(b) the heat supplied at p C per kg of air of (c) the work done per kg of air (d) the cycle efficiency 1252 K (e) the temperature at the end of the C heating process, (f) the cut-off ratio, and .21 MP- g) the m.e.p. of the cycle 5. A gas turbine plant draws in air at 1.013 bar, 10 °C and has a pressure ratio of 5.5. The maximum temperature in the cycle is limited to 750 °C, compression is conducted in an uncooled rotary compressor having an isentropic efficiency of 82 % and expansion takes place in turbine with an isentropic efficiency of 85 %. A heat exchanger with an effectiveness of 70 % is fitted between the compressor outlet and combustion chamber. For an air flow of 40 kg/s, find (a) overall cycle efficiency .4 (b) turbine output and (c) air fuel ratio if the caloric value of the fuel used is 45.22 MJ /kg. 6. In regenerative gas turbine power plant, air enters the compressor at 1 bar, 27°C and is compressed to 4 bar. The isentropic efficiency of the compressor is 80 "C and the regenerator effectiveness is 90 °C. All of the power developed by high pressure turbine is used to drive the compressor and the lower pressure turbine provides the net power output of 97 kW. Each turbine has an isentropic efficiency of 87 °C and the temperature at inlet to the high pressure turbine is 1200 K. Determine 0.562 kg/s 0.42] $23.2 K (a) mass flow rate of air into the compressor (b) thermal efficiency, and (c) the temperature of the air at exit of the regenerator 7. A gas refrigeration system as shown in Fig. ??, using air as the working fluid has a pressure ratio of 5. Air enters the compressor at 0 °C. The high pressure air is cooled to 35 °C by rejecting heat to the surroundings. The refrigerant leaves the turbine at -80 °C and then it absorbs heat from the refrigerated space before entering the regenerator. The mass flow rate of air is 0.4 kg/s Assuming isentropic efficiencies of 80% for the compressor and 85 % for the turbine and using constant specific heats at room temperature, determine (a) the effectiveness of the regenerator (b) the rate of heat removal from the refrigerated space, (c) the COP of the cycle, and (d) the refrigeration load and the COP if this system operated on the simple gas refrigeration cycle. Use the same compressor inlet temp, as given, the same turbine inlet temperature as calculated and the same compressor and turbine efficiencies 27.7 kW, 0.599 8. Consider a two stage compressor refrigeration system operating between the pressure limit of 0.8 and 0.14 MPa. The working fluid is R - 134a. The refrigerant leaves the condenser as a saturated liquid and is throttled to a flash chamber operating at 0.4 MPa. Part of the refrigerant evaporates during this flashing process, and this vapour is mixed with the refrigerant leaving the low pressure 2 of

Elements Of Electromagnetics
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ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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(b) the heat supplied at p C per kg of air
of
(c) the work done per kg of air
(d) the cycle efficiency
1252 K
(e) the temperature at the end of the
C heating process,
(f) the cut-off ratio, and
.21 MP-
g) the m.e.p. of the cycle
5. A gas turbine plant draws in air at 1.013 bar, 10 °C and has a pressure ratio of 5.5. The maximum
temperature in the cycle is limited to 750 °C, compression is conducted in an uncooled rotary
compressor having an isentropic efficiency of 82 % and expansion takes place in turbine with an
isentropic efficiency of 85 %. A heat exchanger with an effectiveness of 70 % is fitted between the
compressor outlet and combustion chamber. For an air flow of 40 kg/s, find
(a) overall cycle efficiency
.4
(b) turbine output and
(c) air fuel ratio if the caloric value of the fuel used is 45.22 MJ /kg.
6. In regenerative gas turbine power plant, air enters the compressor at 1 bar, 27°C and is compressed
to 4 bar. The isentropic efficiency of the compressor is 80 "C and the regenerator effectiveness is
90 °C. All of the power developed by high pressure turbine is used to drive the compressor and
the lower pressure turbine provides the net power output of 97 kW. Each turbine has an isentropic
efficiency of 87 °C and the temperature at inlet to the high pressure turbine is 1200 K. Determine
0.562 kg/s
0.42]
$23.2 K
(a) mass flow rate of air into the compressor
(b) thermal efficiency, and
(c) the temperature of the air at exit of the regenerator
7. A gas refrigeration system as shown in Fig. ??, using air as the working fluid has a pressure ratio
of 5. Air enters the compressor at 0 °C. The high pressure air is cooled to 35 °C by rejecting
heat to the surroundings. The refrigerant leaves the turbine at -80 °C and then it absorbs heat
from the refrigerated space before entering the regenerator. The mass flow rate of air is 0.4 kg/s
Assuming isentropic efficiencies of 80% for the compressor and 85 % for the turbine and using
constant specific heats at room temperature, determine
(a) the effectiveness of the regenerator
(b) the rate of heat removal from the refrigerated space,
(c) the COP of the cycle, and
(d) the refrigeration load and the COP if this system operated on the simple gas refrigeration cycle.
Use the same compressor inlet temp, as given, the same turbine inlet temperature as calculated
and the same compressor and turbine efficiencies
27.7 kW, 0.599
8. Consider a two stage compressor refrigeration system operating between the pressure limit of 0.8
and 0.14 MPa. The working fluid is R - 134a. The refrigerant leaves the condenser as a saturated
liquid and is throttled to a flash chamber operating at 0.4 MPa. Part of the refrigerant evaporates
during this flashing process, and this vapour is mixed with the refrigerant leaving the low pressure
2 of
Transcribed Image Text:(b) the heat supplied at p C per kg of air of (c) the work done per kg of air (d) the cycle efficiency 1252 K (e) the temperature at the end of the C heating process, (f) the cut-off ratio, and .21 MP- g) the m.e.p. of the cycle 5. A gas turbine plant draws in air at 1.013 bar, 10 °C and has a pressure ratio of 5.5. The maximum temperature in the cycle is limited to 750 °C, compression is conducted in an uncooled rotary compressor having an isentropic efficiency of 82 % and expansion takes place in turbine with an isentropic efficiency of 85 %. A heat exchanger with an effectiveness of 70 % is fitted between the compressor outlet and combustion chamber. For an air flow of 40 kg/s, find (a) overall cycle efficiency .4 (b) turbine output and (c) air fuel ratio if the caloric value of the fuel used is 45.22 MJ /kg. 6. In regenerative gas turbine power plant, air enters the compressor at 1 bar, 27°C and is compressed to 4 bar. The isentropic efficiency of the compressor is 80 "C and the regenerator effectiveness is 90 °C. All of the power developed by high pressure turbine is used to drive the compressor and the lower pressure turbine provides the net power output of 97 kW. Each turbine has an isentropic efficiency of 87 °C and the temperature at inlet to the high pressure turbine is 1200 K. Determine 0.562 kg/s 0.42] $23.2 K (a) mass flow rate of air into the compressor (b) thermal efficiency, and (c) the temperature of the air at exit of the regenerator 7. A gas refrigeration system as shown in Fig. ??, using air as the working fluid has a pressure ratio of 5. Air enters the compressor at 0 °C. The high pressure air is cooled to 35 °C by rejecting heat to the surroundings. The refrigerant leaves the turbine at -80 °C and then it absorbs heat from the refrigerated space before entering the regenerator. The mass flow rate of air is 0.4 kg/s Assuming isentropic efficiencies of 80% for the compressor and 85 % for the turbine and using constant specific heats at room temperature, determine (a) the effectiveness of the regenerator (b) the rate of heat removal from the refrigerated space, (c) the COP of the cycle, and (d) the refrigeration load and the COP if this system operated on the simple gas refrigeration cycle. Use the same compressor inlet temp, as given, the same turbine inlet temperature as calculated and the same compressor and turbine efficiencies 27.7 kW, 0.599 8. Consider a two stage compressor refrigeration system operating between the pressure limit of 0.8 and 0.14 MPa. The working fluid is R - 134a. The refrigerant leaves the condenser as a saturated liquid and is throttled to a flash chamber operating at 0.4 MPa. Part of the refrigerant evaporates during this flashing process, and this vapour is mixed with the refrigerant leaving the low pressure 2 of
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