Consider the Rankine cycle of Problem 11.77, which rejects 2.3 MW to the condenser, which is supplied with a cooling water flow rate of 70 kg/s at 15°C.
(a) Calculate UA, a parameter that is indicative of the size of the condenser required for this operating condition.
(b) Consider now the situation where the overall heat transfer coefficient for the condenser, U, is reduced by 10% because of fouling. Determine the reduction in the thermal efficiency of the cycle caused by fouling, assuming that the cool- ing water flow rate and water temperature remain the same and that the condenser is operated at the same steam pressure.
Hot fluid 0.125 2100 210
What is the maximum possible heat transfer rate? What is the heat exchanger effectiveness? Should the heat exchanger be operated in parallel flow or in coun- terflow? What is the ratio of the required areas for these two flow conditions?