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Figure Q2(B) shows an air flow into an air-conditioning system at a rate of 0.9m3/s and is cooled from 35C&60%RH to 23C. Assume the air pressure is constant at 100kPa. Analyse the air conditioning process by determining the following: i) the mass balance and energy balance involved in the process, ii) Prove that condensation occurs during the cooling process, iii) the condensation rate of air at the exit (skgv), iv) the heat transfer rate to the coolant (W). The specific heat of air at constant pressure is 1.005kJ/kg.K. Figure Q2(B) : Air Flow of an Air Conditioning System Figure Q2(B) shows an air flow into an air-conditioning system at a rate of 0.9m3/s and is cooled from 35C&60%RH to 23C. Assume the air pressure is constant at 100kPa. Analyse the air conditioning process by determining the following: i) the mass balance and energy balance involved in the process, ii) Prove that condensation occurs during the cooling process, iii) the condensation rate of air at the exit (skgv), iv) the heat transfer rate to the coolant (W). The specific heat of air at constant pressure is 1.005kJ/kg.K. Figure Q2(B) : Air Flow of an Air Conditioning System