In a velocity compounded impulse turbine, when steam flows through the second row of moving blades,

Steam Boilers, Engines, Nozzles and Turbines
In a velocity compounded impulse turbine, when steam flows through the second row of moving blades,

Velocity increases

Pressure remains constant

Velocity decreases

Velocity remains constant

Velocity increases

Pressure remains constant

Velocity decreases

Velocity remains constant

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Steam Boilers, Engines, Nozzles and Turbines
A regenerative steam cycle renders

Decreased work output per unit mass of steam

Increased work output per unit mass of steam

Increased thermal efficiency

Decreased work output per unit mass of steam as well as increased thermal efficiency

Decreased work output per unit mass of steam

Increased work output per unit mass of steam

Increased thermal efficiency

Decreased work output per unit mass of steam as well as increased thermal efficiency

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Steam Boilers, Engines, Nozzles and Turbines
In a throttling process

Steam pressure remains constant

Steam enthalpy remains constant

Steam entropy remains constant

Steam temperature remains constant

Steam pressure remains constant

Steam enthalpy remains constant

Steam entropy remains constant

Steam temperature remains constant

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Steam Boilers, Engines, Nozzles and Turbines
The isentropic enthalpy drop in moving blade is two-third of the isentropic enthalpy drop in fixed blades of a turbine. The degree of reaction will be

1.67

0.67

0.4

0.56

1.67

0.67

0.4

0.56

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Steam Boilers, Engines, Nozzles and Turbines
The ratio of the isentropic heat drop to the heat supplied, is called

Internal efficiency

Rankine efficiency

Stage efficiency

Reheat factor

Internal efficiency

Rankine efficiency

Stage efficiency

Reheat factor

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Steam Boilers, Engines, Nozzles and Turbines
The change in internal energy in steam engines equals to

Change in enthalpy

Work done during adiabatic expansion

Work done during compression

Work done during the Rankine cycle

Change in enthalpy

Work done during adiabatic expansion

Work done during compression

Work done during the Rankine cycle

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Steam Boilers, Engines, Nozzles and Turbines

Steam Boilers, Engines, Nozzles and Turbines In a velocity compounded impulse turbine, when steam flows through the second row of moving blades,

Steam Boilers, Engines, Nozzles and Turbines A regenerative steam cycle renders

Steam Boilers, Engines, Nozzles and Turbines In a throttling process

Steam Boilers, Engines, Nozzles and Turbines The isentropic enthalpy drop in moving blade is two-third of the isentropic enthalpy drop in fixed blades of a turbine. The degree of reaction will be

Steam Boilers, Engines, Nozzles and Turbines The ratio of the isentropic heat drop to the heat supplied, is called

Steam Boilers, Engines, Nozzles and Turbines The change in internal energy in steam engines equals to

Steam Boilers, Engines, Nozzles and Turbines
In a velocity compounded impulse turbine, when steam flows through the second row of moving blades,

Steam Boilers, Engines, Nozzles and Turbines
A regenerative steam cycle renders

Steam Boilers, Engines, Nozzles and Turbines
In a throttling process

Steam Boilers, Engines, Nozzles and Turbines
The isentropic enthalpy drop in moving blade is two-third of the isentropic enthalpy drop in fixed blades of a turbine. The degree of reaction will be

Steam Boilers, Engines, Nozzles and Turbines
The ratio of the isentropic heat drop to the heat supplied, is called

Steam Boilers, Engines, Nozzles and Turbines
The change in internal energy in steam engines equals to