A Carnot heat engine operates with a high pressure of 750°C. The engine rejects 200 MJ...
A Carnot heat engine operates with a high pressure of 750°C. The engine rejects 200 MJ of heat every 30 minutes in a condenser operating at 150 kPa. How much power is produced by the heat engine and what heat input is required? Express your answers in kW.
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A Carnot heat engine operates with a high pressure of 750°C. The
engine rejects 200 MJ...
A Carnot heat engine has a source at 1000 °C and sink at 200 °C. If...
A Carnot heat engine has a source at 1000 °C and sink at 200 °C. If the source supplies 7200 kJ/min of heat, how much heat is rejected to the sink? O A 56.76 kW O B.24 kW O C. 18.85 kW OD. 44.58 kW
A heat engine operates in a Carnot cycle between 80°C and 350°C. It receives 21,000 J...
A heat engine operates in a Carnot cycle between 80°C and 350°C. It receives 21,000 J of energy per cycle from the hot reservoir. The duration of each cycle is 1.00 s. What is the mechanical power of this engine? Select one: a. 21 kw b. 910 kW c. 9.10 kW d. 120 kW
21 A Carnot heat engine receives heat from a reservoir at 700°C at a rate of...
21 A Carnot heat engine receives heat from a reservoir at 700°C at a rate of 6 MW and rejects the waste heat to the ambient at 300 K, as shown in the figure. The entire net power output of the heat engine is used to drive a Carnot refrigerator that removes heat from the cold medium at -10°C and transfers it to the same ambient at 300 K. Determine:35235333333 a) The thermal efficiency of the heat engine. b) The...
A heat engine operates in a Carnot cycle between 86.0°C and 345°C. It absorbs 20,000 J...
A heat engine operates in a Carnot cycle between 86.0°C and 345°C. It absorbs 20,000 J of energy per cycle from the hot reservoir. The duration of each cycle is 5.00 s. (a) What is the mechanical power output of this engine? (b) How much energy does it expel in each cycle by heat?
A heat engine operates between two reservoirs at 1000°C and 20°C. The heat engine is used...
A heat engine operates between two reservoirs at 1000°C and 20°C. The heat engine is used to drive a Carnot heat pump that removes heat from the cold surroundings at 5°C and transfers it to a house maintained at 25°C. If the house is losing heat at a rate of 20 kW. Determine: i) the thermal efficiency of the heat engine ii) the minimum rate of heat supply to the heat engine required to keep the house at 25°C
An aircraft engine operates on a simple ideal Brayton cycle with a pressure ratio of 14.2....
An aircraft engine operates on a simple ideal Brayton cycle with a pressure ratio of 14.2. Heat is added to the cycle at a rate of450 kW; air passes through the engine at a rate of 1.20 kg/s; and the air at the beginning of the compression is at70 kPa and 0°C. Determine the power produced by this engine and its thermal efficiency. Use constant specific heats at room temperature. Wnet kW Round your final answer to one decimal place....
? Question 3: A heat engine is assumed to operate on a Carnot cycle. It receives...
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Question 3: A heat engine is assumed to operate on a Carnot cycle. It receives 600kJ heat from a high temperature reservoir at 600°C and rejects heat to a low temperature reservoir at 20°C. ooooo Calculate the thermal efficiency of the cycle. What is QL? What is the net work produced by this cycle? Does this process violate Kelvin-Plank statement? Explain. An inventor claimed that he built a heat engine operating between the same reservoirs that give a thermal...
An aircraft engine operates on a simple ideal Brayton cycle with a pressure ratio of 12....
An aircraft engine operates on a simple ideal Brayton cycle with a pressure ratio of 12. The temperature of the air at the beginning of the compression process is 0°C. Heat is added to the cycle at a rate of 500 KW and air passes through the engine at a rate of 1 kg/s. Determine the net power produced by this engine, in kW. (Apply cold-air-standard assumptions: constant specific heat)
3. An ideal Carnot engine has an input of 150 J of heat per cycle at...
3. An ideal Carnot engine has an input of 150 J of heat per cycle at its high-temperature reservoir, which is maintained at 135 °C. The engine has a thermal efficiency of 22.0%. a. How much work does this engine do per cycle? b. How much heat does this engine output to its low-temperature reservoir per cycle? c. What is the temperature of the low-temperature reservoir? d. How many cycles would this engine have to go through to lift a...
An ideal reheat Rankine cycle with water as the working fluid operates the boiler at 20,000...
An ideal reheat Rankine cycle with water as the working fluid operates the boiler at 20,000 kPa, the reheater at 2000 kPa, and the condenser at 100 kPa. The temperature is 450 C at the entrance of the high-pressure and low-pressure turbines. The mass flow rate through the cycle is 1.74 kg/s. Determine the power used by pumps, the power produced by the cycle, the rate of heat transfer in the reheater, and the thermal efficiency of this system. Use...
A Carnot heat engine has a source at 1000 °C and sink at 200 °C. If the source supplies 7200 kJ/min of heat, how much heat is rejected to the sink? O A 56.76 kW O B.24 kW O C. 18.85 kW OD. 44.58 kW
A heat engine operates in a Carnot cycle between 80°C and 350°C. It receives 21,000 J of energy per cycle from the hot reservoir. The duration of each cycle is 1.00 s. What is the mechanical power of this engine? Select one: a. 21 kw b. 910 kW c. 9.10 kW d. 120 kW
21 A Carnot heat engine receives heat from a reservoir at 700°C at a rate of 6 MW and rejects the waste heat to the ambient at 300 K, as shown in the figure. The entire net power output of the heat engine is used to drive a Carnot refrigerator that removes heat from the cold medium at -10°C and transfers it to the same ambient at 300 K. Determine:35235333333 a) The thermal efficiency of the heat engine. b) The...
A heat engine operates between two reservoirs at 1000°C and 20°C. The heat engine is used to drive a Carnot heat pump that removes heat from the cold surroundings at 5°C and transfers it to a house maintained at 25°C. If the house is losing heat at a rate of 20 kW. Determine: i) the thermal efficiency of the heat engine ii) the minimum rate of heat supply to the heat engine required to keep the house at 25°C
An aircraft engine operates on a simple ideal Brayton cycle with a pressure ratio of 14.2. Heat is added to the cycle at a rate of450 kW; air passes through the engine at a rate of 1.20 kg/s; and the air at the beginning of the compression is at70 kPa and 0°C. Determine the power produced by this engine and its thermal efficiency. Use constant specific heats at room temperature. Wnet kW Round your final answer to one decimal place....
An aircraft engine operates on a simple ideal Brayton cycle with a pressure ratio of 12. The temperature of the air at the beginning of the compression process is 0°C. Heat is added to the cycle at a rate of 500 KW and air passes through the engine at a rate of 1 kg/s. Determine the net power produced by this engine, in kW. (Apply cold-air-standard assumptions: constant specific heat)
3. An ideal Carnot engine has an input of 150 J of heat per cycle at its high-temperature reservoir, which is maintained at 135 °C. The engine has a thermal efficiency of 22.0%. a. How much work does this engine do per cycle? b. How much heat does this engine output to its low-temperature reservoir per cycle? c. What is the temperature of the low-temperature reservoir? d. How many cycles would this engine have to go through to lift a...
An ideal reheat Rankine cycle with water as the working fluid operates the boiler at 20,000 kPa, the reheater at 2000 kPa, and the condenser at 100 kPa. The temperature is 450 C at the entrance of the high-pressure and low-pressure turbines. The mass flow rate through the cycle is 1.74 kg/s. Determine the power used by pumps, the power produced by the cycle, the rate of heat transfer in the reheater, and the thermal efficiency of this system. Use...
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