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The MIT Nuclear Research Reactor (MITR) serves the research purposes of the Massachusetts Institute of Technology. It is a tank-type 6 megawatt reactor [ 2 ] that is moderated and cooled by light water and uses heavy water as a reflector.
The cost of raw uranium contributes about $0.0015/kWh to the cost of nuclear electricity, while in breeder reactors the uranium cost falls to $0.000015/kWh. [54] Nuclear plants require fissile fuel. Generally, the fuel used is uranium, although other materials may be used (See MOX fuel). In 2005, prices on the world market for uranium averaged ...
For example, if a 3000 MW thermal (equivalent to 1000 MW electric at 33.333% efficiency, which is typical of US LWRs) plant uses 24 tonnes of enriched uranium (tU) and operates at full power for 1 year, the average burnup of the fuel is (3000 MW·365 d)/24 metric tonnes = 45.63 GWd/t, or 45,625 MWd/tHM (where HM stands for heavy metal, meaning ...
Each unit is made of two HTR-PM reactors driving a single 210 MW e steam turbine. The plant also hosts the construction of two 1500 MW e CAP1400 pressurized water reactors ( 36°57′56″N 122°31′12″E / 36.96556°N 122.52000°E / 36.96556; 122.52000 ), a design based on the AP1000 [ 4 ] jointly developed by Westinghouse and ...
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 ]
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.
Construction cost: $375 million in 1974 dollars [1] ($1.8 billion in 2023 dollars [2]) Operator: SMUD 1974-present: Nuclear power station ; Reactor type: Pressurized water reactor [3] Reactor supplier: Babcock & Wilcox [3] Thermal capacity: 1 x 2772 MW th [3] Power generation; Nameplate capacity: 918 [3] Capacity factor <40% [1] External links ...
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 ...