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

Paucity of O2

High specific volume

Increasing gas temperature

High friction losses

Paucity of O2

High specific volume

Increasing gas temperature

High friction losses

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Compressors, Gas Turbines and Jet Engines
The effective power of gas turbines is increased by adding the following in compressor

Hydrogen

Nitrogen

Ammonia and water vapour

Carbon dioxide

Hydrogen

Nitrogen

Ammonia and water vapour

Carbon dioxide

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Compressors, Gas Turbines and Jet Engines
The net work input required for compressor with increase in clearance volume

Increases/decreases depending on compressor capacity

Increases

Remains same

Decreases

Increases/decreases depending on compressor capacity

Increases

Remains same

Decreases

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Compressors, Gas Turbines and Jet Engines
The degree of reaction of an axial flow turbine is the ratio of isentropic temperature drop in a blade row to the

Adiabatic temperature drop in the stage

Total temperature drop in the stage

Total temperature drop

Total adiabatic temperature drop

Adiabatic temperature drop in the stage

Total temperature drop in the stage

Total temperature drop

Total adiabatic temperature drop

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Compressors, Gas Turbines and Jet Engines
Volumetric efficiency of a compressor without clearance volume

May increase/decrease depending on compressor capacity

Is not dependent upon compression ratio

Decreases with increase in compression ratio

Increases with increase in compression ratio

May increase/decrease depending on compressor capacity

Is not dependent upon compression ratio

Decreases with increase in compression ratio

Increases with increase in compression ratio

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

Inversely proportional to clearance volume

Not affected by clearance volume

Greatly affected by clearance volume

Directly proportional to clearance volume

Inversely proportional to clearance volume

Not affected by clearance volume

Greatly affected by clearance volume

Directly proportional to clearance volume

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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 effective power of gas turbines is increased by adding the following in compressor

Compressors, Gas Turbines and Jet Engines The net work input required for compressor with increase in clearance volume

Compressors, Gas Turbines and Jet Engines The degree of reaction of an axial flow turbine is the ratio of isentropic temperature drop in a blade row to the

Compressors, Gas Turbines and Jet Engines Volumetric efficiency of a compressor without clearance volume

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

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 effective power of gas turbines is increased by adding the following in compressor

Compressors, Gas Turbines and Jet Engines
The net work input required for compressor with increase in clearance volume

Compressors, Gas Turbines and Jet Engines
The degree of reaction of an axial flow turbine is the ratio of isentropic temperature drop in a blade row to the

Compressors, Gas Turbines and Jet Engines
Volumetric efficiency of a compressor without clearance volume

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