A closed gas turbine in which fuel is burnt directly in the air is not possible because of

Compressors, Gas Turbines and Jet Engines
A closed gas turbine in which fuel is burnt directly in the air is not possible because of

High friction losses

High specific volume

Increasing gas temperature

Paucity of O2

High friction losses

High specific volume

Increasing gas temperature

Paucity of O2

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Compressors, Gas Turbines and Jet Engines
Efficiency of gas turbine is increased by

All of the listed here

Reheating

Adding a regenerator

Inter cooling

All of the listed here

Reheating

Adding a regenerator

Inter cooling

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Compressors, Gas Turbines and Jet Engines
Standard air is the air at

15°C and 1 kg/cm²

Atmospheric conditions at any specific location

20°C and 1 kg/cm² and relative humidity 36%

0°C and standard atmospheric conditions

15°C and 1 kg/cm²

Atmospheric conditions at any specific location

20°C and 1 kg/cm² and relative humidity 36%

0°C and standard atmospheric conditions

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Compressors, Gas Turbines and Jet Engines
For an irreversible gas turbine cycle, the efficiency and work ratio both depend on

Pressure ratio alone

Maximum cycle temperature alone

Minimum cycle temperature alone

Both pressure ratio and maximum cycle temperature

Pressure ratio alone

Maximum cycle temperature alone

Minimum cycle temperature alone

Both pressure ratio and maximum cycle temperature

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Compressors, Gas Turbines and Jet Engines
In the axial flow gas turbine, the work ratio is the ratio of

Compressor work and turbine work

Actual total head temperature drop to the isentropic total head drop from total head inlet to static head outlet

Output and input

Actual compressor work and theoretical compressor work

Compressor work and turbine work

Actual total head temperature drop to the isentropic total head drop from total head inlet to static head outlet

Output and input

Actual compressor work and theoretical compressor work

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Compressors, Gas Turbines and Jet Engines
Pressure ratio in gas turbines is the ratio of

Pressures across the turbine

Compressor pressure ratio

Inlet pressure to exhaust pressure

Highest pressure to exhaust pressure

Pressures across the turbine

Compressor pressure ratio

Inlet pressure to exhaust pressure

Highest pressure to exhaust pressure

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Compressors, Gas Turbines and Jet Engines

Compressors, Gas Turbines and Jet Engines A closed gas turbine in which fuel is burnt directly in the air is not possible because of

Compressors, Gas Turbines and Jet Engines Efficiency of gas turbine is increased by

Compressors, Gas Turbines and Jet Engines Standard air is the air at

Compressors, Gas Turbines and Jet Engines For an irreversible gas turbine cycle, the efficiency and work ratio both depend on

Compressors, Gas Turbines and Jet Engines In the axial flow gas turbine, the work ratio is the ratio of

Compressors, Gas Turbines and Jet Engines Pressure ratio in gas turbines is the ratio of

Compressors, Gas Turbines and Jet Engines
A closed gas turbine in which fuel is burnt directly in the air is not possible because of

Compressors, Gas Turbines and Jet Engines
Efficiency of gas turbine is increased by

Compressors, Gas Turbines and Jet Engines
Standard air is the air at

Compressors, Gas Turbines and Jet Engines
For an irreversible gas turbine cycle, the efficiency and work ratio both depend on

Compressors, Gas Turbines and Jet Engines
In the axial flow gas turbine, the work ratio is the ratio of

Compressors, Gas Turbines and Jet Engines
Pressure ratio in gas turbines is the ratio of