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A gas engine that operates on a Brayton cycle has an efficiency of 0.23. On a cold day, the temperature of the air drawn into the engine is 267 K.Part AWhat is the temperature of the air exhausted from the engine?

Respuesta :

Edufirst

Answer:

  • 347 K

Explanation:

The Brayton cycle is Joule cycle and is the model for the operation of a gas turbine engine.

The general equation for the efficiency of an engine working between two temperatures is:

  • Efficiency = 1 - T cold / T hot.

In this case:

  • T cold is the temperature at which the air is drawn from the atmosphere into the engine (turbine): 267 K; and

  • T hot is the temperature of the air exhausted from the engine (the unknown variable of the problem).

Thus, substituting the data into the formula, you get:

  • 0.23 = 1 - 267 K / T hot

  • 267 K / T hot = 1 - 0.23

  • 267 K / T hot = 0.77

  • T hot = 267 K / 0.77

  • T hot = 347 K

Answer: the temperature of the air exhausted from the engine is 347 K

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