- published: 04 Dec 2013
- views: 446784
2012 World [civil] electricity generation by fuels (IEA, 2014)
Nuclear power is the use of nuclear reactions that release nuclear energy to generate heat, which most frequently is then used in steam turbines to produce electricity in a nuclear power station. The term includes nuclear fission, nuclear decay and nuclear fusion. Presently, the nuclear fission of elements in the actinide series of the periodic table produce the vast majority of nuclear energy in the direct service of humankind, with nuclear decay processes, primarily in the form of geothermal energy, and radioisotope thermoelectric generators, in niche uses making up the rest.
Nuclear (fission) power stations, excluding the contribution from naval nuclear fission reactors, provided 11% of the world's electricity in 2012, somewhat less than that generated by hydro-electric stations at 16%. Since electricity accounts for about 25% of humanity's energy usage with the majority of the rest coming from fossil fuel reliant sectors such as transport, manufacture and home heating, nuclear fission's contribution to the global final energy consumption is about 2.5%, a little more than the combined global electricity production from "new renewables"; wind, solar, biofuel and geothermal power, which together provided 2% of global final energy consumption in 2014.
A nuclear reactor, formerly known as an atomic pile, is a device used to initiate and control a sustained nuclear chain reaction. Nuclear reactors are used at nuclear power plants for electricity generation and in propulsion of ships. Heat from nuclear fission is passed to a working fluid (water or gas), which runs through turbines. These either drive a ship's propellers or turn electrical generators. Nuclear generated steam in principle can be used for industrial process heat or for district heating. Some reactors are used to produce isotopes for medical and industrial use, or for production of weapons-grade plutonium. Some are run only for research. Today there are about 450 nuclear power reactors that are used to generate electricity in about 30 countries around the world.
Just as conventional power-stations generate electricity by harnessing the thermal energy released from burning fossil fuels, nuclear reactors convert the energy released by controlled nuclear fission into thermal energy for further conversion to mechanical or electrical forms.
The nuclear fuel cycle, also called nuclear fuel chain, is the progression of nuclear fuel through a series of differing stages. It consists of steps in the front end, which are the preparation of the fuel, steps in the service period in which the fuel is used during reactor operation, and steps in the back end, which are necessary to safely manage, contain, and either reprocess or dispose of spent nuclear fuel. If spent fuel is not reprocessed, the fuel cycle is referred to as an open fuel cycle (or a once-through fuel cycle); if the spent fuel is reprocessed, it is referred to as a closed fuel cycle.
Nuclear power relies on fissionable material that can sustain a chain reaction with neutrons. Examples of such materials include uranium and plutonium. Most nuclear reactors use a moderator to lower the kinetic energy of the neutrons and increase the probability that fission will occur. This allows reactors to use material with far lower concentration of fissile isotopes than nuclear weapons. Graphite and heavy water are the most effective moderators, because they slow the neutrons through collisions without absorbing them. Reactors using heavy water or graphite as the moderator can operate using natural uranium.
Beginning on November 18 2013, workers at the crippled Fukushima Daiichi nuclear power plant began removing the nuclear fuel rods from the spent fuel pool in reactor 4. The power plant was destroyed in 2011 when an earthquake and tsunami triggered three meltdowns at the nuclear power station. There was also an explosion in reactor building 4, and TEPCO has prioritized removing the spent fuel from that damaged building. The removal of the spent fuel is the first big step in the process of decommissioning the power station, a effort that will take 30 to 40 years.
See the inner workings of a Canadian nuclear power plant, find out where fuel rods come from, and discover what they do with their nuclear waste. The power plant in this video is owned by Bruce Power. http://www.brucepower.com/
Nuclear Reactor - Understanding how it works | Physics Elearnin video Nuclear reactors are the modern day devices extensively used for power generation as the traditional fossil fuels, like coal, are at the breach of extinction. A nuclear reactor is the source of intense heat which is in turn used for generation of power in nuclear power station. Its mechanism is similar to that of a furnace in a steam generator; the steam is used to drive the turbines of the electric generator system. A nuclear reactor consists of three crucial components: Fuel elements, moderator and control rods. Fuel elements come usually in the shape of thin rods of about 1cm in diameter and contain fissionable nuclei, like Uranium (235 92U or 238 92U). These rods vary in number according to the size of the react...
NEI's Everett Redmond, Director of Nonproliferation and Fuel Cycle Policy, discusses spent fuel assembly
Nuclear engineers from Omaha Public Power District's Fort Calhoun Station are preparing for new energy. Next month, the plant will be taken off-line as they replace about 44 nuclear reactors. KMTV was given rare access to see how the process is done.
Nuclear technology is constantly in the news. So how exactly do you make nuclear fuel? Special thanks to Life Noggin for animating this video! Check them out: http://www.youtube.com/lifenoggin Read More: Fuel Cycle Facilities http://www.nrc.gov/materials/fuel-cycle-fac.html “The U.S. Nuclear Regulatory Commission (NRC) regulates uranium recovery facilities that mill uranium; fuel cycle facilities that convert, enrich, and fabricate it into fuel for use in nuclear reactors, and deconversion facilities that process the depleted uranium hexafluoride for disposal.” Uranium processing http://www.britannica.com/EBchecked/topic/619232/uranium-processing “Uranium (U), although very dense (19.1 grams per cubic centimetre), is a relatively weak, nonrefractory metal. Indeed, the metal...
The Engineers at the Nuclear Engineering Teaching Lab (NETL) at UT Austin demonstrate a reactor pulse. All the Control Rods are removed simultaneously allowing the nuclear reaction to proceed un-dampened, bringing the energy output of the reactor to 680 Megawatts in 50 milliseconds. Video produced by Juan Diaz at the Faculty Innovation Center
Jem Stansfield explores a never used reactor core at the Zwentendorf nuclear power plant in Austria, to explain how a nuclear power station works. Bang Goes The Theory, investigating the science behind the headlines and making sense of the everyday issues that matter to us all. Subscribe to the BBC Worldwide channel: http://bit.ly/yqBWhy BBC Worldwide Channel: http://www.youtube.com/BBCWorldwide
Beginning on November 18 2013, workers at the crippled Fukushima Daiichi nuclear power plant began removing the nuclear fuel rods from the spent fuel pool in reactor 4. The power plant was destroyed in 2011 when an earthquake and tsunami triggered three meltdowns at the nuclear power station. There was also an explosion in reactor building 4, and TEPCO has prioritized removing the spent fuel from that damaged building. The removal of the spent fuel is the first big step in the process of decommissioning the power station, a effort that will take 30 to 40 years.
See the inner workings of a Canadian nuclear power plant, find out where fuel rods come from, and discover what they do with their nuclear waste. The power plant in this video is owned by Bruce Power. http://www.brucepower.com/
Nuclear Reactor - Understanding how it works | Physics Elearnin video Nuclear reactors are the modern day devices extensively used for power generation as the traditional fossil fuels, like coal, are at the breach of extinction. A nuclear reactor is the source of intense heat which is in turn used for generation of power in nuclear power station. Its mechanism is similar to that of a furnace in a steam generator; the steam is used to drive the turbines of the electric generator system. A nuclear reactor consists of three crucial components: Fuel elements, moderator and control rods. Fuel elements come usually in the shape of thin rods of about 1cm in diameter and contain fissionable nuclei, like Uranium (235 92U or 238 92U). These rods vary in number according to the size of the react...
NEI's Everett Redmond, Director of Nonproliferation and Fuel Cycle Policy, discusses spent fuel assembly
Nuclear engineers from Omaha Public Power District's Fort Calhoun Station are preparing for new energy. Next month, the plant will be taken off-line as they replace about 44 nuclear reactors. KMTV was given rare access to see how the process is done.
Nuclear technology is constantly in the news. So how exactly do you make nuclear fuel? Special thanks to Life Noggin for animating this video! Check them out: http://www.youtube.com/lifenoggin Read More: Fuel Cycle Facilities http://www.nrc.gov/materials/fuel-cycle-fac.html “The U.S. Nuclear Regulatory Commission (NRC) regulates uranium recovery facilities that mill uranium; fuel cycle facilities that convert, enrich, and fabricate it into fuel for use in nuclear reactors, and deconversion facilities that process the depleted uranium hexafluoride for disposal.” Uranium processing http://www.britannica.com/EBchecked/topic/619232/uranium-processing “Uranium (U), although very dense (19.1 grams per cubic centimetre), is a relatively weak, nonrefractory metal. Indeed, the metal...
The Engineers at the Nuclear Engineering Teaching Lab (NETL) at UT Austin demonstrate a reactor pulse. All the Control Rods are removed simultaneously allowing the nuclear reaction to proceed un-dampened, bringing the energy output of the reactor to 680 Megawatts in 50 milliseconds. Video produced by Juan Diaz at the Faculty Innovation Center
Jem Stansfield explores a never used reactor core at the Zwentendorf nuclear power plant in Austria, to explain how a nuclear power station works. Bang Goes The Theory, investigating the science behind the headlines and making sense of the everyday issues that matter to us all. Subscribe to the BBC Worldwide channel: http://bit.ly/yqBWhy BBC Worldwide Channel: http://www.youtube.com/BBCWorldwide
Time to make some Reactor Rods for IMMENSE POWER!! Buy the game on Steam here: http://store.steampowered.com/app/264710/ Subnautica is an open world, underwater exploration and adventure game currently under construction at Unknown Worlds, the independent developer behind Natural Selection 2. After crash landing on an alien ocean world, the only way to go is down. Subnautica's oceans range from sun drenched shallow coral reefs to treacherous deep-sea trenches. Manage your oxygen supply as you explore Kelp Forests, plateaus, reefs, and winding cave systems. The water teems with life: Some of it helpful, much of it harmful. Music by Tobu http://www.7obu.com http://www.youtube.com/tobuofficial http://www.facebook.com/tobuofficial http://www.soundcloud.com/7obu http://www.twitter.com...
In this spotlight video we cover how to get started using IndustrialCraft 2 Experimental nuclear power. From ore to uranium fuel rods, the entire start to finish process is covered. We also look at the difference between an EU reactor and a fluid reactor, and configurations of both. Source videos: Mementh fluid reactor: Sorry, now set as private. MysteryDump coolant processing set up: https://www.youtube.com/watch?v=xdToeqKW058 World Download now available at: http://www.dimensionsintime.info/worlds
NEW Subnautica Gameplay : NUCLEAR REACTOR! Peeps w/ Sl1pg8r! Epic Underwater Adventures and Funny Moments! There have been some major updates to Subnautica and it's time to start season 3! New crafting, base building, monsters, and MOAR! Check this out! Subnautica Season 2 Gameplay Playlist! https://goo.gl/qF8IAF Tell your friends and share Peeps! It really helps me out! Subscribe Today! - http://goo.gl/vf70b Twitch - http://www.twitch.tv/sl1pg8r Twitter - https://twitter.com/sl1pg8r Facebook - http://www.facebook.com/sl1pg8rLP Instagram - http://instagram.com/sl1pg8r OR! http://www.sl1pg8r.com Support me on Patreon ► http://www.patreon.com/sl1pg8r The Stuff and Things Store ► http://sl1pg8r.spreadshirt.com Intro/Outro Music by: Topmass Title: For My Haters - http://www.topmass.ne...
Subnautica Gameplay - Nuclear Reactor - Welcome back to Subnautica! In today's Subnautica, we add Nuclear Power to our base! Subnautica is an open world, underwater exploration and adventure game. Subnautica features many survival gameplay elements as well as endless exploration in this massive underwater planet. Let's Play Subnautica! Subnautica Update Tracker: http://subnautica.unknownworlds.com/#/subnautica/checkins Everything Subnautica ► https://www.youtube.com/watch?v=eMPbC... Subnautica Gameplay Part 1 (Season 1) ► https://www.youtube.com/watch?v=eMPbC... Subnautica Gameplay Part 1 (Season 2) ► https://www.youtube.com/watch?v=rqaLP... Subnautica Gameplay Part 1 (Season 3) ► https://www.youtube.com/watch?v=H1p-d... Subnautica Gameplay Part 1 (Season 4) ► https://www.youtube.com/wat...
Today I go over how to set up a nuclear reactor that uses MOX fuel rods instead of uranium fuel rods. The setup is especially dangerous due to the efficiency increasing as the internal temperature of the reactor rises. =================================== This series is based around the mod IndustrialCraft 2 (IC2), which is a great standalone mod that brings many different technological advances to the game, such as nuclear power and a countless number of intricate multiblock machines. The series is directly inspired by Chilm's "Surviving With ..." series that he has recently restarted. Chilm's channel: https://www.youtube.com/user/chilm76 =================================== Mod List: ImmibisCore 1.7.10 CodeChickenCore 1.7.10 1.0.7.47-universal Dimensional-anchor 59.0.3 industrialcr...
In one of our craziest explorations ever, we find our way into a long-shuttered nuclear power plant. http://theproperpeople.com Reddit discussion: https://www.reddit.com/r/theproperpeople/comments/54xi0f/abandoned_nuclear_power_plant_inside_the_reactor/ JOIN US ON: http://facebook.com/theproperpeople http://twitter.com/theproperpeople http://instagram.com/theproperpeople https://www.reddit.com/r/theproperpeople Enjoying our videos? Help us make more by buying a t-shirt: http://theproperpeople.spreadshirt.com Supporting us on Patreon: http://patreon.com/theproperpeople Or shopping through our Amazon affiliate link: https://www.amazon.com/?tag=thepropeo0d-20
The Fukushima Daiichi nuclear disaster (Fukushima Dai-ichi ( pronunciation) genshiryoku hatsudensho jiko?) was a series of equipment failures, nuclear meltdowns, and releases of radioactive materials at the Fukushima I Nuclear Power Plant, following the Tōhoku earthquake and tsunami on 11 March 2011.[5][6] It is the largest nuclear disaster since the Chernobyl disaster of 1986, and only the second disaster (along with Chernobyl) to measure Level 7 on the International Nuclear Event Scale.[7] The plant comprises six separate boiling water reactors originally designed by General Electric (GE), and maintained by the Tokyo Electric Power Company (TEPCO). At the time of the quake, Reactor 4 had been de-fueled while 5 and 6 were in cold shutdown for planned maintenance.[8] Immediately after the...
Nuclear reactor physics is the branch of science that deals with the study and application of chain reaction to induce a controlled rate of fission in a nuclear reactor for the production of energy. Most nuclear reactors use a chain reaction to induce a controlled rate of nuclear fission in fissile material, releasing both energy and free neutrons. A reactor consists of an assembly of nuclear fuel, usually surrounded by a neutron moderator such as regular water, heavy water, graphite, or zirconium hydride, and fitted with mechanisms such as control rods that control the rate of the reaction. The physics of nuclear fission has several quirks that affect the design and behavior of nuclear reactors. This article presents a general overview of the physics of nuclear reactors and their behavior...
In this video we make a Tritium Nuclear Battery. This is also known as a Radioisotope Photovoltaic Generator. This is not like the more common Radioisotope Thermoelectric Generators used on spacecraft as this does not use thermoelectric elements for the energy conversion portion. The key component is luminous tritium vials. You can find them on online shopping networks as "Tritium Vials" or "Tritium lights". These lights are simply attached to an amorphous solar cell to produce electricity. More efficient monocrystalline solar cells cannot be used as they are ironically less efficient at the low light levels the vials produces. The device in the video using 14 tritium vials of 22.5mm x 3mm in size produced 1.23 microwatts at the maximum powerpoint of 1.6 volts. Donate to NurdRage! Th...
Describes how nuclear power plants work including control rods, fuel rods, moderator, heat exhanger, and condenser. Explains the concepts of critical mass, sustained reaction, enrichment, and breeder reactor. Reviews several IB sample questions. 0:06 The Uranium reaction 1:32 Critical Mass and Chain Reaction 3:23 Build your own Nuclear Bomb 4:23 Enriching Uranium 6:18 Nuclear Power Plant 11:12 Fuel Rods and Control Rods 12:22 Moderator 14:23 Breeder Reactor 16:33 Safety, advantages, disadvantages 17:55 IB Multiple Choice Questions