The maximum efficiency of a reaction turbine is

Steam Boilers, Engines, Nozzles and Turbines
The maximum efficiency of a reaction turbine is

2 cos²α/(1 + cos²α)

(1 + sin²α)/2 sin²α

(1 + cos²α)/2 cos²α

2 sin²α/(1 + sin²α)

2 cos²α/(1 + cos²α)

(1 + sin²α)/2 sin²α

(1 + cos²α)/2 cos²α

2 sin²α/(1 + sin²α)

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Steam Boilers, Engines, Nozzles and Turbines
The high pressure and low pressure cylinders in a receiver type compound engine are regarded as having cranks

0° to each other

None of these

90° to each other

180° to each other

0° to each other

None of these

90° to each other

180° to each other

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Steam Boilers, Engines, Nozzles and Turbines
Vacuum for reciprocating steam engines compared to steam turbines is

Less

Could be more or less depending on the size of plant

More

Equal

Less

Could be more or less depending on the size of plant

More

Equal

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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)

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

m = a + b × I.P.

I.P. = a × m + b

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

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Steam Boilers, Engines, Nozzles and Turbines
While steam expands in turbines, theoretically the entropy

Increases

Remains constant

Behaves unpredictably

Decreases

Increases

Remains constant

Behaves unpredictably

Decreases

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Steam Boilers, Engines, Nozzles and Turbines
A nozzle is said to be a divergent nozzle

None of these

When the cross-section of the nozzle increases continuously from entrance to exit

When the cross-section of the nozzle decreases continuously from entrance to exit

When the cross-section of the nozzle first decreases from entrance to throat and then increases from its throat to exit

None of these

When the cross-section of the nozzle increases continuously from entrance to exit

When the cross-section of the nozzle decreases continuously from entrance to exit

When the cross-section of the nozzle first decreases from entrance to throat and then increases from its throat to exit

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Steam Boilers, Engines, Nozzles and Turbines

Steam Boilers, Engines, Nozzles and Turbines The maximum efficiency of a reaction turbine is

Steam Boilers, Engines, Nozzles and Turbines The high pressure and low pressure cylinders in a receiver type compound engine are regarded as having cranks

Steam Boilers, Engines, Nozzles and Turbines Vacuum for reciprocating steam engines compared to steam turbines is

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 While steam expands in turbines, theoretically the entropy

Steam Boilers, Engines, Nozzles and Turbines A nozzle is said to be a divergent nozzle

Steam Boilers, Engines, Nozzles and Turbines
The maximum efficiency of a reaction turbine is

Steam Boilers, Engines, Nozzles and Turbines
The high pressure and low pressure cylinders in a receiver type compound engine are regarded as having cranks

Steam Boilers, Engines, Nozzles and Turbines
Vacuum for reciprocating steam engines compared to steam turbines is

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
While steam expands in turbines, theoretically the entropy

Steam Boilers, Engines, Nozzles and Turbines
A nozzle is said to be a divergent nozzle