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1. A sono terbinie power plant operatury, at a steady state consists of a compressor and...
2. A gas turbine power plant operating at a steady state consists of a compressor, a...
2. A gas turbine power plant operating at a steady state consists of a compressor, a heat exchanger, and a turbine. Air enters the compressor with a mass flow rate of 3.8 kg/s at 0.95 bar, 27 °C and exists the turbine at 0.95 bar, 452 °C. Heat transfer to the fluid at the heat exchanger occurs at an average of 537 °C. Other parameters are To = 300 K, po = 0.95 bar, and Wnet = 0.8 MW. The...
Thermodynamics 2: STARTING FROM QS 2) 1) In an ideal Brayton cycle air enters the compressor...
Thermodynamics 2: STARTING FROM QS 2) 1) In an ideal Brayton cycle air enters the compressor at T = 300K and P = 1 bar with a volumetric flow rate = 20 m3/s. Air enters the turbine at P = 10 bar and T = 1800K. Find: a) The thermal efficiency b) The backwork ratio c) The net power generation in MW 2) For the same states above consider a cycle where the isentropic efficiency of the compressor and turbine...
a,b,c Air enters the compressor of a gas turbine at 1 bar, 20°C with a volumetric...
a,b,c
Air enters the compressor of a gas turbine at 1 bar, 20°C with a volumetric flow ies of 90%. The plant incorporates a regeneraar of 75% effectiveness. determine: s. The pressure ratio across the compressor is 10. The turbine inlet is 1427°C and the turbine and compressor each have isentropic temperatu Using the air-standard Brayton cycle as the model for this system. a.) b) c.) the net work output, MW the back work ratio the cycle's thermal efficiency pthe...
WWVUU moressar Q-1 A power plant operates on a regenerative vapor power cycle with one closed...
WWVUU moressar Q-1 A power plant operates on a regenerative vapor power cycle with one closed feedwater heater. Steam (water vapor) enters the first turbine stage at 120 bar, 520°C and expands to 10 bar, where some of the steam is extracted and diverted to a closed feedwater heater. Condensate exiting the feedwater heater as saturated liquid at 10 bar (State 7) passes through a trap (valve) into the condenser. The feedwater exits the heater at 120 bar with a...
Help on a and b please 13. Air enters a compressor operating at steady state at...
Help on a and b please
13. Air enters a compressor operating at steady state at 15 lbf/in. 60°F, with a volumetric flow rate of 5000 ft/min. The compression occurs in two stages, with each stage being a polytropic process with n1.3. The air is cooled to 100°F between the stages by an intercooler operating at 40 lbf/in. Air exits the compressor at 120 lbf/in.2 Determine, in Btu/min: (a) (b) The power and heat transfer rate for each compressor stage...
3. Water at 20 bar, 400°C enters a turbine operating at steady state and exits at...
Water at 20 bar, 400°C enters a turbine operating at steady state and exits at 1.5 bar. Stray heat transfer and kinetic and potential energy effects are negligible. A hard-to-read datasheet indicates that the quality at the turbine exit is 98%. Can this quality value be correct? If no, explain. If yes, determine the power developed by the turbine, in kJ per kg of water flowing
The gas turbine cycle of a gas-steam combined cycle power plant has a pressure ratio of...
The gas turbine cycle of a gas-steam combined cycle power plant has a pressure ratio of 12. The air enters the compressor at 310 K and 100 kPa (1) and the turbine at 1400 K (3). The combustion gases leaving the gas turbine (4) are used to heat the steam to 12.5 MPa up to 500 °C (6) in a heat exchanger. The flue gas exits the heat exchanger (5) at 247 °C. The steam is expanded in a high...
Problem 12.043 SI Air enters a compressor operating at steady state at 50°C, 0.9 bar, 70%...
Problem 12.043 SI Air enters a compressor operating at steady state at 50°C, 0.9 bar, 70% relative humidity with a volumetric flow rate of 0.8 m3/s. The molst alr exits the compressor at 155°C, 1.5 bar Assuming the compressor is well insulated, determine: (a) the relative humidity at the exit, in percent (b) the magnitude of the power input, in kVW (c) the rate of entropy production, in kW/K
Problem 2 20) Air enters a compressor operating at steady state at 280 K and exits...
Problem 2 20) Air enters a compressor operating at steady state at 280 K and exits at a higher pressure and a higher temperature of 1020 K. Specitic heat at constant pressure for air is a constant and equal to 1.003 kJkg K. The mass flow rate is 01 kg's. If the compressor consumes electric power 77 kW Neglect kinetic and potential energy effects and assume air is ideal gas. Find (1) The rate of heat transfer between the compressor...
Air enters an insulated turbine operating at steady state at 8.0bar, 687 °C and exits at...
Air enters an insulated turbine operating at steady state at 8.0bar, 687 °C and exits at 1 bar, 327 °C. Neglecting kinetic and potential energy changes and assuming the ideal gas model, determine (a) the work developed, in kJ per kg of air flowing through the turbine. kJ/kg (b) whether the expansion is internally reversible, irreversible, or impossible. The expansion is impossible irreversible reversible the tolerance is +/-2%
2. A gas turbine power plant operating at a steady state consists of a compressor, a heat exchanger, and a turbine. Air enters the compressor with a mass flow rate of 3.8 kg/s at 0.95 bar, 27 °C and exists the turbine at 0.95 bar, 452 °C. Heat transfer to the fluid at the heat exchanger occurs at an average of 537 °C. Other parameters are To = 300 K, po = 0.95 bar, and Wnet = 0.8 MW. The...
a,b,c
Air enters the compressor of a gas turbine at 1 bar, 20°C with a volumetric flow ies of 90%. The plant incorporates a regeneraar of 75% effectiveness. determine: s. The pressure ratio across the compressor is 10. The turbine inlet is 1427°C and the turbine and compressor each have isentropic temperatu Using the air-standard Brayton cycle as the model for this system. a.) b) c.) the net work output, MW the back work ratio the cycle's thermal efficiency pthe...
WWVUU moressar Q-1 A power plant operates on a regenerative vapor power cycle with one closed feedwater heater. Steam (water vapor) enters the first turbine stage at 120 bar, 520°C and expands to 10 bar, where some of the steam is extracted and diverted to a closed feedwater heater. Condensate exiting the feedwater heater as saturated liquid at 10 bar (State 7) passes through a trap (valve) into the condenser. The feedwater exits the heater at 120 bar with a...
Help on a and b please
13. Air enters a compressor operating at steady state at 15 lbf/in. 60°F, with a volumetric flow rate of 5000 ft/min. The compression occurs in two stages, with each stage being a polytropic process with n1.3. The air is cooled to 100°F between the stages by an intercooler operating at 40 lbf/in. Air exits the compressor at 120 lbf/in.2 Determine, in Btu/min: (a) (b) The power and heat transfer rate for each compressor stage...
Problem 12.043 SI Air enters a compressor operating at steady state at 50°C, 0.9 bar, 70% relative humidity with a volumetric flow rate of 0.8 m3/s. The molst alr exits the compressor at 155°C, 1.5 bar Assuming the compressor is well insulated, determine: (a) the relative humidity at the exit, in percent (b) the magnitude of the power input, in kVW (c) the rate of entropy production, in kW/K
Problem 2 20) Air enters a compressor operating at steady state at 280 K and exits at a higher pressure and a higher temperature of 1020 K. Specitic heat at constant pressure for air is a constant and equal to 1.003 kJkg K. The mass flow rate is 01 kg's. If the compressor consumes electric power 77 kW Neglect kinetic and potential energy effects and assume air is ideal gas. Find (1) The rate of heat transfer between the compressor...
Air enters an insulated turbine operating at steady state at 8.0bar, 687 °C and exits at 1 bar, 327 °C. Neglecting kinetic and potential energy changes and assuming the ideal gas model, determine (a) the work developed, in kJ per kg of air flowing through the turbine. kJ/kg (b) whether the expansion is internally reversible, irreversible, or impossible. The expansion is impossible irreversible reversible the tolerance is +/-2%
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