In which component is the energy balance described by w = h1 - h2?

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Study for the EPRI Heat Transfer and Fluid Flow Test. Prepare with flashcards and multiple choice questions, each with hints and explanations. Get ready for your exam!

Multiple Choice

In which component is the energy balance described by w = h1 - h2?

Explanation:
In a steady-flow device where there is no heat transfer and negligible changes in kinetic or potential energy, the shaft work is equal to the drop in specific enthalpy. For a turbine, steam enters with higher enthalpy h1 and leaves with lower enthalpy h2, so the work produced per unit mass is w = h1 − h2. This positive enthalpy drop drives the turbine shaft work. In contrast, a boiler adds heat (Q = h_out − h_in), a condenser removes heat (Q ≈ h_in − h_out with little shaft work), and a pump requires input work that raises enthalpy (w = h2 − h1). Therefore, the relation w = h1 − h2 describes the turbine.

In a steady-flow device where there is no heat transfer and negligible changes in kinetic or potential energy, the shaft work is equal to the drop in specific enthalpy. For a turbine, steam enters with higher enthalpy h1 and leaves with lower enthalpy h2, so the work produced per unit mass is w = h1 − h2. This positive enthalpy drop drives the turbine shaft work. In contrast, a boiler adds heat (Q = h_out − h_in), a condenser removes heat (Q ≈ h_in − h_out with little shaft work), and a pump requires input work that raises enthalpy (w = h2 − h1). Therefore, the relation w = h1 − h2 describes the turbine.

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