunsch, Geothermal Resources, Development, and State Regulatory Framework: Delaware
04:26:21 Jim Lovett, Virginia Geothermal Regulatory Framework
05:19:37 Discussion
NOTE: Sporadic beeping recorded from GoTo Webinar is present during parts of this video; we apologize for any inconvenience.
wn.com/Southeastern U.S Geothermal Resources Workshop, 08 07 2013
Hosted by:
VA Department of Mines, Minerals and Energy Division of Geology and Mineral Resources
With Support from:
Arizona Geological Survey, National Geothermal Data System
Purpose:
Provide a forum for discussion of the AASG/DOE sponsored National Geothermal Data System (NGDS) project, the status of state geothermal data contributions, data needs and the work products that would be of value to understanding the potential for geothermal resources development in the southeastern U.S.
Contents:
00:38:35 Wendy Kelly, Virginia's Contributions to the National Geothermal Data System
01:41:30 Message from Arlene Anderson
01:43:31 Doug Curl, NGDS Data Hub at Kentucky Geological Survey
02:50:02 Kenneth B. Taylor, Geothermal Resources, Development, and State Regulatory Framework: North Carolina
03:16:48 South Carolina Department of Health and Environmental Control, South Carolina Well Standards
03:20:55 Patrick Duff, South Carolina Basement Mapping Project: Implications for Geothermal Prospectivity
04:06:20 David R. Wunsch, Geothermal Resources, Development, and State Regulatory Framework: Delaware
04:26:21 Jim Lovett, Virginia Geothermal Regulatory Framework
05:19:37 Discussion
NOTE: Sporadic beeping recorded from GoTo Webinar is present during parts of this video; we apologize for any inconvenience.
- published: 24 Sep 2013
- views: 51
Southeastern U.S Geothermal Resources Workshop, 08-08-2013
- Order: Reorder
- Duration: 211:04
- Updated: 24 Sep 2013
- views: 160
Hosted by:
VA Department of Mines, Minerals and Energy Division of Geology and Mineral Resources
With Support from:
Arizona Geological Survey, National Geothe...
Hosted by:
VA Department of Mines, Minerals and Energy Division of Geology and Mineral Resources
With Support from:
Arizona Geological Survey, National Geothermal Data System
Purpose:
Provide a forum for discussion of the AASG/DOE sponsored National Geothermal Data System (NGDS) project, the status of state geothermal data contributions, data needs and the work products that would be of value to understanding the potential for geothermal resources development in the southeastern U.S.
00:00:11 John K. Costain, Evaluation and Targeting of Geothermal Energy Resources in the Southeastern United States
00:43:44 Stephen W. Paskvich, Regional Estimates of Water Table Elevation and Base Flow in Virginia: A Progress Report
01:16:22 Wendy Kelly, Geothermal Resources for the Eastern United States
02:27:16 Kim Patten, Sustaining the NGDS
02:53:12 Discussion
NOTE: Sporadic beeping recorded from GoTo Webinar is present during parts of this video; we apologize for any inconvenience.
wn.com/Southeastern U.S Geothermal Resources Workshop, 08 08 2013
Hosted by:
VA Department of Mines, Minerals and Energy Division of Geology and Mineral Resources
With Support from:
Arizona Geological Survey, National Geothermal Data System
Purpose:
Provide a forum for discussion of the AASG/DOE sponsored National Geothermal Data System (NGDS) project, the status of state geothermal data contributions, data needs and the work products that would be of value to understanding the potential for geothermal resources development in the southeastern U.S.
00:00:11 John K. Costain, Evaluation and Targeting of Geothermal Energy Resources in the Southeastern United States
00:43:44 Stephen W. Paskvich, Regional Estimates of Water Table Elevation and Base Flow in Virginia: A Progress Report
01:16:22 Wendy Kelly, Geothermal Resources for the Eastern United States
02:27:16 Kim Patten, Sustaining the NGDS
02:53:12 Discussion
NOTE: Sporadic beeping recorded from GoTo Webinar is present during parts of this video; we apologize for any inconvenience.
- published: 24 Sep 2013
- views: 160
Kent Hovind does Geology
- Order: Reorder
- Duration: 20:51
- Updated: 29 Oct 2015
- views: 1178
In this video I attempt to debunk the Kent Hovind's idea of Geology.
If you have any questions regarding the video or if you picked up on a mistake I made plea...
In this video I attempt to debunk the Kent Hovind's idea of Geology.
If you have any questions regarding the video or if you picked up on a mistake I made please leave a comment!
Resources:
Earth Crust Geothermal gradient: http://www.mpoweruk.com/geothermal_energy.htm
Earth Crust Pressure gradient: http://www.geol.ucsb.edu/faculty/hacker/geo102C/lectures/part3.html
Water Phase Diagram: http://www1.lsbu.ac.uk/water/water_phase_diagram.html
Debate:
https://www.youtube.com/watch?v=UKc1RcVVxFY
Thunderf00t's video on Kent:
https://youtu.be/7W8TJ2vg38s?t=1m31s
If you enjoyed this video please consider giving it a thumbs up and subscribe to my channel!
A very special thanks to Oskar Jungell who helped me with editing and providing me with the outro music!!!!
Follow me on the twitter @Psycho8890
wn.com/Kent Hovind Does Geology
In this video I attempt to debunk the Kent Hovind's idea of Geology.
If you have any questions regarding the video or if you picked up on a mistake I made please leave a comment!
Resources:
Earth Crust Geothermal gradient: http://www.mpoweruk.com/geothermal_energy.htm
Earth Crust Pressure gradient: http://www.geol.ucsb.edu/faculty/hacker/geo102C/lectures/part3.html
Water Phase Diagram: http://www1.lsbu.ac.uk/water/water_phase_diagram.html
Debate:
https://www.youtube.com/watch?v=UKc1RcVVxFY
Thunderf00t's video on Kent:
https://youtu.be/7W8TJ2vg38s?t=1m31s
If you enjoyed this video please consider giving it a thumbs up and subscribe to my channel!
A very special thanks to Oskar Jungell who helped me with editing and providing me with the outro music!!!!
Follow me on the twitter @Psycho8890
- published: 29 Oct 2015
- views: 1178
Geological aspects of renewable energy
- Order: Reorder
- Duration: 79:42
- Updated: 18 Mar 2013
- views: 1231
November's Shell London lecture, delivered by Bruce Levell (Shell) at the Geological Society on 14 November 2012.
Moving to a lower carbon energy system and, o...
November's Shell London lecture, delivered by Bruce Levell (Shell) at the Geological Society on 14 November 2012.
Moving to a lower carbon energy system and, over time, displacing fossil fuels with renewable energy will involve new challenges for geologists.
In this talk we will explore these challenges. Below ground geothermal energy is an obvious example: High grade for converting to power, low grade for space heating and shallow for seasonal storage and heat pumping. Underground energy storage, for example hydrogen in salt caverns, may be a more effective and flexible solution than batteries to the challenges of matching renewables' intermittent supply with demand.
Less obviously the siting of renewable energy projects from hydro electric power or storage to wind farms, both onshore and offshore, is based fundamentally on conditions created by geology.
Last but not least, the new resources required to manufacture the energy conversion equipment needed to supply renewable energy on a global scale will place new demands across the periodic table for resources which already is beginning to constrain and shape the commercial solutions.
wn.com/Geological Aspects Of Renewable Energy
November's Shell London lecture, delivered by Bruce Levell (Shell) at the Geological Society on 14 November 2012.
Moving to a lower carbon energy system and, over time, displacing fossil fuels with renewable energy will involve new challenges for geologists.
In this talk we will explore these challenges. Below ground geothermal energy is an obvious example: High grade for converting to power, low grade for space heating and shallow for seasonal storage and heat pumping. Underground energy storage, for example hydrogen in salt caverns, may be a more effective and flexible solution than batteries to the challenges of matching renewables' intermittent supply with demand.
Less obviously the siting of renewable energy projects from hydro electric power or storage to wind farms, both onshore and offshore, is based fundamentally on conditions created by geology.
Last but not least, the new resources required to manufacture the energy conversion equipment needed to supply renewable energy on a global scale will place new demands across the periodic table for resources which already is beginning to constrain and shape the commercial solutions.
- published: 18 Mar 2013
- views: 1231
H12F. Shallow and Deep Geothermal Systems II - 2012 AGU Fall Meeting
- Order: Reorder
- Duration: 116:15
- Updated: 05 Dec 2012
- views: 199
H12F. Shallow and Deep Geothermal Systems II - 2012 AGU Fall Meeting
Abstracts:
[H12F-01] Seismostatistical characterization of microseismicity observed at g...
H12F. Shallow and Deep Geothermal Systems II - 2012 AGU Fall Meeting
Abstracts:
[H12F-01] Seismostatistical characterization of microseismicity observed at geothermal fields
http://abstractsearch.agu.org/meetings/2012/FM/H12F-01
[H12F-02] Time Lapse Stress and Rock Property Profiling using Microseismic Data: A Case Study at NW Geysers
http://abstractsearch.agu.org/meetings/2012/FM/H12F-02
[H12F-03] The Stress State of the Northwest Geysers Geothermal Field and Implications for Fault-Controlled Fluid Flow (Invited)
http://abstractsearch.agu.org/meetings/2012/FM/H12F-03
[H12F-04] A Comprehensive Seismic Characterization of the Cove Fort-Sulphurdale Geothermal Site, Utah
http://abstractsearch.agu.org/meetings/2012/FM/H12F-04
[H12F-05] Towards the Design of Effective Engineered Geothermal Systems
http://abstractsearch.agu.org/meetings/2012/FM/H12F-05
[H12F-06] Monitoring deformation at The Geysers geothermal field, California using C-band and X-band Interferometric Synthetic Aperture Radar
http://abstractsearch.agu.org/meetings/2012/FM/H12F-06
[H12F-07] National Geothermal Data System: State Geological Survey Contributions to Date
http://abstractsearch.agu.org/meetings/2012/FM/H12F-07
[H12F-08] The Prediction of Predominant Convection in Sedimentary Basin Systems
http://abstractsearch.agu.org/meetings/2012/FM/H12F-08
wn.com/H12F. Shallow And Deep Geothermal Systems Ii 2012 Agu Fall Meeting
H12F. Shallow and Deep Geothermal Systems II - 2012 AGU Fall Meeting
Abstracts:
[H12F-01] Seismostatistical characterization of microseismicity observed at geothermal fields
http://abstractsearch.agu.org/meetings/2012/FM/H12F-01
[H12F-02] Time Lapse Stress and Rock Property Profiling using Microseismic Data: A Case Study at NW Geysers
http://abstractsearch.agu.org/meetings/2012/FM/H12F-02
[H12F-03] The Stress State of the Northwest Geysers Geothermal Field and Implications for Fault-Controlled Fluid Flow (Invited)
http://abstractsearch.agu.org/meetings/2012/FM/H12F-03
[H12F-04] A Comprehensive Seismic Characterization of the Cove Fort-Sulphurdale Geothermal Site, Utah
http://abstractsearch.agu.org/meetings/2012/FM/H12F-04
[H12F-05] Towards the Design of Effective Engineered Geothermal Systems
http://abstractsearch.agu.org/meetings/2012/FM/H12F-05
[H12F-06] Monitoring deformation at The Geysers geothermal field, California using C-band and X-band Interferometric Synthetic Aperture Radar
http://abstractsearch.agu.org/meetings/2012/FM/H12F-06
[H12F-07] National Geothermal Data System: State Geological Survey Contributions to Date
http://abstractsearch.agu.org/meetings/2012/FM/H12F-07
[H12F-08] The Prediction of Predominant Convection in Sedimentary Basin Systems
http://abstractsearch.agu.org/meetings/2012/FM/H12F-08
- published: 05 Dec 2012
- views: 199
FULL EPISODE Lesson 08 - Metamorphic Rocks - Understanding the Earth HD
- Order: Reorder
- Duration: 59:09
- Updated: 17 May 2014
- views: 4285
Full series listing https://sites.google.com/site/mineguy101/home/lessons
This geology course through Laurentian University in Ontario. "Understanding the Earth...
Full series listing https://sites.google.com/site/mineguy101/home/lessons
This geology course through Laurentian University in Ontario. "Understanding the Earth" originally aired on TVO Ontario in 1975 and rebroadcasted in 1986
Metamorphic Rocks - Geological Interpretation
Host; Dr. David Pearson.
0-10min
•Heat,pressure and fluids processes
•Metamorphic types; Gniess, Schists, Slate, Serpentine, Garnets
•Basalt Meta equiv. Amphibolite
•Limestone Meta equiv. Marble
•Sandstone Meta equiv. Quartzite
•Contact metamorphism
•Contraction cracks, new minerals formed
10-20min
•Pyroxene in limestone
•Succession of minerals dependent upon temperature, ie. High heat; pyroxene, Lower heat Olivine
•Metamorphic aureole
•Ore concentrations in metamorphic rocks
•Clarabelle Mill, Sudbury ON; Staurolite mineral outcrop
•Regional Metamorphism ie. Sudbury basin
20-30min
•Schist
•Foliation - orientation of mica minerals in schists "Schistosity"
•Growth of minerals in liquids
•Experiment showing; growth of minerals in solid rock
•Series of rocks heat and pressure ; Shale Slate Phyllite Schist Gneiss Granite.
30-40min
•Series of metamorphic rocks from Shale to granite Shale Slate Phyllite Schist Gneiss Granite.
•Identification
•Phyllite
•Schist
•Gneiss
•Experiment showing; the plasticity of metamorphic rocks marble using hydraulic press
•Experiment showing; importance of time using silicon putty.
40-60min
•Plasticity of rock continued..
•Experiment showing; simulated 20km pressure chamber and heating jacket
•Dislocation of minerals in metamorphic rocks
•Granite-
•Classification of metamorphic rocks
•Dynamic Regional Shale, Slate, Phyllite, Schist, Gneiss, Granite
•Geothermal Regional rocks; Sandstone, Quartzite, Limestone, Marble, Garnets, Amphibolite
•Contact Marble, Quartzite
•Hydrothermal rock types; Perioditite, Serpentinite, Soapstone
•Hydrothermal Dynamic Mylonite
•Location in Canada of metamorphic rocks
•Geological provinces in the Canadian Shield.
wn.com/Full Episode Lesson 08 Metamorphic Rocks Understanding The Earth Hd
Full series listing https://sites.google.com/site/mineguy101/home/lessons
This geology course through Laurentian University in Ontario. "Understanding the Earth" originally aired on TVO Ontario in 1975 and rebroadcasted in 1986
Metamorphic Rocks - Geological Interpretation
Host; Dr. David Pearson.
0-10min
•Heat,pressure and fluids processes
•Metamorphic types; Gniess, Schists, Slate, Serpentine, Garnets
•Basalt Meta equiv. Amphibolite
•Limestone Meta equiv. Marble
•Sandstone Meta equiv. Quartzite
•Contact metamorphism
•Contraction cracks, new minerals formed
10-20min
•Pyroxene in limestone
•Succession of minerals dependent upon temperature, ie. High heat; pyroxene, Lower heat Olivine
•Metamorphic aureole
•Ore concentrations in metamorphic rocks
•Clarabelle Mill, Sudbury ON; Staurolite mineral outcrop
•Regional Metamorphism ie. Sudbury basin
20-30min
•Schist
•Foliation - orientation of mica minerals in schists "Schistosity"
•Growth of minerals in liquids
•Experiment showing; growth of minerals in solid rock
•Series of rocks heat and pressure ; Shale Slate Phyllite Schist Gneiss Granite.
30-40min
•Series of metamorphic rocks from Shale to granite Shale Slate Phyllite Schist Gneiss Granite.
•Identification
•Phyllite
•Schist
•Gneiss
•Experiment showing; the plasticity of metamorphic rocks marble using hydraulic press
•Experiment showing; importance of time using silicon putty.
40-60min
•Plasticity of rock continued..
•Experiment showing; simulated 20km pressure chamber and heating jacket
•Dislocation of minerals in metamorphic rocks
•Granite-
•Classification of metamorphic rocks
•Dynamic Regional Shale, Slate, Phyllite, Schist, Gneiss, Granite
•Geothermal Regional rocks; Sandstone, Quartzite, Limestone, Marble, Garnets, Amphibolite
•Contact Marble, Quartzite
•Hydrothermal rock types; Perioditite, Serpentinite, Soapstone
•Hydrothermal Dynamic Mylonite
•Location in Canada of metamorphic rocks
•Geological provinces in the Canadian Shield.
- published: 17 May 2014
- views: 4285
Let's Play Sol0 Mars Colonization - E07 All the Germs!!
- Order: Reorder
- Duration: 29:01
- Updated: 21 Feb 2016
- views: 6
In this episode, we work on splicing the bacteria to drive our farm efficiency. We also get into geothermal power as well as a Geology Lab. Lots happening!!
---...
In this episode, we work on splicing the bacteria to drive our farm efficiency. We also get into geothermal power as well as a Geology Lab. Lots happening!!
---------------------------------------------------------------------------------------
Sol0 is a Real Time Strategy game set on Mars. You establish, develop and sustain a colony on Mars and are regularly being resupplied by launches from Earth.
This game combines city building, with resource and supply chain management in a visually appealing and enjoyable Martian setting. Im only new to the game but its very addictive and I cant wait to play this series!!
If you enjoyed this video, please like, subscribe, or comment!
Thanks for watching!
-------------------------------------------
Contact me through Google+ (mwallace142), Twitter (@mwallace142) or via email mwallace142@gmail.com
wn.com/Let's Play Sol0 Mars Colonization E07 All The Germs
In this episode, we work on splicing the bacteria to drive our farm efficiency. We also get into geothermal power as well as a Geology Lab. Lots happening!!
---------------------------------------------------------------------------------------
Sol0 is a Real Time Strategy game set on Mars. You establish, develop and sustain a colony on Mars and are regularly being resupplied by launches from Earth.
This game combines city building, with resource and supply chain management in a visually appealing and enjoyable Martian setting. Im only new to the game but its very addictive and I cant wait to play this series!!
If you enjoyed this video, please like, subscribe, or comment!
Thanks for watching!
-------------------------------------------
Contact me through Google+ (mwallace142), Twitter (@mwallace142) or via email mwallace142@gmail.com
- published: 21 Feb 2016
- views: 6
Speaker Series -The Geysers
- Order: Reorder
- Duration: 91:02
- Updated: 11 Sep 2013
- views: 31
Talks on the history of the Geysers Inn, The Geology of the region, and Calpine, who run the worlds largest geothermal power facility right outside of Cloverdal...
Talks on the history of the Geysers Inn, The Geology of the region, and Calpine, who run the worlds largest geothermal power facility right outside of Cloverdale California. From 9/10/2013
wn.com/Speaker Series The Geysers
Talks on the history of the Geysers Inn, The Geology of the region, and Calpine, who run the worlds largest geothermal power facility right outside of Cloverdale California. From 9/10/2013
- published: 11 Sep 2013
- views: 31
Rise of the Tomb Raider - Walkthrough Part 9 - Geothermal Valley (Survivor Difficulty Gameplay)
- Order: Reorder
- Duration: 25:35
- Updated: 18 Nov 2015
- views: 745
Rise of the Tomb Raider Walkthrough Part 9 includes the Geothermal Valley part of the single player campaign of Rise of the Tomb Raider on Xbox One and Xbox 360...
Rise of the Tomb Raider Walkthrough Part 9 includes the Geothermal Valley part of the single player campaign of Rise of the Tomb Raider on Xbox One and Xbox 360. The gameplay featured in the video is recorded while playing on Survivor difficulty.
Our full Rise of the Tomb Raider Let’s Play Walkthrough will feature the entire Single Player, all Story Missions, Side Missions, Collectibles, Optional Tombs, Challenges, Documents, Relics, Murals, Strongboxes, Crypt Treasures, Survival Caches, Coin Caches, Upgrades, Achievements, Cheats, Easter Eggs.
Subscribe! ► http://www.youtube.com/user/VGFAQ?sub_confirmation=1
Twitter ► https://twitter.com/VGFAQ
Facebook ► https://www.facebook.com/VGFAQ
Rise of the Tomb Raider Playlist ► https://www.youtube.com/playlist?list=PLlRXv9MVYcSywhwvSoCcZMdcGzH3sjMVa
Rise of the Tomb Raider Geothermal Valley Walkthrough ► http://vgfaq.com/rise-of-the-tomb-raider-geothermal-valley-walkthrough
Featuring epic, high-octane action moments set in the most beautiful hostile environments on earth, Rise of the Tomb Raider delivers a cinematic survival action adventure where you will join Lara Croft on her first tomb raiding expedition as she seeks to discover the secret of immortality.
Woman vs. Wild
Conquer a world fiercely protecting its secrets, endure perilous conditions and unstable landscapes, face dangerous wildlife that act as guardians to ancient tombs, and explore huge interactive environments.
Awe-Inspiring Deadly Tombs
Explore huge ancient spaces littered with deadly traps, solve dramatic environmental puzzles, and decipher ancient texts to reveal crypts as you take on a world filled with secrets to discover.
Guerilla Combat
Use the environment to your advantage, scale trees and dive underwater to avoid or takedown enemies, configure Lara's gear, weapons, and ammo to suit your play style, craft explosives on the fly to sow chaos, and wield Lara's signature combat bows and climbing axe.
The Most Stunning Tomb Raider Game Ever Made
CG film quality characters and FX, real-time cloth and body physics, and full performance captured cut-scenes deliver the most immersive and visually stunning Tomb Raider game ever made.
wn.com/Rise Of The Tomb Raider Walkthrough Part 9 Geothermal Valley (Survivor Difficulty Gameplay)
Rise of the Tomb Raider Walkthrough Part 9 includes the Geothermal Valley part of the single player campaign of Rise of the Tomb Raider on Xbox One and Xbox 360. The gameplay featured in the video is recorded while playing on Survivor difficulty.
Our full Rise of the Tomb Raider Let’s Play Walkthrough will feature the entire Single Player, all Story Missions, Side Missions, Collectibles, Optional Tombs, Challenges, Documents, Relics, Murals, Strongboxes, Crypt Treasures, Survival Caches, Coin Caches, Upgrades, Achievements, Cheats, Easter Eggs.
Subscribe! ► http://www.youtube.com/user/VGFAQ?sub_confirmation=1
Twitter ► https://twitter.com/VGFAQ
Facebook ► https://www.facebook.com/VGFAQ
Rise of the Tomb Raider Playlist ► https://www.youtube.com/playlist?list=PLlRXv9MVYcSywhwvSoCcZMdcGzH3sjMVa
Rise of the Tomb Raider Geothermal Valley Walkthrough ► http://vgfaq.com/rise-of-the-tomb-raider-geothermal-valley-walkthrough
Featuring epic, high-octane action moments set in the most beautiful hostile environments on earth, Rise of the Tomb Raider delivers a cinematic survival action adventure where you will join Lara Croft on her first tomb raiding expedition as she seeks to discover the secret of immortality.
Woman vs. Wild
Conquer a world fiercely protecting its secrets, endure perilous conditions and unstable landscapes, face dangerous wildlife that act as guardians to ancient tombs, and explore huge interactive environments.
Awe-Inspiring Deadly Tombs
Explore huge ancient spaces littered with deadly traps, solve dramatic environmental puzzles, and decipher ancient texts to reveal crypts as you take on a world filled with secrets to discover.
Guerilla Combat
Use the environment to your advantage, scale trees and dive underwater to avoid or takedown enemies, configure Lara's gear, weapons, and ammo to suit your play style, craft explosives on the fly to sow chaos, and wield Lara's signature combat bows and climbing axe.
The Most Stunning Tomb Raider Game Ever Made
CG film quality characters and FX, real-time cloth and body physics, and full performance captured cut-scenes deliver the most immersive and visually stunning Tomb Raider game ever made.
- published: 18 Nov 2015
- views: 745
Extreme Environments - Hydrothermal settings for early life on Earth (and Mars?) - Kathleen Campbell
- Order: Reorder
- Duration: 62:58
- Updated: 17 Jul 2015
- views: 2146
It is well known that New Zealand hosts spectacular hot-springs associated with a live super-volcano. Less well known is that these geothermal systems are rapid...
It is well known that New Zealand hosts spectacular hot-springs associated with a live super-volcano. Less well known is that these geothermal systems are rapidly mineralizing, entombing within silica a biota adapted to high temperatures, and thus serving as an extreme environment analog in the continuing search for the earliest signs of life on Earth and potentially other planets, such as Mars. This hypothesis stems from the following observations – the deepest roots of today’s “Tree of Life” constitute heat-loving microbes in hot springs; some Precambrian settings for early life were silica-rich and hydrothermally influenced; and siliceous deposits recently found by Martian rover Spirit are interpreted as hot-spring related.
The problem in trying to peer back into “deep time” on Earth is that the very old rocks which may contain the earliest traces of life also tend to be very “beaten up” by later geological events. It can be difficult to prove both biogenicity and original environmental setting in altered rocks billions of years old. Hence, Kathleen Campbell’s research examines siliceous hot-spring deposits to track the integrity of their fossil preservation through time. This method allows us to follow microbes as they “turn to stone” and to examine their history far back into the geological record, thereby fine-tuning studies on the recognition of early terrestrial life. The research has led to discovery of giant, Yellowstone-style, paleo-geothermal systems in the Late Jurassic (150-million-year-old) of Patagonia, Argentina. It also has confirmed hydrothermal signatures in fossil microbe-rich, 3.33 billion-year-old shallow marine rocks of South Africa.
wn.com/Extreme Environments Hydrothermal Settings For Early Life On Earth (And Mars ) Kathleen Campbell
It is well known that New Zealand hosts spectacular hot-springs associated with a live super-volcano. Less well known is that these geothermal systems are rapidly mineralizing, entombing within silica a biota adapted to high temperatures, and thus serving as an extreme environment analog in the continuing search for the earliest signs of life on Earth and potentially other planets, such as Mars. This hypothesis stems from the following observations – the deepest roots of today’s “Tree of Life” constitute heat-loving microbes in hot springs; some Precambrian settings for early life were silica-rich and hydrothermally influenced; and siliceous deposits recently found by Martian rover Spirit are interpreted as hot-spring related.
The problem in trying to peer back into “deep time” on Earth is that the very old rocks which may contain the earliest traces of life also tend to be very “beaten up” by later geological events. It can be difficult to prove both biogenicity and original environmental setting in altered rocks billions of years old. Hence, Kathleen Campbell’s research examines siliceous hot-spring deposits to track the integrity of their fossil preservation through time. This method allows us to follow microbes as they “turn to stone” and to examine their history far back into the geological record, thereby fine-tuning studies on the recognition of early terrestrial life. The research has led to discovery of giant, Yellowstone-style, paleo-geothermal systems in the Late Jurassic (150-million-year-old) of Patagonia, Argentina. It also has confirmed hydrothermal signatures in fossil microbe-rich, 3.33 billion-year-old shallow marine rocks of South Africa.
- published: 17 Jul 2015
- views: 2146
DigitalGlobe LEAD Webinar Series: Geology, Exploration and WorldView 3 SWIR 102313
- Order: Reorder
- Duration: 37:51
- Updated: 30 Sep 2014
- views: 2259
Mineral exploration for both ore deposits and hydrocarbons (oil/gas) depends on finding patterns that point to a profitable deposit. The actual material of inte...
Mineral exploration for both ore deposits and hydrocarbons (oil/gas) depends on finding patterns that point to a profitable deposit. The actual material of interest, whether it is gold, oil, or something else, is not detectable by imagery and optical remote sensing. Instead, the exploration geologist must understand models that describe how these economic deposits form.
WorldView 3 data will fill a previously unoccupied niche for mineral exploration because of its 8 SWIR bands and high spatial resolution. This presentation will focus on optical remote sensing methods of seeking environmental clues that can lead to finding economic mineral deposits.
Visit www.digitalglobe.com/webinars to learn more about the DigitalGlobe LEAD Webinar Series.
wn.com/Digitalglobe Lead Webinar Series Geology, Exploration And Worldview 3 Swir 102313
Mineral exploration for both ore deposits and hydrocarbons (oil/gas) depends on finding patterns that point to a profitable deposit. The actual material of interest, whether it is gold, oil, or something else, is not detectable by imagery and optical remote sensing. Instead, the exploration geologist must understand models that describe how these economic deposits form.
WorldView 3 data will fill a previously unoccupied niche for mineral exploration because of its 8 SWIR bands and high spatial resolution. This presentation will focus on optical remote sensing methods of seeking environmental clues that can lead to finding economic mineral deposits.
Visit www.digitalglobe.com/webinars to learn more about the DigitalGlobe LEAD Webinar Series.
- published: 30 Sep 2014
- views: 2259
2011NevadaFieldCamp
- Order: Reorder
- Duration: 42:13
- Updated: 13 Jul 2015
- views: 32
In May of 2011, I led a field course to investigate the geology of eastern California and Nevada. The goals of this trip were to introduce the fourth-year stud...
In May of 2011, I led a field course to investigate the geology of eastern California and Nevada. The goals of this trip were to introduce the fourth-year students to a region of modern tectonics and associated volcanic activity. Nevada is almost entirely within the Great Basin of the Western United States, as are the easternmost parts of California. Truly a geological playground! Stops included: ignimbrites following paleo-river channels across the Sierra Nevada; Long Valley caldera and surrounding areas; Yucca Mountain geology; tectonism in southern Nevada and western Arizona; mining history at Tonopah, Nevada; ignimbrites and calderas in central and northern Nevada; geothermal power at Soda Lakes. A huge thank-you to Ann Timmermans for her help in writing the field guide and co-leading the trip!
wn.com/2011Nevadafieldcamp
In May of 2011, I led a field course to investigate the geology of eastern California and Nevada. The goals of this trip were to introduce the fourth-year students to a region of modern tectonics and associated volcanic activity. Nevada is almost entirely within the Great Basin of the Western United States, as are the easternmost parts of California. Truly a geological playground! Stops included: ignimbrites following paleo-river channels across the Sierra Nevada; Long Valley caldera and surrounding areas; Yucca Mountain geology; tectonism in southern Nevada and western Arizona; mining history at Tonopah, Nevada; ignimbrites and calderas in central and northern Nevada; geothermal power at Soda Lakes. A huge thank-you to Ann Timmermans for her help in writing the field guide and co-leading the trip!
- published: 13 Jul 2015
- views: 32
FULL EPSIODE 05 Volcanoes - Understanding the Earth HD
- Order: Reorder
- Duration: 58:44
- Updated: 02 May 2014
- views: 1939
Channel Listing of episodes
https://sites.google.com/site/mineguy101/home/lessons
This geology course through Laurentian University in Ontario. "Understanding ...
Channel Listing of episodes
https://sites.google.com/site/mineguy101/home/lessons
This geology course through Laurentian University in Ontario. "Understanding the Earth" originally aired on TVO Ontario in 1975 and rebroadcasted in 1986
Fundamentals of volcanoes - Location of Volcanoes in relation to plates, Products of Volcanoes
Planet of Man Series -- Fire Within (30minutes)
Starring; Tuzo Wilson -- renowned Canadian geophysicist
Planet of Man Series -- Fire Within Lesson 5 -- Part 1 of 7
•Illustration showing a crossection of Europe with respect to plates
•Occur at plates are colliding and pulling apart
•Vulcan the roman god of fire and earthquakes
•Mt Fugi Fire festival in japan "to soothe the restless God"
•Illustration showing distribution of volcanoes along the plates
•Two plates separate , two plates converge
•Roman statesman Pliny the Younger witnessed the eruption of Vesuvius on August 24th, 79 AD
•Mt Vesuvius movie footage from a movie of last century 'Kiberia??? accounting the story of the eruption as told by Pliny The Younger
Planet of Man Series -- Fire Within Lesson 5 -- Part 2 of 7
•Continued - Mt Vesuvius movie footage from a movie of last century 'Kiberia??? accounting the story of the eruption as told by Pliny The Younger
•Cone shaped volcanoes (Vesuvius) are made from converging plates and are characterized by lavas of granitic composition
•Violent eruptive in nature, found in mountain belts and island arc areas and the notorious "Ring of Fire" that surrounds the Pacific
•2nd type of volcano -- basaltic composition are made from plates pulling apart.
•1973 footage of Iceland eruption In 6 days 1/5 the time was lost to the eruption.
•Fissure type eruption; Less volatile but some volatility is experienced, lava may spread out over hundreds of square miles of basaltic rock.
•Lava leaving fissures underwater
•Fresh pillow lava forming underwater
•Pillow lavas found on every continent
•Columnar basalt
•Past evidence of old volcanoes
•Ancient pillow lava in NWT
•
Planet of Man Series -- Fire Within Lesson 5 -- Part 3 of 7
http://www.youtube.com/watch?v=qIrFUkLQw3w
•Pillow lava in NWT deposited from a long distinct lake
•Breccia and ash
•Badlands of the petrified forest
•Dyke and Sill formation
•Dyke in NWT
•Ancient Basalt eruption on Baffin Island
•Bingham Canyon Mine, Utah
•3rd type of volcano occurs in the middle of plates "Hot Spots"
•Rock composition similar to spreading ridge volcanoes; not violent or explosive
•Illustration/ animation of hot spot formation
•Hot springs, geysers
•Geothermal energy New Zealand Wairakei plant http://www.nzgeothermal.org.nz/geothermal_energy/nz_geothermal_fields.asp
Planet of Man Series -- Fire Within Lesson 5 -- Part 4 of 7
•Geothermal energy New Zealand Wairakei plant http://www.nzgeothermal.org.nz/geothermal_energy/nz_geothermal_fields.asp
Volcanoes -- Interpretation and Fundamentals (30minutes)
Host; Dr. David Pearson.
Volcanoes - Lesson 5 -- part 5 of 7
•Illustration show main types of extrusive igneous rocks; Basalt, andesite, & rhyolite
•5 types in volcano locations along plates
•Basalt -- fluid ; Aa and Pahoehoe
•Temperature and silica
•Basalt erupted at mid-ocean ridges form pillow lava
•Pillow lava of NWT footage
•Dr Ridler talking about Pillow lava in NWT
•Cross-section of pillow lava
•Giants Causeway quick cooling of basalt; six sided structure
Volcanoes - Lesson 5 -- Part 6 of 7
•Gases dissolved in magma ; gas important to contribution to the early atmosphere and the oceans
•Explosive release of gas causes the violence; rocks associated with violent volcanoes; pyroclastic rock , volcanic bombs, Volcanic ash, pumice
•NWT shows ancient Precambrian rock, ancient tuff
•Cross-section shows why dykes are related to the composition in the rocks
•Violence of eruption; very explosive, less explosive
•Very explosive -- Composite cone (mt fugi) release of gas,
•Caldera -- release an enormous amount of gas
•Krakatoa is a Caldera
•B&W; footage showing Krakatoa mini exposion
•Dark material fragmented pumice and ash, steam shown from the heating of the sea water.
•Crater lake in Oregon small caldera,
•Kilauea another Calera very active volcanic area\
•Footage showing seismology on Kilauea, movement of the magma
Volcanoes - Lesson 5 -- Part 7 of 7
•Footage showing seismology on Kilauea, movement of the magma
•Harmonic tremor
•Volcano swelling on Kilauea -- inflation and deflation
•Field observations of fixed points on the volcanoes
•Actual observations with a eruption
•5 types of volcano formation
wn.com/Full Epsiode 05 Volcanoes Understanding The Earth Hd
Channel Listing of episodes
https://sites.google.com/site/mineguy101/home/lessons
This geology course through Laurentian University in Ontario. "Understanding the Earth" originally aired on TVO Ontario in 1975 and rebroadcasted in 1986
Fundamentals of volcanoes - Location of Volcanoes in relation to plates, Products of Volcanoes
Planet of Man Series -- Fire Within (30minutes)
Starring; Tuzo Wilson -- renowned Canadian geophysicist
Planet of Man Series -- Fire Within Lesson 5 -- Part 1 of 7
•Illustration showing a crossection of Europe with respect to plates
•Occur at plates are colliding and pulling apart
•Vulcan the roman god of fire and earthquakes
•Mt Fugi Fire festival in japan "to soothe the restless God"
•Illustration showing distribution of volcanoes along the plates
•Two plates separate , two plates converge
•Roman statesman Pliny the Younger witnessed the eruption of Vesuvius on August 24th, 79 AD
•Mt Vesuvius movie footage from a movie of last century 'Kiberia??? accounting the story of the eruption as told by Pliny The Younger
Planet of Man Series -- Fire Within Lesson 5 -- Part 2 of 7
•Continued - Mt Vesuvius movie footage from a movie of last century 'Kiberia??? accounting the story of the eruption as told by Pliny The Younger
•Cone shaped volcanoes (Vesuvius) are made from converging plates and are characterized by lavas of granitic composition
•Violent eruptive in nature, found in mountain belts and island arc areas and the notorious "Ring of Fire" that surrounds the Pacific
•2nd type of volcano -- basaltic composition are made from plates pulling apart.
•1973 footage of Iceland eruption In 6 days 1/5 the time was lost to the eruption.
•Fissure type eruption; Less volatile but some volatility is experienced, lava may spread out over hundreds of square miles of basaltic rock.
•Lava leaving fissures underwater
•Fresh pillow lava forming underwater
•Pillow lavas found on every continent
•Columnar basalt
•Past evidence of old volcanoes
•Ancient pillow lava in NWT
•
Planet of Man Series -- Fire Within Lesson 5 -- Part 3 of 7
http://www.youtube.com/watch?v=qIrFUkLQw3w
•Pillow lava in NWT deposited from a long distinct lake
•Breccia and ash
•Badlands of the petrified forest
•Dyke and Sill formation
•Dyke in NWT
•Ancient Basalt eruption on Baffin Island
•Bingham Canyon Mine, Utah
•3rd type of volcano occurs in the middle of plates "Hot Spots"
•Rock composition similar to spreading ridge volcanoes; not violent or explosive
•Illustration/ animation of hot spot formation
•Hot springs, geysers
•Geothermal energy New Zealand Wairakei plant http://www.nzgeothermal.org.nz/geothermal_energy/nz_geothermal_fields.asp
Planet of Man Series -- Fire Within Lesson 5 -- Part 4 of 7
•Geothermal energy New Zealand Wairakei plant http://www.nzgeothermal.org.nz/geothermal_energy/nz_geothermal_fields.asp
Volcanoes -- Interpretation and Fundamentals (30minutes)
Host; Dr. David Pearson.
Volcanoes - Lesson 5 -- part 5 of 7
•Illustration show main types of extrusive igneous rocks; Basalt, andesite, & rhyolite
•5 types in volcano locations along plates
•Basalt -- fluid ; Aa and Pahoehoe
•Temperature and silica
•Basalt erupted at mid-ocean ridges form pillow lava
•Pillow lava of NWT footage
•Dr Ridler talking about Pillow lava in NWT
•Cross-section of pillow lava
•Giants Causeway quick cooling of basalt; six sided structure
Volcanoes - Lesson 5 -- Part 6 of 7
•Gases dissolved in magma ; gas important to contribution to the early atmosphere and the oceans
•Explosive release of gas causes the violence; rocks associated with violent volcanoes; pyroclastic rock , volcanic bombs, Volcanic ash, pumice
•NWT shows ancient Precambrian rock, ancient tuff
•Cross-section shows why dykes are related to the composition in the rocks
•Violence of eruption; very explosive, less explosive
•Very explosive -- Composite cone (mt fugi) release of gas,
•Caldera -- release an enormous amount of gas
•Krakatoa is a Caldera
•B&W; footage showing Krakatoa mini exposion
•Dark material fragmented pumice and ash, steam shown from the heating of the sea water.
•Crater lake in Oregon small caldera,
•Kilauea another Calera very active volcanic area\
•Footage showing seismology on Kilauea, movement of the magma
Volcanoes - Lesson 5 -- Part 7 of 7
•Footage showing seismology on Kilauea, movement of the magma
•Harmonic tremor
•Volcano swelling on Kilauea -- inflation and deflation
•Field observations of fixed points on the volcanoes
•Actual observations with a eruption
•5 types of volcano formation
- published: 02 May 2014
- views: 1939
Yellowstone National Park (USA) Vacation Travel Video Guide
- Order: Reorder
- Duration: 44:35
- Updated: 14 Aug 2013
- views: 102232
✱ 182 Hotels in Yellowstone National Park - Lowest Price Guarantee ► http://goo.gl/PeoBKD
Travel video about nature park Yellowstone National Park in the USA.
...
✱ 182 Hotels in Yellowstone National Park - Lowest Price Guarantee ► http://goo.gl/PeoBKD
Travel video about nature park Yellowstone National Park in the USA.
Located in the northwest of the U.S.A., in the state of Wyoming, is Yellowstone, a national park of the superlative, in which the impressive white water of Old Faithful is today one of the most famous and most photographed natural spectacles in the world. Indeed, for more than a century, this mighty geyser has been the proud and unique landmark of the oldest national park in the United States.
The Yellowstone National Park is famous for its highly visible geological processes. The area close to Old Faithful not only features a number of geysers but also numerous hot springs that highlight the tremendous thermal power that lies beneath the earth's surface.
Today, the Grand Geyser is the largest active geyser in the world. Its huge eruptions occur every 8 to 14 hours and last for 9 to 12 minutes and can sometimes reach a height of 60 metres.
The Yellowstone is one of the largest volcanoes in the world. Because it is located directly above a geological hot spot, a huge cave constantly fills with magma. It is situated at a depth of 8 kilometres and is the reason for the park's visible geothermal activity.
Some kilometres south of Nymph Lake is another geothermal area, the Norris Geyser Basin. This area is unique among the landscapes of Yellowstone Park as it is not only the park's hottest area but also boasts the largest geyser in the world, Steamboat Geyser.
Although Yellowstone National Park is important for North America's plant and wild life, this 9,000 square kilometre nature reserve is primarily a geological park.
Amazing, fantastic, incredible and wonderful. How can you put into words a place that provides so many remarkable glimpses of the inner workings of Planet Earth?
wn.com/Yellowstone National Park (Usa) Vacation Travel Video Guide
✱ 182 Hotels in Yellowstone National Park - Lowest Price Guarantee ► http://goo.gl/PeoBKD
Travel video about nature park Yellowstone National Park in the USA.
Located in the northwest of the U.S.A., in the state of Wyoming, is Yellowstone, a national park of the superlative, in which the impressive white water of Old Faithful is today one of the most famous and most photographed natural spectacles in the world. Indeed, for more than a century, this mighty geyser has been the proud and unique landmark of the oldest national park in the United States.
The Yellowstone National Park is famous for its highly visible geological processes. The area close to Old Faithful not only features a number of geysers but also numerous hot springs that highlight the tremendous thermal power that lies beneath the earth's surface.
Today, the Grand Geyser is the largest active geyser in the world. Its huge eruptions occur every 8 to 14 hours and last for 9 to 12 minutes and can sometimes reach a height of 60 metres.
The Yellowstone is one of the largest volcanoes in the world. Because it is located directly above a geological hot spot, a huge cave constantly fills with magma. It is situated at a depth of 8 kilometres and is the reason for the park's visible geothermal activity.
Some kilometres south of Nymph Lake is another geothermal area, the Norris Geyser Basin. This area is unique among the landscapes of Yellowstone Park as it is not only the park's hottest area but also boasts the largest geyser in the world, Steamboat Geyser.
Although Yellowstone National Park is important for North America's plant and wild life, this 9,000 square kilometre nature reserve is primarily a geological park.
Amazing, fantastic, incredible and wonderful. How can you put into words a place that provides so many remarkable glimpses of the inner workings of Planet Earth?
- published: 14 Aug 2013
- views: 102232
Tenerife's geothermal potential
- Order: Reorder
- Duration: 41:36
- Updated: 10 May 2014
- views: 327
Dr Nemesio Pérez, Coordinator of the Canary Island Volcano Institute, INVOLCAN, analyses Tenerife's geothermal potential. With all that heat stored in the earth...
Dr Nemesio Pérez, Coordinator of the Canary Island Volcano Institute, INVOLCAN, analyses Tenerife's geothermal potential. With all that heat stored in the earth's crust, by tapping just 1% of it we could produce enough energy to service the world's needs for 13,500 years... Science fiction? Science fact! What contribution can Tenerife's geothermal potential make to resolving the world's looming energy crisis?
wn.com/Tenerife's Geothermal Potential
Dr Nemesio Pérez, Coordinator of the Canary Island Volcano Institute, INVOLCAN, analyses Tenerife's geothermal potential. With all that heat stored in the earth's crust, by tapping just 1% of it we could produce enough energy to service the world's needs for 13,500 years... Science fiction? Science fact! What contribution can Tenerife's geothermal potential make to resolving the world's looming energy crisis?
- published: 10 May 2014
- views: 327
Geology of the Butte Ore Deposit
- Order: Reorder
- Duration: 68:04
- Updated: 09 Oct 2014
- views: 531
Dr. John Dilles discusses the geochemistry of the porphyry Cu-Mo resource found at at Butte, Montana. The porphyry formed from dilute magmatic fluids that conta...
Dr. John Dilles discusses the geochemistry of the porphyry Cu-Mo resource found at at Butte, Montana. The porphyry formed from dilute magmatic fluids that contained 1,000s of ppm Cu between 66 and 64 Ma, and at depths of ~8 km. The porphory is zoned from innermost Cu (Ag) ore; to mixed intermediate Cu (Zn, Ag) / Zn-MJn-Ag (Cu, Pb, Au) ore; to an outer Mn-Ag (Pb) ore that grades to barren quartz.
wn.com/Geology Of The Butte Ore Deposit
Dr. John Dilles discusses the geochemistry of the porphyry Cu-Mo resource found at at Butte, Montana. The porphyry formed from dilute magmatic fluids that contained 1,000s of ppm Cu between 66 and 64 Ma, and at depths of ~8 km. The porphory is zoned from innermost Cu (Ag) ore; to mixed intermediate Cu (Zn, Ag) / Zn-MJn-Ag (Cu, Pb, Au) ore; to an outer Mn-Ag (Pb) ore that grades to barren quartz.
- published: 09 Oct 2014
- views: 531
Geologic Carbon Sequestration: Mitigating Climate Change by Injecting CO2 Underground
- Order: Reorder
- Duration: 63:06
- Updated: 30 Jul 2009
- views: 3964
July 21, 2009 Berkeley Lab summer lecture: Climate change provides strong motivation to reduce CO2 emissions from the burning of fossil fuels. Carbon dioxide ca...
July 21, 2009 Berkeley Lab summer lecture: Climate change provides strong motivation to reduce CO2 emissions from the burning of fossil fuels. Carbon dioxide capture and storage involves the capture, compression, and transport of CO2 to geologically favorable areas, where its injected into porous rock more than one kilometer underground for permanent storage. Oldenburg, who heads Berkeley Labs Geologic Carbon Sequestration Program, will focus on the challenges, opportunities, and research needs of this innovative technology.
wn.com/Geologic Carbon Sequestration Mitigating Climate Change By Injecting Co2 Underground
July 21, 2009 Berkeley Lab summer lecture: Climate change provides strong motivation to reduce CO2 emissions from the burning of fossil fuels. Carbon dioxide capture and storage involves the capture, compression, and transport of CO2 to geologically favorable areas, where its injected into porous rock more than one kilometer underground for permanent storage. Oldenburg, who heads Berkeley Labs Geologic Carbon Sequestration Program, will focus on the challenges, opportunities, and research needs of this innovative technology.
- published: 30 Jul 2009
- views: 3964
From Seismic to Simulation: Geologic Integrity, No Compromise on 3D Reservoir Models
- Order: Reorder
- Duration: 21:33
- Updated: 10 Jan 2014
- views: 5935
Matthieu Quinquet, Technical Director - EMEA-CIS, presents the journey of a reservoir model, from the initial interpreted seismic and geological data all the wa...
Matthieu Quinquet, Technical Director - EMEA-CIS, presents the journey of a reservoir model, from the initial interpreted seismic and geological data all the way to a final flow simulation model.
Topics Covered:
- Building and preserving accurate reservoir architectures all the way to flow simulation models
- Analyzing and understanding the impact of geology on flow estimates
- Reconciling 3D model accuracy and ease-of-use through robust and
integrated workflows
wn.com/From Seismic To Simulation Geologic Integrity, No Compromise On 3D Reservoir Models
Matthieu Quinquet, Technical Director - EMEA-CIS, presents the journey of a reservoir model, from the initial interpreted seismic and geological data all the way to a final flow simulation model.
Topics Covered:
- Building and preserving accurate reservoir architectures all the way to flow simulation models
- Analyzing and understanding the impact of geology on flow estimates
- Reconciling 3D model accuracy and ease-of-use through robust and
integrated workflows
- published: 10 Jan 2014
- views: 5935
Seismic interpretation in a geothermal reservoir
- Order: Reorder
- Duration: 117:58
- Updated: 15 Feb 2015
- views: 128
Agile*
Опубликовано: 31 авг. 2012 г.
How I applied volume interpretation and attribute analysis to the problem of characterizing a geothermal reservoir in the I...
Agile*
Опубликовано: 31 авг. 2012 г.
How I applied volume interpretation and attribute analysis to the problem of characterizing a geothermal reservoir in the Imperial Valley of California, US. A short version of a talk at the SEG IQ Earth Forum in Avon, Colorado, August 2012. Read more at http://www.agilegeoscience.com/.
wn.com/Seismic Interpretation In A Geothermal Reservoir
Agile*
Опубликовано: 31 авг. 2012 г.
How I applied volume interpretation and attribute analysis to the problem of characterizing a geothermal reservoir in the Imperial Valley of California, US. A short version of a talk at the SEG IQ Earth Forum in Avon, Colorado, August 2012. Read more at http://www.agilegeoscience.com/.
- published: 15 Feb 2015
- views: 128
Heavy Ion Fusion
- Order: Reorder
- Duration: 62:28
- Updated: 30 Nov 2010
- views: 16093
Google Tech Talk
November 11th, 2010
Presented by Dr. Charles Helsley.
Abstract:
The limited supply and worldwide environmental effects of carbon-based fuels...
Google Tech Talk
November 11th, 2010
Presented by Dr. Charles Helsley.
Abstract:
The limited supply and worldwide environmental effects of carbon-based fuels demand that a different source of energy be identified and tapped. This analysis applies to synthetic bio fuels as well as fossil fuels. The obvious candidates to supplant carbon-based fuels are solar conversion, wind generation, hydraulic generation, geothermal extraction, fission, and fusion. When scaled to the size necessary to satisfy the energy demands of the world, all except fusion have severe unmitigated environmental impacts, induce geopolitical instability, or exhibit very limited availability, reliability, and sustainability. Most technologies suffer from more than one of these drawbacks.
The fusion of Deuterium and Tritium ("DT") to form Helium and a neutron is a well-known reaction that yields prodigious amounts of energy. Though sufficient fuel is available in seawater to sustain the global energy demand for millennia, we still need an engine capable of running the reaction. As of 2009, the search for such an engine has been going on for 6 decades and common wisdom says it is still 5 decades away. The problem is that the search has been concentrated on the 1 GW regime (the size of a normal large power plant). HIF is that engine now.
What is not generally known is that a safe practical way to harness the isotope's of Hydrogen reaction was developed in the 1970's but abandoned because it was only economically viable at a very large scale. The process is known as High Energy Heavy Ion Fusion. Such a fusion power plant would produce about 100 GW of power rather than the 1 GW desired by the power industry. Three facilities would meet the total needs of California, allowing fission and fossil fuel generation to be cut back significantly
Heavy Ion Fusion techology is more "ready to go" now than rocket technology was in 1961 when President Kennedy set the goal to go to the moon and back within the decade.
The controlled ignition of DT provides a virtually unlimited source of energy. Fusion power can be on line in less than a decade. The energy produced by a single system is equivalent to a super giant oil field and will take about the same amount of time to come on line producing heat, electricity, hydrogen for synthetic fuel and water with a minimal carbon footprint.
The life of HIF is thousands of years, while a giant oil field's life is only a few decades.
Speaker Bio:
Charles Helsley is a retired researcher at the University of Hawaii. He has lived in Hawaii for 32 years, was formerly the Director of the Hawaii Institute of Geophysics and was the Director of the University of Hawaii Sea Grant College Program at the time of his retirement. He is an expert in energy matters, especially in oil and gas resources and is knowledgeable about the effects that the of burning carbon-based fuels has on the earths ocean and atmosphere. He has been involved in many fields of research, from paleomagnetism, to seismology, to marine geology and more recently in free electron laser research and in open ocean aquaculture research under the banner of the Hawaii Offshore Aquaculture Research Program (HOARP) of which he was the principal investigator. He has published more than 100 papers in scientific journals during his career and still publishes papers every few years. He holds BS and MS degrees in Geology from the California Institute of Technology and a PhD in Geology from Princeton University.
wn.com/Heavy Ion Fusion
Google Tech Talk
November 11th, 2010
Presented by Dr. Charles Helsley.
Abstract:
The limited supply and worldwide environmental effects of carbon-based fuels demand that a different source of energy be identified and tapped. This analysis applies to synthetic bio fuels as well as fossil fuels. The obvious candidates to supplant carbon-based fuels are solar conversion, wind generation, hydraulic generation, geothermal extraction, fission, and fusion. When scaled to the size necessary to satisfy the energy demands of the world, all except fusion have severe unmitigated environmental impacts, induce geopolitical instability, or exhibit very limited availability, reliability, and sustainability. Most technologies suffer from more than one of these drawbacks.
The fusion of Deuterium and Tritium ("DT") to form Helium and a neutron is a well-known reaction that yields prodigious amounts of energy. Though sufficient fuel is available in seawater to sustain the global energy demand for millennia, we still need an engine capable of running the reaction. As of 2009, the search for such an engine has been going on for 6 decades and common wisdom says it is still 5 decades away. The problem is that the search has been concentrated on the 1 GW regime (the size of a normal large power plant). HIF is that engine now.
What is not generally known is that a safe practical way to harness the isotope's of Hydrogen reaction was developed in the 1970's but abandoned because it was only economically viable at a very large scale. The process is known as High Energy Heavy Ion Fusion. Such a fusion power plant would produce about 100 GW of power rather than the 1 GW desired by the power industry. Three facilities would meet the total needs of California, allowing fission and fossil fuel generation to be cut back significantly
Heavy Ion Fusion techology is more "ready to go" now than rocket technology was in 1961 when President Kennedy set the goal to go to the moon and back within the decade.
The controlled ignition of DT provides a virtually unlimited source of energy. Fusion power can be on line in less than a decade. The energy produced by a single system is equivalent to a super giant oil field and will take about the same amount of time to come on line producing heat, electricity, hydrogen for synthetic fuel and water with a minimal carbon footprint.
The life of HIF is thousands of years, while a giant oil field's life is only a few decades.
Speaker Bio:
Charles Helsley is a retired researcher at the University of Hawaii. He has lived in Hawaii for 32 years, was formerly the Director of the Hawaii Institute of Geophysics and was the Director of the University of Hawaii Sea Grant College Program at the time of his retirement. He is an expert in energy matters, especially in oil and gas resources and is knowledgeable about the effects that the of burning carbon-based fuels has on the earths ocean and atmosphere. He has been involved in many fields of research, from paleomagnetism, to seismology, to marine geology and more recently in free electron laser research and in open ocean aquaculture research under the banner of the Hawaii Offshore Aquaculture Research Program (HOARP) of which he was the principal investigator. He has published more than 100 papers in scientific journals during his career and still publishes papers every few years. He holds BS and MS degrees in Geology from the California Institute of Technology and a PhD in Geology from Princeton University.
- published: 30 Nov 2010
- views: 16093
THF:GEOLOGICAL SURVEY OF INDIA (புவியியல் அருங்காட்சியகம், சென்னை)
- Order: Reorder
- Duration: 35:16
- Updated: 05 Dec 2014
- views: 263
Recorded on: 14.June.2013
Recorded on: 14.June.2013
wn.com/Thf Geological Survey Of India (புவியியல் அருங்காட்சியகம், சென்னை)
IHRDC: GL 302 Production Technology and Reservoir Management for the Geologist 1
- Order: Reorder
- Duration: 45:19
- Updated: 07 Jul 2015
- views: 285
- published: 07 Jul 2015
- views: 285
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8:08
Geologist/Engineer Charlene Wardlow - Focusing on Jobs in the Geothermal Community
Reno resident Linda Peri interviews Charlene Wardlow, Director of Business Development for...
published: 23 Sep 2011
Geologist/Engineer Charlene Wardlow - Focusing on Jobs in the Geothermal Community
Geologist/Engineer Charlene Wardlow - Focusing on Jobs in the Geothermal Community
- Report rights infringement
- published: 23 Sep 2011
- views: 461
5:54
Iceland-Geothermal
Description of geology of Iceland and geothermal energy
published: 17 Oct 2009
Iceland-Geothermal
Iceland-Geothermal
- Report rights infringement
- published: 17 Oct 2009
- views: 13130
47:00
Steam Drillers (Geothermal Energy Development)
Geothermal drilling is the process of creating boreholes in the earth to extract the earth...
published: 02 Dec 2014
Steam Drillers (Geothermal Energy Development)
Steam Drillers (Geothermal Energy Development)
- Report rights infringement
- published: 02 Dec 2014
- views: 62973
2:01
Remote Sensing for Geothermal Spatial measurements - GeoDrone ehf.
Service dedicated for Geothermal exploration companies. Multi sensor solutions for geother...
published: 17 Jul 2014
Remote Sensing for Geothermal Spatial measurements - GeoDrone ehf.
Remote Sensing for Geothermal Spatial measurements - GeoDrone ehf.
- Report rights infringement
- published: 17 Jul 2014
- views: 720
2:37
Green Careers: Clean Energy - Geothermal Power (clip)
We visit the largest geothermal operation in the world to see how heat from the earths cor...
published: 30 Sep 2009
Green Careers: Clean Energy - Geothermal Power (clip)
Green Careers: Clean Energy - Geothermal Power (clip)
- Report rights infringement
- published: 30 Sep 2009
- views: 1729
10:55
GEO-HIDRO: Geothermal well drilling - cementing well from 0-200m
Geothermal borehole,1164m deep. Cementing process 0-200m.
-------------------------------...
published: 07 Jun 2011
GEO-HIDRO: Geothermal well drilling - cementing well from 0-200m
GEO-HIDRO: Geothermal well drilling - cementing well from 0-200m
- Report rights infringement
- published: 07 Jun 2011
- views: 2334
2:09
Geothermal gradient - Video Learning - WizScience.com
"Geothermal gradient" is the rate of increasing temperature with respect to increasing dep...
published: 02 Sep 2015
Geothermal gradient - Video Learning - WizScience.com
Geothermal gradient - Video Learning - WizScience.com
- Report rights infringement
- published: 02 Sep 2015
- views: 165
2:46
GEO-HIDRO: Geothermal well drilling - End of drilling and preparing for well logging
Geothermal borehole, 1164m deep. End of drilling and preparing for well logging.
--------...
published: 29 May 2011
GEO-HIDRO: Geothermal well drilling - End of drilling and preparing for well logging
GEO-HIDRO: Geothermal well drilling - End of drilling and preparing for well logging
- Report rights infringement
- published: 29 May 2011
- views: 2341
3:22
2012 UGS Geothermal Drilling
Discovery of a new type of geothermal energy resource in Utah offers hope for significantl...
published: 27 Sep 2012
2012 UGS Geothermal Drilling
2012 UGS Geothermal Drilling
- Report rights infringement
- published: 27 Sep 2012
- views: 2102
4:31
Secoroc EDGE - geothermal applications (English subtitles)
Secoroc EDGE utilizes sensor technology to detect and translate percussion vibrations to a...
published: 30 Jan 2012
Secoroc EDGE - geothermal applications (English subtitles)
Secoroc EDGE - geothermal applications (English subtitles)
- Report rights infringement
- published: 30 Jan 2012
- views: 1747
6:59
Class 10, Vid 2: Shallow geothermal energy
published: 07 Mar 2016
Class 10, Vid 2: Shallow geothermal energy
Class 10, Vid 2: Shallow geothermal energy
- Report rights infringement
- published: 07 Mar 2016
- views: 12
15:56
Class 10, Vid 1: Deep geothermal energy
Quiz link: http://tinyurl.com/geol112-q13
published: 07 Mar 2016
Class 10, Vid 1: Deep geothermal energy
Class 10, Vid 1: Deep geothermal energy
- Report rights infringement
- published: 07 Mar 2016
- views: 52
4:06
InnovWeek ENGIE - GeoThermal Energy in Indonesia
Since 2011, ENGIE has been exploring three high temperature geothermal resource areas in S...
published: 01 Jun 2015
InnovWeek ENGIE - GeoThermal Energy in Indonesia
InnovWeek ENGIE - GeoThermal Energy in Indonesia
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- published: 01 Jun 2015
- views: 591
2:44
CompactRotoSonic drilling for geothermal loops in east germany
This video shows you a CompactRotoSonic crawler drilling with 5,5" diameter till 42 meters...
published: 31 Aug 2009
CompactRotoSonic drilling for geothermal loops in east germany
CompactRotoSonic drilling for geothermal loops in east germany
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- published: 31 Aug 2009
- views: 4176
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1:58
BRETT NORMAN NATIONAL PARK RANGER BROKEN HILL ON PARKS OF THE REGION WITH BEN BEETON
BRETT NORMAN NATIONAL PARK RANGER BROKEN HILL ON PARKS OF THE REGION WITH BEN BEETON PART1...
published: 10 Nov 2010
BRETT NORMAN NATIONAL PARK RANGER BROKEN HILL ON PARKS OF THE REGION WITH BEN BEETON
BRETT NORMAN NATIONAL PARK RANGER BROKEN HILL ON PARKS OF THE REGION WITH BEN BEETON
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- published: 10 Nov 2010
- views: 30
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360:15
Southeastern U.S Geothermal Resources Workshop, 08-07-2013
Hosted by:
VA Department of Mines, Minerals and Energy Division of Geology and Mineral Res...
published: 24 Sep 2013
Southeastern U.S Geothermal Resources Workshop, 08-07-2013
Southeastern U.S Geothermal Resources Workshop, 08-07-2013
- Report rights infringement
- published: 24 Sep 2013
- views: 51
211:04
Southeastern U.S Geothermal Resources Workshop, 08-08-2013
Hosted by:
VA Department of Mines, Minerals and Energy Division of Geology and Mineral Re...
published: 24 Sep 2013
Southeastern U.S Geothermal Resources Workshop, 08-08-2013
Southeastern U.S Geothermal Resources Workshop, 08-08-2013
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- published: 24 Sep 2013
- views: 160
20:51
Kent Hovind does Geology
In this video I attempt to debunk the Kent Hovind's idea of Geology.
If you have any ques...
published: 29 Oct 2015
Kent Hovind does Geology
Kent Hovind does Geology
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- published: 29 Oct 2015
- views: 1178
79:42
Geological aspects of renewable energy
November's Shell London lecture, delivered by Bruce Levell (Shell) at the Geological Socie...
published: 18 Mar 2013
Geological aspects of renewable energy
Geological aspects of renewable energy
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- published: 18 Mar 2013
- views: 1231
116:15
H12F. Shallow and Deep Geothermal Systems II - 2012 AGU Fall Meeting
H12F. Shallow and Deep Geothermal Systems II - 2012 AGU Fall Meeting
Abstracts:
[H12F-0...
published: 05 Dec 2012
H12F. Shallow and Deep Geothermal Systems II - 2012 AGU Fall Meeting
H12F. Shallow and Deep Geothermal Systems II - 2012 AGU Fall Meeting
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- published: 05 Dec 2012
- views: 199
59:09
FULL EPISODE Lesson 08 - Metamorphic Rocks - Understanding the Earth HD
Full series listing https://sites.google.com/site/mineguy101/home/lessons
This geology cou...
published: 17 May 2014
FULL EPISODE Lesson 08 - Metamorphic Rocks - Understanding the Earth HD
FULL EPISODE Lesson 08 - Metamorphic Rocks - Understanding the Earth HD
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- published: 17 May 2014
- views: 4285
29:01
Let's Play Sol0 Mars Colonization - E07 All the Germs!!
In this episode, we work on splicing the bacteria to drive our farm efficiency. We also ge...
published: 21 Feb 2016
Let's Play Sol0 Mars Colonization - E07 All the Germs!!
Let's Play Sol0 Mars Colonization - E07 All the Germs!!
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- published: 21 Feb 2016
- views: 6
91:02
Speaker Series -The Geysers
Talks on the history of the Geysers Inn, The Geology of the region, and Calpine, who run t...
published: 11 Sep 2013
Speaker Series -The Geysers
Speaker Series -The Geysers
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- published: 11 Sep 2013
- views: 31
25:35
Rise of the Tomb Raider - Walkthrough Part 9 - Geothermal Valley (Survivor Difficulty Gameplay)
Rise of the Tomb Raider Walkthrough Part 9 includes the Geothermal Valley part of the sing...
published: 18 Nov 2015
Rise of the Tomb Raider - Walkthrough Part 9 - Geothermal Valley (Survivor Difficulty Gameplay)
Rise of the Tomb Raider - Walkthrough Part 9 - Geothermal Valley (Survivor Difficulty Gameplay)
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- published: 18 Nov 2015
- views: 745
62:58
Extreme Environments - Hydrothermal settings for early life on Earth (and Mars?) - Kathleen Campbell
It is well known that New Zealand hosts spectacular hot-springs associated with a live sup...
published: 17 Jul 2015
Extreme Environments - Hydrothermal settings for early life on Earth (and Mars?) - Kathleen Campbell
Extreme Environments - Hydrothermal settings for early life on Earth (and Mars?) - Kathleen Campbell
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- published: 17 Jul 2015
- views: 2146
37:51
DigitalGlobe LEAD Webinar Series: Geology, Exploration and WorldView 3 SWIR 102313
Mineral exploration for both ore deposits and hydrocarbons (oil/gas) depends on finding pa...
published: 30 Sep 2014
DigitalGlobe LEAD Webinar Series: Geology, Exploration and WorldView 3 SWIR 102313
DigitalGlobe LEAD Webinar Series: Geology, Exploration and WorldView 3 SWIR 102313
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- published: 30 Sep 2014
- views: 2259
42:13
2011NevadaFieldCamp
In May of 2011, I led a field course to investigate the geology of eastern California and ...
published: 13 Jul 2015
2011NevadaFieldCamp
2011NevadaFieldCamp
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- published: 13 Jul 2015
- views: 32
58:44
FULL EPSIODE 05 Volcanoes - Understanding the Earth HD
Channel Listing of episodes
https://sites.google.com/site/mineguy101/home/lessons
This ge...
published: 02 May 2014
FULL EPSIODE 05 Volcanoes - Understanding the Earth HD
FULL EPSIODE 05 Volcanoes - Understanding the Earth HD
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- published: 02 May 2014
- views: 1939
44:35
Yellowstone National Park (USA) Vacation Travel Video Guide
✱ 182 Hotels in Yellowstone National Park - Lowest Price Guarantee ► http://goo.gl/PeoBKD
...
published: 14 Aug 2013
Yellowstone National Park (USA) Vacation Travel Video Guide
Yellowstone National Park (USA) Vacation Travel Video Guide
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- published: 14 Aug 2013
- views: 102232
Southeastern U.S Geothermal Resources Workshop, 08...
Southeastern U.S Geothermal Resources Workshop, 08...
Kent Hovind does Geology...
Geological aspects of renewable energy...
H12F. Shallow and Deep Geothermal Systems II - 201...
FULL EPISODE Lesson 08 - Metamorphic Rocks - Under...
Let's Play Sol0 Mars Colonization - E07 All the Ge...
Speaker Series -The Geysers...
Rise of the Tomb Raider - Walkthrough Part 9 - Geo...
Extreme Environments - Hydrothermal settings for e...
DigitalGlobe LEAD Webinar Series: Geology, Explora...
2011NevadaFieldCamp...
FULL EPSIODE 05 Volcanoes - Understanding the Eart...
Yellowstone National Park (USA) Vacation Travel Vi...
Tenerife's geothermal potential...
Geology of the Butte Ore Deposit...
Geologic Carbon Sequestration: Mitigating Climate ...
From Seismic to Simulation: Geologic Integrity, No...
Seismic interpretation in a geothermal reservoir...
Heavy Ion Fusion...
THF:GEOLOGICAL SURVEY OF INDIA (புவியியல் அருங்காட...
IHRDC: GL 302 Production Technology and Reservoir ...
photo: AP / Wally Santana, File
Hellfire Missiles Bound For Portland, Ore. Discovered On Air Serbia Flight From Beirut
Edit WorldNews.com 14 Mar 2016
Residents of Portland, Ore. are breathing a collective sigh of relief now that a pair of Hellfire missiles are back where they belong after being found by Air Serbia security officials using sniffer dogs, multiple media reports said Monday ... The weapons could destroy tanks, armored cars, large buildings and kill thousands of people....
photo: AP / Matt Rourke
“It’s The Right To Work For Less Law, Stupid!” Why Sanders Keeps Scoring Upsets
Edit WorldNews.com 14 Mar 2016
Article by WN.com Correspondent Dallas Darling. What do Michigan, Kansas, Nebraska, Oklahoma, Iowa and Nevada have in common? . Along with upsetting the Democratic Establishment’s coronation of Hillary Clinton by throwing their support behind Sen ... Workers Unhappy With State-Mandated Right To Work Laws ... They also mentioned fewer job opportunities, freedom of collective bargaining and a lack of civil rights ... Consequently, even Dr ... W ... Emmet ... W....
photo: AP / Christin Roby
How I survived the Ivory Coast beach attack
Edit BBC News 14 Mar 2016
Militants opened fire on a beach in Ivory Coast on Sunday, killing at least 16 people. One person on the beach told me how she and her baby managed to survive. "It was a miracle the baby didn't cry," said 32-year-old Charline Burton, who described how she hid for two hours in a toilet at a hotel in Grand Bassam with her one-year-old daughter while gunmen searched rooms around her ... "We started escaping and I lost my husband ... ....
photo: Public domain photo
Snooze The Day Away As Part Of National Napping Day
Edit WorldNews.com 14 Mar 2016
Tuesday, 15 March is well known as the Ides of March from Shakespeare’s Julius Caesar ... Daylight Savings Time began in Germany in 1918 and is currently observed in 78 countries and 48 of the 50 U.S. states (Arizona and Hawaii do not participate)....
photo: creative commons /
Whistleblower Says VW Deleted Documents, Obstructed Justice
Edit WorldNews.com 14 Mar 2016« back to news headlines
Ormat Signs Definitive Agreements to Acquire Geothermal Power Plant in the Island of Guadeloupe
Edit Stockhouse 14 Mar 2016
(NYSE.ORA) announced today it has signed an Investment Agreement and Shareholders Agreement with Sageos holding (Sageos), a fully owned subsidiary of Bureau de Recherches Géologiques et Minières (BRGM), the French governmental geological survey company, to acquire, gradually, 85% of Geothermie Bouillante SA (“GB”). GB owns and operates the Bouillante geothermal power plant....
Awesome Things to Do in Iceland
Edit Huffington Post 14 Mar 2016
Iceland has always been one of my dream destinations! ... 1. Explore Reykjavik ... 2 ... 3 ... 4 ... 5 ... 6 ... 7. Visit geothermal pools and springs ... Blue Lagoon is a geothermal spa; You can bathe in the warm thermal pool, and they also offer different spa services and a lot more. The water in the thermal pool is from the geothermal seawater from underneath the earth's surface with minerals, silica, and algae that can be beneficial for your skin and tired body ... ....
John Bluemle to Speak of “North Dakota’s Geologic Legacy” at ND Heritage Center & State Museum (State Historical Society of North Dakota)
Edit Public Technologies 14 Mar 2016
BISMARCK - The public is invited to a free program, 'North Dakota's Geologic Legacy,' presented by author John Bluemle, on March 20 at 2 p.m ... Based on Bluemle's book 'North Dakota's Geologic Legacy ... John Bluemle was employed by the North Dakota Geological Survey from 1962 until he retired in 2004. His main interest has been surface geology, the geology of the landforms that can be seen while traveling around the state....
Polaris Infrastructure Announces 2015 Year End Results
Edit Stockhouse 14 Mar 2016
Polaris Infrastructure is a Toronto-based company engaged in the operation, acquisition and development of renewable energy projects in Latin America. Currently, the Company operates a 72MW geothermal project located in Nicaragua ... In addition, statements relating to estimates of recoverable geothermal energy "reserves" or "resources" or energy ......
Life on Mars? ExoMars mission to study methane mystery may provide answer
Edit Sydney Morning Herald 14 Mar 2016
Is there life on the fourth rock from the sun? The tantalising question may soon be answered by a joint European-Russian mission to find out whether the Red Planet's mysterious emissions of methane gas, the main constituent of natural gas, are of geological or biological origin ... If the on-board lab succeeds in ruling out several geological ......
ExoMars: Could we be about to find life on the Red Planet?
Edit The Independent 14 Mar 2016
If the methane has complex hydrocarbons in it, then it likely came from life; but if it has sulphur dioxide then it’s more likely to be geological ... show if it has been used by living things or by geological processes....
Half Yearly Report and Accounts (KalNorth Gold Mines Limited)
Edit Public Technologies 14 Mar 2016
Exploration during the six months to December 31 2015 was strongly focussed on the Kurnalpi Project where several high priority drilling targets were identified after the completion of ground based geophysical surveys and an updated geological interpretation undertaken from February to May 2015 ... The new geological interpretation was prepared using ......
Data show areas thought prone to soil liquefaction
Edit Taipei Times 14 Mar 2016
Soil liquefaction occurs when shaking during an earthquake causes saturated granular material to behave like a liquid, potentially causing soil to be unable to support structures above it, Central Geological Survey Director Chiang Chung-jung (江崇榮) said ... The Executive Yuan is also considering formalizing a new property transaction rule to require traders to disclose geological information about properties, Sun said....
Protecting Water in the Red River: There’s a Map for That (USGS - US Geological Survey)
Edit Public Technologies 14 Mar 2016
(Source. USGS - US Geological Survey) ... Geological Survey, the International Joint Commission and partners, provides information about levels of nutrients and other water-quality indicators in the basin's surface water that could have adverse effects on the environment and human health ... Section Chair Lana Pollack ... Geological Survey issued this content on 14 March 2016 and is solely responsible for the information contained herein ... (noodl....
Taiwan launches database on areas vulnerable to quake damage
Edit Jakarta Post 14 Mar 2016
The Central Geological Survey's research tool shows the potential for soil liquefaction, in which the ground subsides, endangering buildings above ... 6, killing 115 people ... The Central Geological Survey maps show substantial parts of the riverside city's downtown areas at high risk of liquefaction. (+) Tweet ....
Tata Power's centenary year journey chronicled in a book - 'Invisible Goodness: the story of Tata Power' (Tata Power Company Limited)
Edit Public Technologies 14 Mar 2016
Its international presence includes strategic investments in Indonesia through a 30% stake in the leading coal company PT Kaltim Prima Coal (KPC), 26% stake in mines at PT Baramulti Suksessarana Tbk ('BSSR') and a geothermal project; in Singapore through Trust Energy Resources to securitize coal supply and the shipping of coal for its thermal power ......
What a Drag: The Global Impact of Bottom Trawling (USGS - US Geological Survey)
Edit Public Technologies 14 Mar 2016
USGS - US Geological Survey) ... 'This study raises serious concerns about the future stability of continental shelves - the very source of the vast majority of the fish we consume,' said geological oceanographer and lead author Ferdinand Oberle, now a visiting scientist at the U.S ... Geological Survey issued this content on 14 March 2016 and is solely responsible for the information contained herein....
Spacecraft blasts off to begin search for life on Mars
Edit Belfast Telegraph 14 Mar 2016
A European spacecraft programmed to sniff out atmospheric evidence of life on Mars has blasted into space ... Share Go To ... But it can also be released by volcanic activity and other geological processes. The European Space Agency (ESA) orbiter will tell scientists whether Martian methane is most likely to have a geological or biological source ... ....
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