Derive the formula of Wnetmax in an air standard Brayton Cycle by maximizing the formula of...
Derive the formula of Wnetmax in an air standard Brayton Cycle by maximizing the formula of Wnet in terms of T2 and using the relationship T1/T2=T4/T3 . Your answer should be as a function of m, Cp, T1, T2 and T3 only. Using the derived formula, find Wnetmax when T1= 300C, T3=1000C and T2=500C in kJ/kg.
Derive the formula of Wnetmax in an air standard Brayton Cycle by maximizing the formula of Wnet in terms of T2 and using the relationship T1/T2=T4/T3 . Your answer should be as a function of m, Cp, T1, T2 and T3 only. Using the derived formula, find Wnetmax when T1= 300C, T3=1000C and T2=500C in kJ/kg.
Derive the formula of Wnetmax in an air standard Brayton Cycle by maximizing the formula of Wnet in terms of T2 and using the relationship T1/T2=T4/T3 . Your answer should be as a function of m, Cp, T1, T2 and T3 only. Using the derived formula, find Wnetmax when T1= 300C, T3=1000C and T2=500C in kJ/kg.
An aircraft engine operates on a simple ideal Brayton cycle with a pressure ratio rp of 9. Heat is added to the cycle at a rate of 490 kW; air passes through the engine at a rate of 1.1 kg/s; and the air at the beginning of the compression is at P1 = 71 kPa and T1 = 0 oC. Use constant specific heats at room temperature. The properties of air at room temperature are cp =1.005 kJ/kg.K and k...
1.) Consider the gas turbine with air-standard Brayton cycle shown below Temperature, T and Pressure, P are measured at the following points in the cycle: Turbine: input: TH = 1200 K, PH = 800 kPa output: TL = 662.4 K, PL = 100 kPa Compressor: input Tc = 300 K, Pc = 100 kPa output: Th = 543.4 K, Ph = 800 kPa Note: the working fluid is air which has Cp = 1.005 kJ/kg.K, k = 1.4, R =...
An air standard Brayton cycle is operating at steady state. All processes are reversible. At compressor inlet (state 1), the temperature and pressure are T1 300 K and P1-1 atm, respectively. Pressure ratio is rp-33. Maximum temperature of the cycle, which occurs at turbine inlet, is T3 = 1060 K. what is the thermal efficiency of the cycle? Note: Your answer should be between O and 1
An air-standard Brayton cycle includes a regenerator which is shown in the below figure. The air enters the compressor at 100 kPa, 20℃. The pressure ratio across the compressor is 9:1. The highest temperature in the cycle is 1100℃, and the flow rate of the air is 10 kg/s. The regenerator operates at effectiveness 80 percent. Both the efficiencies of the turbine and the compressor are 85%. Do not use Table A-22. Assuming constant specific heat ( cp = 1.004...
A Student cycle engine is analyzed using the cold air-standard method. Given the definition of each process in the cycle, determine the thermal efficiency of the engine for each set of defined ratios listed below. All ratios are given as the larger value over the smaller one. --Given Values-- Process 1-2 = Isentropic compression & volume ratio=rv12 Process 2-3 = Isobaric compression & volume ratio=rv23 Process 3-4 = Isometric heat addition & temperature ratio=rT34 Process 4-5 = Isobaric heat addition...
24-1: The net power produced by an air-standard Brayton cycle is 1500 kW. The pressure ratio for the cycle is 12 and the minimum and maximum temperatures are 20˚C and 1450˚C respectively. The isentropic efficiencies of the compressor and turbine are 0.75 and 0.80 respectively. Assume an ambient pressure of 100 kPa. Determine: a. The thermal efficiency of the cycle b. The mass flow rate of the air, in kg/s. c. The heat added during the combustion process, in kW....
3.6 A combined power plant consisting of a closed cycle GT unit (Brayton cycle), using air as the working fluid and a ST unit (Rankine cycle) is to be designed such that the heat rejected at the GT unit is to be utilized to produce steam at the generator for the ST. The air leaving the generator is at 200 °C and it is cooled to the compressor inlet temperature by a second cooler which rejects the heat to waste....