Can somebody help me on Problem 9 please. If the process in Problem 4 is reversi
ID: 1858031 • Letter: C
Question
Can somebody help me on Problem 9 please.
If the process in Problem 4 is reversible and also the temperature varies linearly with entropy (i.e., T = T(S) is linear) during the process, then Determine the heat transfer. That is find, Q2 in KJoules. Hint: Consider a T-S diagram of the process. Repeat problem if except you must now use variable specific heats and the "table" method. A real adiabatic pump requires = 1.25 KJ/kg specific work input to create a pressure rise from 100 Kpa on in flow to 1100 Kpa on outflow, and has an isentropic efficiency, Mp = 0.80(80%) Determine in KJ/kg, which is the ideal, reversible adiabatic (iseutropic) specific work. (You must give the correct sign, + or - for your result.) Assuming constant density of the liquid in problem7, determine the specific volume, in m3/kg. A certain SSSF turbine (irreversible and adiabatic) operate on air with the following conditions: Inflow: Ti = 900k; Pi = 6144.44824 Kpa Outflow: = 401.9920319 Determine the specific work output of the turbine, , in KJ/kg. (Single Inflow/outflow, neglect Delta KE, Delta PE) Note: You are required to assume constant specific heats in this problem, where Cpo = 1.004 KJ/(kg middot degree K); K = Cpo/Cro = 1.4Explanation / Answer
Efficiency = real work of the Pump/Ideal work of the pupm
Ideal work of hte pump = 0.8*(-1.25) = -1 KJ/kg
Real work required is more than the Ideal case because of the reversibilities