The velocity of steam leaving the nozzle (V) is given by (where K = Nozzle coefficient or nozzle efficiency, and hd = Enthalpy or heat drop during expansion of steam in a nozzle)

Steam Boilers, Engines, Nozzles and Turbines
The velocity of steam leaving the nozzle (V) is given by (where K = Nozzle coefficient or nozzle efficiency, and hd = Enthalpy or heat drop during expansion of steam in a nozzle)

V = 44.72 K hd

V = 44.72 hd K

V = 44.72 K hd

V = 44.72 hd K

V = 44.72 K hd

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Steam Boilers, Engines, Nozzles and Turbines
The object of producing draught in a boiler is

All of the listed here

To provide an adequate supply of air for the fuel combustion

To exhaust the gases of combustion from the combustion chamber

To discharge the gases of combustion to the atmosphere through the chimney

All of the listed here

To provide an adequate supply of air for the fuel combustion

To exhaust the gases of combustion from the combustion chamber

To discharge the gases of combustion to the atmosphere through the chimney

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Steam Boilers, Engines, Nozzles and Turbines
The working pressure range for a LaMont boiler is

0.5 to 10 MN/m²

3.5 to 20 MN/m²

1 to 15 MN/m²

2.5 to 15 MN/m²

0.5 to 10 MN/m²

3.5 to 20 MN/m²

1 to 15 MN/m²

2.5 to 15 MN/m²

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Steam Boilers, Engines, Nozzles and Turbines
Natural water circulation, by convection in water tube boilers, with increase in pressure of boiler

Increases

Remain unaffected

First increases and then decreases

Decreases

Increases

Remain unaffected

First increases and then decreases

Decreases

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Steam Boilers, Engines, Nozzles and Turbines
In reaction turbines, the axial thrust is due to

Change in axial velocity

None of these

Both (A) and (B)

Pressure drop across the rotor

Change in axial velocity

None of these

Both (A) and (B)

Pressure drop across the rotor

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Steam Boilers, Engines, Nozzles and Turbines
Water tube boilers are

Internally as well as externally fired

None of these

Internally fired

Externally fired

Internally as well as externally fired

None of these

Internally fired

Externally fired

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Steam Boilers, Engines, Nozzles and Turbines

Steam Boilers, Engines, Nozzles and Turbines The velocity of steam leaving the nozzle (V) is given by (where K = Nozzle coefficient or nozzle efficiency, and hd = Enthalpy or heat drop during expansion of steam in a nozzle)

Steam Boilers, Engines, Nozzles and Turbines The object of producing draught in a boiler is

Steam Boilers, Engines, Nozzles and Turbines The working pressure range for a LaMont boiler is

Steam Boilers, Engines, Nozzles and Turbines Natural water circulation, by convection in water tube boilers, with increase in pressure of boiler

Steam Boilers, Engines, Nozzles and Turbines In reaction turbines, the axial thrust is due to

Steam Boilers, Engines, Nozzles and Turbines Water tube boilers are

Steam Boilers, Engines, Nozzles and Turbines
The velocity of steam leaving the nozzle (V) is given by (where K = Nozzle coefficient or nozzle efficiency, and hd = Enthalpy or heat drop during expansion of steam in a nozzle)

Steam Boilers, Engines, Nozzles and Turbines
The object of producing draught in a boiler is

Steam Boilers, Engines, Nozzles and Turbines
The working pressure range for a LaMont boiler is

Steam Boilers, Engines, Nozzles and Turbines
Natural water circulation, by convection in water tube boilers, with increase in pressure of boiler

Steam Boilers, Engines, Nozzles and Turbines
In reaction turbines, the axial thrust is due to

Steam Boilers, Engines, Nozzles and Turbines
Water tube boilers are