In a Parson's turbine stage, blade velocity is 320 m/s at the mean radius and rotor blade exit angle is 30°. For minimum kinetic energy of the steam leaving the stage, the steam velocity at the exit of the rotor will be

Steam Boilers, Engines, Nozzles and Turbines
In a Parson's turbine stage, blade velocity is 320 m/s at the mean radius and rotor blade exit angle is 30°. For minimum kinetic energy of the steam leaving the stage, the steam velocity at the exit of the rotor will be

160/3 m/s

640/3 m/s

320/3 m/s

640 m/s

160/3 m/s

640/3 m/s

320/3 m/s

640 m/s

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Steam Boilers, Engines, Nozzles and Turbines
The expansion of steam, as it flows over the blades in reaction turbine, represents

Isothermal process

Throttling process

Isentropic process

Free expansion process

Isothermal process

Throttling process

Isentropic process

Free expansion process

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Steam Boilers, Engines, Nozzles and Turbines
The factor of evaporation for all boilers is always

Greater than unity

None of these

Less than unity

Equal to unity

Greater than unity

None of these

Less than unity

Equal to unity

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Steam Boilers, Engines, Nozzles and Turbines
A binary vapor plant consists of

All of the listed here

Steam turbine

Steam condenser

Mercury boiler

All of the listed here

Steam turbine

Steam condenser

Mercury boiler

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Steam Boilers, Engines, Nozzles and Turbines
The ratio of heat utilized to produce steam and the heat liberated in furnace is known as

Factor of evaporation

Boiler evaporative capacity

Boiler efficiency

Boiler effectiveness

Factor of evaporation

Boiler evaporative capacity

Boiler efficiency

Boiler effectiveness

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Steam Boilers, Engines, Nozzles and Turbines
For the same diameter and thickness of tube, a water tube boiler compared to a fire tube boiler has

Equal heating surface

Heating surface depends on other parameters

Less heating surface

More heating surface

Equal heating surface

Heating surface depends on other parameters

Less heating surface

More heating surface

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Steam Boilers, Engines, Nozzles and Turbines

Steam Boilers, Engines, Nozzles and Turbines In a Parson's turbine stage, blade velocity is 320 m/s at the mean radius and rotor blade exit angle is 30°. For minimum kinetic energy of the steam leaving the stage, the steam velocity at the exit of the rotor will be

Steam Boilers, Engines, Nozzles and Turbines The expansion of steam, as it flows over the blades in reaction turbine, represents

Steam Boilers, Engines, Nozzles and Turbines The factor of evaporation for all boilers is always

Steam Boilers, Engines, Nozzles and Turbines A binary vapor plant consists of

Steam Boilers, Engines, Nozzles and Turbines The ratio of heat utilized to produce steam and the heat liberated in furnace is known as

Steam Boilers, Engines, Nozzles and Turbines For the same diameter and thickness of tube, a water tube boiler compared to a fire tube boiler has

Steam Boilers, Engines, Nozzles and Turbines
In a Parson's turbine stage, blade velocity is 320 m/s at the mean radius and rotor blade exit angle is 30°. For minimum kinetic energy of the steam leaving the stage, the steam velocity at the exit of the rotor will be

Steam Boilers, Engines, Nozzles and Turbines
The expansion of steam, as it flows over the blades in reaction turbine, represents

Steam Boilers, Engines, Nozzles and Turbines
The factor of evaporation for all boilers is always

Steam Boilers, Engines, Nozzles and Turbines
A binary vapor plant consists of

Steam Boilers, Engines, Nozzles and Turbines
The ratio of heat utilized to produce steam and the heat liberated in furnace is known as

Steam Boilers, Engines, Nozzles and Turbines
For the same diameter and thickness of tube, a water tube boiler compared to a fire tube boiler has