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,

Pressure remains constant

Velocity decreases

Velocity remains constant

Velocity increases

Pressure remains constant

Velocity decreases

Velocity remains constant

Velocity increases

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Steam Boilers, Engines, Nozzles and Turbines
Equivalent evaporation of water is the evaporation for a feed water supply at 100°C

Conversion into steam at the same pressure at which feed water is supplied

And its corresponding conversion into dry steam at desired boiler pressure

And its corresponding conversion into dry saturated steam at 100°C and 1.033 kg/cm²

Conversion into steam at atmospheric condition

Conversion into steam at the same pressure at which feed water is supplied

And its corresponding conversion into dry steam at desired boiler pressure

And its corresponding conversion into dry saturated steam at 100°C and 1.033 kg/cm²

Conversion into steam at atmospheric condition

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Steam Boilers, Engines, Nozzles and Turbines
Hard coke is produced by carburization of coal at

500-600°C

950-1100°C

700-850°C

Atmospheric temperature

500-600°C

950-1100°C

700-850°C

Atmospheric temperature

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Steam Boilers, Engines, Nozzles and Turbines
The fittings mounted on the boiler for its proper and safe functioning is a

All of these

Water level indicator

Safety valve

Pressure gauge

All of these

Water level indicator

Safety valve

Pressure gauge

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Steam Boilers, Engines, Nozzles and Turbines
Willian’s line follows the law (where b = A constant representing the shape of the Willian’s line, a = Another constant i.e. no load consumption per hour, I.P. = Indicated power, and m = Steam consumption per hour)

m = a + b × I.P.

I.P. = a × m + b

m = (b/I.P.) - a

I.P. = b × m + a

m = a + b × I.P.

I.P. = a × m + b

m = (b/I.P.) - a

I.P. = b × m + a

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Steam Boilers, Engines, Nozzles and Turbines
The diameter of Cornish boiler varies from

1.25 to 2.5 m

2 to 3 m

1 to 2 m

0.5 to 1 m

1.25 to 2.5 m

2 to 3 m

1 to 2 m

0.5 to 1 m

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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 Equivalent evaporation of water is the evaporation for a feed water supply at 100°C

Steam Boilers, Engines, Nozzles and Turbines Hard coke is produced by carburization of coal at

Steam Boilers, Engines, Nozzles and Turbines The fittings mounted on the boiler for its proper and safe functioning is a

Steam Boilers, Engines, Nozzles and Turbines Willian’s line follows the law (where b = A constant representing the shape of the Willian’s line, a = Another constant i.e. no load consumption per hour, I.P. = Indicated power, and m = Steam consumption per hour)

Steam Boilers, Engines, Nozzles and Turbines The diameter of Cornish boiler varies from

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
Equivalent evaporation of water is the evaporation for a feed water supply at 100°C

Steam Boilers, Engines, Nozzles and Turbines
Hard coke is produced by carburization of coal at

Steam Boilers, Engines, Nozzles and Turbines
The fittings mounted on the boiler for its proper and safe functioning is a

Steam Boilers, Engines, Nozzles and Turbines
Willian’s line follows the law (where b = A constant representing the shape of the Willian’s line, a = Another constant i.e. no load consumption per hour, I.P. = Indicated power, and m = Steam consumption per hour)

Steam Boilers, Engines, Nozzles and Turbines
The diameter of Cornish boiler varies from