Problem 1 A propane refrigeration cycle is required to remove 1106kJ/h from a gas stream at 35C. The chiller approach is 5C. The condenser uses water at 20C with an approach of 10C. The compressor efficiency is 0.8 . Plot the refrigeration cycle including the actual and ideal compressor lines, and calculate the following: (i) The compressor discharge pressure in kPa required Compressor discharge pressure: 4 kPa (ii) The propane circulation rate (PCR) in kg/s PCR:kg/s (iii) The compressor power required in kW for the ideal and actual cases IdealCompressorPower:ActualCompressorPower:kWkW (iv) The condenser load in kW, both for ideal and actual cases Ideal Condenser Load: x kW Actual Condenser Load: kW A propane refrigeration cycle is required to remove 1106Kjh from a gas stream at - 35C. The chiller approach is 5C. The conderiser uses water 20C with an approach of 10C. The compressor efficlency is 0.8 . Plot the refrigeration cycle including the actual and ideal compressor lines, and calculate the following: (1) The compressor discharge pressure in kPa required Compressor discharge pressure: kPa (ii) The propane circulation rate (PCR) in kg/s PCR:kg/s (iii) The compressor power required in kW for the ideal and octual cases Problem 1 A propane refrigeration cycle is required to remove 1106kJ/h from a gas stream at 35C. The chiller approach is 5C. The condenser uses water at 20C with an approach of 10C. The compressor efficiency is 0.8 . Plot the refrigeration cycle including the actual and ideal compressor lines, and calculate the following: (i) The compressor discharge pressure in kPa required Compressor discharge pressure: 4 kPa (ii) The propane circulation rate (PCR) in kg/s PCR:kg/s (iii) The compressor power required in kW for the ideal and actual cases IdealCompressorPower:ActualCompressorPower:kWkW (iv) The condenser load in kW, both for ideal and actual cases Ideal Condenser Load: x kW Actual Condenser Load: kW A propane refrigeration cycle is required to remove 1106Kjh from a gas stream at - 35C. The chiller approach is 5C. The conderiser uses water 20C with an approach of 10C. The compressor efficlency is 0.8 . Plot the refrigeration cycle including the actual and ideal compressor lines, and calculate the following: (1) The compressor discharge pressure in kPa required Compressor discharge pressure: kPa (ii) The propane circulation rate (PCR) in kg/s PCR:kg/s (iii) The compressor power required in kW for the ideal and octual cases