A nuclear power plant operates at 63 % of its maximum theoretical (Carnot) efficiency between temperatures...

A nuclear power plant operates at 68 % of its maximum theoretical (Carnot) efficiency between temperatures...

A nuclear power plant operates at 68 % of its maximum theoretical (Carnot) efficiency between temperatures of 665 ∘C and 330 ∘C. A. If the plant produces electric energy at the rate of 1.4 GW , how much exhaust heat is discharged per hour?

A nuclear power plant operates at 80 percent of its maximum theoretical (Carnot) efficiency between temperatures...

A nuclear power plant operates at 80 percent of its maximum theoretical (Carnot) efficiency between temperatures of 580oC and 270°C. If the plant produces electric energy at the rate of 1.45 Giga-Watts, how much exhaust heat is discharged per hour?

A nuclear power plant operates at 80 percent of its maximum theoretical (Carnot) efficiency between temperatures...

A nuclear power plant operates at 80 percent of its maximum theoretical (Carnot) efficiency between temperatures of 600oC and 330°C. If the plant produces electric energy at the rate of 1.55 Giga-Watts, how much exhaust heat is discharged per hour?

3. A nuclear power plant operates at 80 percent of its maximum theoretical (Carnot) efficiency between...

3. A nuclear power plant operates at 80 percent of its maximum theoretical (Carnot) efficiency between temperatures of 580oC and 310°C. If the plant produces electric energy at the rate of 1.60 Giga-Watts, how much exhaust heat is discharged per hour?

1.A heat engine exhausts 9000 J of heat while performing 2300 J of useful work. What...

1.A heat engine exhausts 9000 J of heat while performing 2300 J of useful work. What is the efficiency of this engine? Express your answer using two significant figures. 2.A nuclear power plant operates at 68 % of its maximum theoretical (Carnot) efficiency between temperatures of 690 ∘C and 390 ∘C. If the plant produces electric energy at the rate of 1.2 GW , how much exhaust heat is discharged per hour? Express your answer using two significant figures.

A Carnot engine has a power output of 160 kW. The engine operates between two reservoirs...

A Carnot engine has a power output of 160 kW. The engine operates between two reservoirs at 20°C and 470°C. (a) How much energy enters the engine by heat per hour? (b) How much energy is exhausted by heat per hour?

A nuclear power plant generates 3000 MW of heat energy from nuclear reactions in the reactor's...

A nuclear power plant generates 3000 MW of heat energy from nuclear reactions in the reactor's core. This energy is used to boil water and produce high-pressure steam at 300?C . The steam spins a turbine, which produces 900MW of electric power, then the steam is condensed and the water is cooled to 25?C before starting the cycle again. A) What is the maximum possible thermal efficiency of the power plant? Express your answer using two significant figures. B) Cooling...

A nuclear power plant has a core temperature of 5000 K, and a cooling tower temperature...

A nuclear power plant has a core temperature of 5000 K, and a cooling tower temperature of 373 K, and is able to produce 1.21 gigawatts of power. Assume that the plant operates at its maximum efficiency [Carnot efficiency]. giga = 109 1 watt = 1 J/s the Latent Heat of Vaporization (LV) of water is 2.26×106 J/kg How much water is evaporated per second at the cooling towers? mass of water evaporated per unit time =

. A nuclear power plant has an electrical power output of 1200 MW and operates with...

. A nuclear power plant has an electrical power output of 1200 MW and operates with an efficiency of 34%. If the excess energy is carried away from the plant by a river with a flow rate of 1.2 ×106 kg/s, what is the rise in the temperature of the flowing water? (1 MW = 1.0 ×106 W) a) 0.24 ˚C b) 0.46 ˚C c) 0.70 ˚C d) 24 ˚C

Consider a 1.4 MW power plant (this is the useful output in the form of electric...

Consider a 1.4 MW power plant (this is the useful output in the form of electric energy) that operates between 30∘C and 450∘C at 65% of the Carnot efficiency. This is enough electric energy for about 750 homes. One way to use energy more efficiently would be to use the 30∘C "waste" energy to heat the homes rather than releasing that heat energy into the environment. This is called cogeneration, and it is used in some parts of Europe but...