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It is a tank-type 6 megawatt reactor [2] that is moderated and cooled by light water and uses heavy water as a reflector. It is the second largest university-based research reactor in the U.S. (after the University of Missouri Research Reactor Center) and has been in operation since 1958. [7] It is the fourth-oldest operating reactor in the ...
It is a helium gas cooled reactor. The reactor is contained in one vessel, with all of the coolant and heat transfer equipment enclosed in a second vessel, attached to the reactor by a single coaxial line for coolant flow. The plant is a four-story, entirely above-ground building with a 10–25 MWelectrical output. The helium coolant doesn't ...
This nuclear reactor was designed by General Electric for use on the Los Angeles-class attack submarines. The S6G reactor plant consists of the reactor coolant, steam generation, and other support systems that supply steam to the engine room. The S6G is a 165 megawatt (MW) reactor driving two 26 MW steam turbines. [1]
Reactor type: BWR: Reactor supplier: General Electric: Cooling towers: 6 × Mechanical Draft [a] Cooling source: Columbia River: Thermal capacity: 1 × 3544 MW th: Power generation; Units operational: 1 × 1216 MW: Make and model: BWR-5 (Mark 2) Nameplate capacity: 1216 MW: Capacity factor: 83.14% (2017) 75.10% (lifetime) Annual net output ...
The project was announced in 2014. [2] [7] The name and design were inspired by the fictional arc reactor built by Tony Stark, who attended MIT in the comic books.The concept was born as "a project undertaken by a group of MIT students in a fusion design course.
To understand how is used, consider a reactor operating at 20 MW and Q = 2. Q = 2 at 20 MW implies that P heat is 10 MW. Of that original 20 MW about 20% is alphas, so assuming complete capture, 4 MW of P heat is self-supplied. We need a total of 10 MW of heating and get 4 of that through alphas, so we need another 6 MW of power.
The BWRX-300 is a smaller evolution of an earlier GE Hitachi reactor design, note the Economic Simplified Boiling Water Reactor (ESBWR) design and utilizing components of the operational Advanced boiling water reactor (ABWR) reactor. [1] Boiling water reactors are nuclear technology that use ordinary light water as a nuclear reactor coolant ...
Those blueprints contained designs for a power plant with a 100-megawatt pressurized water reactor. [3] The OPEN100 plans aim to standardize nuclear power plant construction to increase speed and cost-effectiveness, allowing plants to be built in under two years for a cost of $300 million. [ 4 ]