_{In an ideal Rankine Cycle, steam at 5 MPaa and 500 ⁰C enters the turbine and expands 300 KPaa. For 110,000 kg/hr of steam, find: a) Ideal power output of the Turbine (kW), b) Power to drive the pump(kW), c) Rate of Heat Added (kW), d) thermal efficiency of cycle and engine, e) steam rate of the cycle and engine, f) Heat Rate}

SOLVE ALL LETTER PLS : _{a) Ideal power output of the Turbine (kW), b) Power to drive the pump(kW), c) Rate of Heat Added (kW)} d.)thermal efficiency of cycle and engine, e.)steam rate of the cycle and engine in unit (Kg/kw-hr), and f.) Hear Rate in-unit (Kj/kw-hr)

PLSS SHOW COMPLETE SOLUTION AND WRITE LEGIBLY ROUND OFF ANSWER TO 4 DECIMAL PLACES . SHOW P-V AND T-S DIAGRAMS

PLS PLS  REFER TO VALUES OF THE PRESSURE TABLE AND THE SUPERHEATED TABLE IN THE ATTACHMENTS DONT SHOW THE SAME SOLUTION OF OTHERS pls.

 

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TABLE 3-2: SUPERHEATED WATER T V OC m3/kg KJ/kg KJ/kg KJ/(kg-K) P = 5Mpa 500 0.06857 3091.0 3433.8 6.9759 CamScanner

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TABLE 2: SATURATED WATER - PRESSURE TABLE Specific Volume, m3/kg Internal Energy, KJ/kg Enthalpy, KJ/kg Entropy, KJ/(kg-K) Press. Sat. Temp. Sat. Liquid Sat. Vapor Sat. Liquid Sat. Vapor Sat. Liquid Evap. Sat. Vapor Evap. Sat. Vapor Sat. Liquid Evap. Кра OC P Tsat vf vg uf ufg ug hf hfg hg sf sfg sg 300.000 133,55 0.001073 0.6058 561.15 1982.5 2543.6 561.47 2163.8 2725.3 1.6718 5.3201 6.9919 CamScanner