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

Explanation:
In a steady-flow component where only heat transfer occurs and kinetic/potential changes are negligible, the energy balance is Q_dot = ṁ (h_in − h_out). The heat transferred per unit mass is the difference in specific enthalpy between the inlet and outlet. For a condenser, steam enters at a high enthalpy and leaves as liquid at a much lower enthalpy. Since h1 > h2, the difference h1 − h2 is positive, and this difference times the mass flow rate equals the heat rejected to the surroundings. That matches the form q = h1 − h2, describing the energy balance in the condenser. In a boiler, the enthalpy increases (h_out > h_in), so the relevant expression would involve h_out − h_in for heat added. In a turbine, the enthalpy decreases and the energy extracted is work, not heat (neglecting heat transfer). In a pump, work input raises enthalpy, also not a heat transfer balance. So the component where the energy balance is described by q = h1 − h2 is the condenser.

In a steady-flow component where only heat transfer occurs and kinetic/potential changes are negligible, the energy balance is Q_dot = ṁ (h_in − h_out). The heat transferred per unit mass is the difference in specific enthalpy between the inlet and outlet.

For a condenser, steam enters at a high enthalpy and leaves as liquid at a much lower enthalpy. Since h1 > h2, the difference h1 − h2 is positive, and this difference times the mass flow rate equals the heat rejected to the surroundings. That matches the form q = h1 − h2, describing the energy balance in the condenser.

In a boiler, the enthalpy increases (h_out > h_in), so the relevant expression would involve h_out − h_in for heat added. In a turbine, the enthalpy decreases and the energy extracted is work, not heat (neglecting heat transfer). In a pump, work input raises enthalpy, also not a heat transfer balance.

So the component where the energy balance is described by q = h1 − h2 is the condenser.

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