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Please show steps, thank you! Answer is 633kW Carbon monoxide (CO) gas is pressurized and cooled by sending it sequentially through a compressor and then
Please show steps, thank you! Answer is 633kW
Carbon monoxide (CO) gas is pressurized and cooled by sending it sequentially through a compressor and then a heat exchanger. The CO enters the adiabatic compressor at 265 C and 101 kPa at a rate of 0.425 kmol/s and exits the well-insulated isobaric heat exchanger at 125 C and 255 kPa. Cooling water enters the heat exchanger at 5.75 kg/s, 5.00 C and 125 kPa and exits as a saturated liquid at the same pressure. Changes in kinetic and potential energy can be neglected. Find the work interaction term of the compressor (kW). Assume CO behaves ideally with p (T) = 28.1 +4.63 x 10-T, p in kJ/kmol:K, T in K. Carbon monoxide (CO) gas is pressurized and cooled by sending it sequentially through a compressor and then a heat exchanger. The CO enters the adiabatic compressor at 265 C and 101 kPa at a rate of 0.425 kmol/s and exits the well-insulated isobaric heat exchanger at 125 C and 255 kPa. Cooling water enters the heat exchanger at 5.75 kg/s, 5.00 C and 125 kPa and exits as a saturated liquid at the same pressure. Changes in kinetic and potential energy can be neglected. Find the work interaction term of the compressor (kW). Assume CO behaves ideally with p (T) = 28.1 +4.63 x 10-T, p in kJ/kmol:K, T in KStep by Step Solution
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