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- 12 bytes (1 word) - 17:45, 5 May 2010
- A '''Pressurized Water Reactor''' is a type [[Nuclear power reconsidered|nuclear power]] reactor in which536 bytes (84 words) - 14:04, 24 January 2023
- 289 bytes (46 words) - 10:29, 29 January 2023
- | pagename = Pressurized Water Reactor | abc = Pressurized Water Reactor1 KB (131 words) - 12:10, 8 May 2023
- 314 bytes (41 words) - 13:59, 24 January 2023
Page text matches
- {{r|Pressurized Water Reactor||**}}619 bytes (80 words) - 07:50, 28 September 2021
- The '''CANDU''' power reactor is a [[Pressurized Water Reactor]] using [[heavy water]], (i.e., pressurized heavy water reactor (PHWR)), in578 bytes (83 words) - 16:55, 22 March 2024
- The BWR, with one loop, is smaller than a [[Pressurized Water Reactor]], but is more difficult to service because the turbine is radioactive.458 bytes (75 words) - 17:06, 10 May 2010
- A smaller version of a standard [[Pressurized Water Reactor]] (PWR) with additional safety features.<ref>https://www.science.org/news/2235 bytes (22 words) - 10:46, 2 January 2023
- A '''Pressurized Water Reactor''' is a type [[Nuclear power reconsidered|nuclear power]] reactor in which536 bytes (84 words) - 14:04, 24 January 2023
- | pagename = Pressurized Water Reactor | abc = Pressurized Water Reactor1 KB (131 words) - 12:10, 8 May 2023
- The '''NuScale small modular reactor''' is a smaller version of a standard [[Pressurized Water Reactor]] (PWR). This article will address the issues raised in the parent article3 KB (382 words) - 11:52, 19 April 2023
- {{rpl|Pressurized Water Reactor}}2 KB (223 words) - 20:33, 23 April 2024
File:Devanney Fig 2.3 Spent Fuel.png |description = Spent fuel in a standard Pressurized Water Reactor(1,324 × 680 (349 KB)) - 01:43, 16 October 2023- {{r|Pressurized Water Reactor}}310 bytes (40 words) - 14:13, 24 January 2023
- ...mmon moderator and [[reactor coolant]] in [[Boiling Water Reactor]]s and [[Pressurized Water Reactor]]s used for [[electricity generation]] and [[naval nuclear propulsion]].4 KB (575 words) - 09:51, 8 December 2022
- ...e of [[nuclear reactor]] used. Currently, the two most common types are [[pressurized water reactor]]s (PWR) and [[boiling water reactor]]s (BWR).4 KB (551 words) - 14:10, 2 February 2023
- ...activity''' The molten salt fuel is at much lower pressure than a standard Pressurized Water Reactor, and there is no water near the molten salt.6 KB (935 words) - 19:43, 6 April 2022
- down the Bushehr pressurized water reactor after only 60 days operation, and pulled the fuel7 KB (981 words) - 10:50, 15 February 2024
- This is a smaller version of a standard Pressurized Water Reactor (PWR).14 KB (2,250 words) - 17:04, 11 October 2021
- ..._ kg of highly-radioactive fission products. Waste from a typical 1000 MWe Pressurized Water Reactor will fill ___ of these canisters in a full year of operation. One 300-foot9 KB (1,317 words) - 15:12, 25 October 2023
- ...primary (reactor plant) system to a secondary (steam plant) system in a [[pressurized water reactor]] (PWR) plant, which generates steam for the steam plant, of course.17 KB (2,440 words) - 15:23, 8 April 2023
- ...ale small modular reactor|NuScale SMR]], a smaller version of a standard [[Pressurized Water Reactor]] (PWR) with additional safety features.<ref name=NuScale/> NuScale has unf23 KB (3,486 words) - 09:11, 19 April 2024
- ...he world are water cooled and moderated with water. Examples include the [[Pressurized water reactor|PWR]], the [[Boiling Water Reactor|BWR]] and the [[CANDU]] reactors. In Rus ...e steam turbine are also limited. Typical water temperatures of a modern [[Pressurized water reactor]] are around 350 Celsius, with pressures of around 85 bar. Compared to for35 KB (5,379 words) - 12:53, 15 March 2024
- ...he world are water cooled and moderated with water. Examples include the [[Pressurized water reactor|PWR]], the [[Boiling Water Reactor|BWR]] and the [[CANDU]] reactors. In Rus ...e steam turbine are also limited. Typical water temperatures of a modern [[Pressurized water reactor]] are around {{convert|350|Celsius|sigfig=2}}, with pressures of around 8535 KB (5,414 words) - 18:19, 17 January 2023
- ...ional plants use either a '''''Boiling Water Reactor (BWR)''''' or a '''''Pressurized Water Reactor (PWR)'''''.<ref name=WNO>[http://www.world-nuclear.org/info/default.aspx?id31 KB (4,959 words) - 15:21, 8 April 2023
- ...ional plants use either a '''''Boiling Water Reactor (BWR)''''' or a '''''Pressurized Water Reactor (PWR)'''''.<ref name=WNO>[http://www.world-nuclear.org/info/default.aspx?id31 KB (4,959 words) - 15:20, 8 April 2023
- ...National Laboratory]], and was essentially a scale-model of a commercial [[pressurized water reactor|PWR]]. ('Power/volume scaling' was used between the LOFT model, with a 50MW26 KB (4,299 words) - 04:37, 22 March 2014
- ...el_element.jpg|right|350px|'''PWR fuel bundle''' The fuel bundle is from a pressurized water reactor of the nuclear passenger and cargo ship NS Savannah. Designed and built by [[Pressurized water reactor]] (PWR) fuel consists of cylindrical rods put into bundles. A uranium oxid28 KB (4,523 words) - 17:02, 22 March 2024
- ...re.<ref name="msrs-wna"/> Molten salt reactors have two advantages over [[Pressurized Water Reactor|Pressurized Water Reactors]]: 1) they operate at a much ''higher temperatur38 KB (5,549 words) - 12:55, 15 March 2024
- ...the most common types of reactors, [[Boiling Water Reactor]]s (BWR) and [[Pressurized Water Reactor]]s (PWR), the tubes are assembled into bundles <ref>{{citation ...tain the fuel and coolant, as opposed to one large pressure vessel as in [[pressurized water reactor]] (PWR) or [[boiling water reactor]] (BWR) designs. Each tube can be indivi39 KB (6,303 words) - 17:02, 22 March 2024
- These critiques apply to the old [[Pressurized Water Reactor]] designs. Newer designs avoid the high pressures that require massive cont10 KB (1,443 words) - 12:35, 24 June 2023
