At steady state, a reversible heat pump cycle discharges energy at the rate Qu to a hot reservoir at temperature TH, while receiving energy at the rate Qc from a cold reservoir at temperature Tc. (a)...


At steady state, a reversible heat pump cycle discharges energy at the rate Qu to a hot reservoir at temperature TH, while receiving<br>energy at the rate Qc from a cold reservoir at temperature Tc.<br>(a) If TH<br>= 10°C and Tc = 2°C, determine the coefficient of performance.<br>(b) If ¿µ = 10.5 kW, O :<br>8.75 kW, and Tc=0°C, determine TH, in °C.<br>(c) If the coefficient of performance is 12 and TH= 27°C, determine Tc, in °C.<br>

Extracted text: At steady state, a reversible heat pump cycle discharges energy at the rate Qu to a hot reservoir at temperature TH, while receiving energy at the rate Qc from a cold reservoir at temperature Tc. (a) If TH = 10°C and Tc = 2°C, determine the coefficient of performance. (b) If ¿µ = 10.5 kW, O : 8.75 kW, and Tc=0°C, determine TH, in °C. (c) If the coefficient of performance is 12 and TH= 27°C, determine Tc, in °C.

Jun 11, 2022
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