A nuclear power plant operates at 40.0% efficiency with a continuous production of 1092 MW of usable power in 1.00 yearyear and consumes 1.12×106 g of uranium-235 in this time period. What is the energy in joules released by the fission of a single uranium-235 atom?
Express your answer numerically in joules per atom.
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A nuclear power plant operates at 40.0% efficiency with a continuous production of 1092 MW of...
Nuclear power plants convert the energy released in fission reactions to electric energy. Consider one such power plant that generates 1.00 GW of electric power. The fission of each uranium-235 nucleus releases 200 MeV of energy. The power released by the fission reactions is converted to electric power with a 41.0% efficiency. How much uranium-235 per day, by mass in kg, undergoes fission at this power plant?
A nuclear power plant converts energy from nuclear fission into electricity with an efficiency of 36.0%. How much mass (in kg) is destroyed in one year to produce a continuous 1420 MW of electric power? _________kg
Consider a nuclear power plant that produces 1200 MW of power and has a conversion efficiency of 34 percent (that is, for each unit of fuel energy used, the plant produces 0.34 units of electrical energy. Assuming continuous operation, determine the amount of nuclear fuel consumed by the plant per year. Hint: You will have to find out how much energy nuclear fuel produces. Cite your source of information
Please show all the algebra steps required to complete the following problem: A nuclear power plant has an electrical power output of 1125 MW and operates with an efficiency of 42%. If excess energy is carried away from the plant by a river with a flow rate of 2.1 × 106 kg/s, what is the rise in temperature of the flowing water?
The average energy released by the fission of a single atom of uranium-235 is approximately 205 MeV How much total energy would be released by the complete fission of 3.55 kg of 3sU? Express your answer in units of joules. 2.98 x1015 A typical small town might use about 25.5 MW of power, on average. How long, in days, would it take this town to use the amount of energy produced by the complete fission of 3.55 kg of 2U?...
A nuclear power plant has an electrical power output of 1000 MW and operates with an efficiency of 33%. If the excess energy is carried away from the plant by a river with a flow rate of 1.4e6 kg/s, what is the rise in temperature of the flowing water? Hint: Consider the flow of energy during one second. During that second, the power plant does 1000 MJ of work ?. Knowing the work and the efficiency, you can calculate the...
A nuclear power plant with a net power output of 2 GW operates at 43% efficiency. The cooling water used in the nuclear power plant enters the condenser at 25°C and exit temperature of 50°C. Calculate the volumetric flow rate of the cooling water.
If the required power output of a nuclear plant that has an overall efficiency of 37.3% is 1.05 Gw, determine the amount of nuclear fuel (in kg) consumed each day if the fuel is 222U and each fission reaction produces 200 MeV nuclear fuel (in kg) consumed each day if the fuel is 9 and each fission reaction produces 200 MeV. 1.89823e-8 X Knowing the daily power requirement and efficiency of the plant, how can you determine the needed power...
A nuclear power plant operates with a total of 150 tons of Uranium each year, which has a Uzas concentration of %. 1 mol Uzas splitting into strontium (St) and xenon (Xe) in this power plant. The generator achieves 95 % of its ideal efficiency and the ideal efficiency of the power plant is 45 % which includes various losses. Determine; a. The Uss consumption rate per month (15 points) b. Calculate the average electrical output of the plant (10...
A nuclear power plant operates at 67 % of its maximum theoretical (Carnot) efficiency between temperatures of 690 ∘C and 360 ∘C. If the plant produces electric energy at the rate of 1.3 GW , how much exhaust heat is discharged per hour? Express your answer using two significant figures.