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 specific volume

Paucity of O2

High friction losses

Increasing gas temperature

High specific volume

Paucity of O2

High friction losses

Increasing gas temperature

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Compressors, Gas Turbines and Jet Engines
The indicated work per unit mass of air delivered is

Directly proportional to clearance volume

Greatly affected by clearance volume

Not affected by clearance volume

Inversely proportional to clearance volume

Directly proportional to clearance volume

Greatly affected by clearance volume

Not affected by clearance volume

Inversely proportional to clearance volume

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Compressors, Gas Turbines and Jet Engines
Stalling of blades in axial flow compressor is the phenomenon of

Air stream not able to follow the blade contour

Unsteady periodic and reversed flow

Air stream blocking the passage

Motion of air at sonic velocity

Air stream not able to follow the blade contour

Unsteady periodic and reversed flow

Air stream blocking the passage

Motion of air at sonic velocity

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Compressors, Gas Turbines and Jet Engines
Ratio of indicated H.P. and brake H.P. is known as

Volumetric efficiency

Isothermal efficiency

Mechanical efficiency

Adiabatic efficiency

Volumetric efficiency

Isothermal efficiency

Mechanical efficiency

Adiabatic efficiency

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Compressors, Gas Turbines and Jet Engines
Mechanical efficiency of gas turbines as compared to I.C engines is

Same

Higher

Lower

None of these

Same

Higher

Lower

None of these

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Compressors, Gas Turbines and Jet Engines
Intercooling in gas turbines

Decreases net output but increases thermal efficiency

Increases net output and thermal efficiency both

Increases net output but decreases thermal efficiency

Decreases net output and thermal efficiency both

Decreases net output but increases thermal efficiency

Increases net output and thermal efficiency both

Increases net output but decreases thermal efficiency

Decreases net output and thermal efficiency both

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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 The indicated work per unit mass of air delivered is

Compressors, Gas Turbines and Jet Engines Stalling of blades in axial flow compressor is the phenomenon of

Compressors, Gas Turbines and Jet Engines Ratio of indicated H.P. and brake H.P. is known as

Compressors, Gas Turbines and Jet Engines Mechanical efficiency of gas turbines as compared to I.C engines is

Compressors, Gas Turbines and Jet Engines Intercooling in gas turbines

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
The indicated work per unit mass of air delivered is

Compressors, Gas Turbines and Jet Engines
Stalling of blades in axial flow compressor is the phenomenon of

Compressors, Gas Turbines and Jet Engines
Ratio of indicated H.P. and brake H.P. is known as

Compressors, Gas Turbines and Jet Engines
Mechanical efficiency of gas turbines as compared to I.C engines is

Compressors, Gas Turbines and Jet Engines
Intercooling in gas turbines