A binary-vapor cycle operates on mercury and steam. Saturated mercury vapor at 6 bar is supplied to themercury turbine, from which it exhaust at 0.08 bar. The mercury condenser generates saturated steam at 20bar which is expanded in a steam turbine to 0.04 bar.(i) Find the overall efficiency of the cycle.(ii) If 50000 kg/h of steam flows through the steam turbine, what is the flow through the mercury turbine?(iii) Assuming that all processes are reversible, what is the useful work done in the binary vapor cycle forthe specified steam flow?(iv) If the steam leaving the mercury condenser is superheated to a temperature of 300°C in a superheaterlocated in the mercury boiler, and if the internal efficiencies of the mercury and steam turbines are 0.85 and0.87 respectively, calculate the overall efficiency of the cycle.The properties of mercury are given below.P bart°Chf (kJ/kg) hg (kl/kg) Sf (kJ/kg K) Sg (kJ/kg vf (m3/kg)K)vg (m3/kg)648068.75359.650.13840.532779.9x10-60.0480.08226.932.98331.850.09080.652576.5x10-63.178

Answer: η = 51.94 % mHg = 158.43 kg/s or 570376.296 kg/hour Wuseful = 26.84 kW ηoverall = 59.82…

Answered: A binary-vapor cycle operates on…

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

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3 (a) A simple Rankine cycle uses water as the working fluid (Figure Q3). IA 9 in 4s 4 gout Figure Q3. Rankine Cycle The boiler operates at 7,000 kPa and the condenser at 100 kPa. At the entrance to the turbine, the temperature is 450 °C. The isentropic efficiency of the turbine is 90%, pressure and pump losses are negligible, and the water leaving the condenser is subcooled by 9.6 °C. The boiler is sized for a mass flow rate of 20 kg/s. Determine, (i) The rate at which heat is added in the boiler, (ii) The power required to operate the pumps, (iii) The net power produced by the cycle, (iv) The thermal efficiency. (b) After a long walk in the 14 °C outdoors, a person wearing glasses enters a room at 25°C and 60% relative humidity. (i) What is the difference between specific and relative humidity? (ii) Please explain whether the glasses will become fogged or not and why. An
In an ideal Rankine cycle, steam generated at 3.546 Mpa and 450°C. The condenser isat 45°C. Determine (a) the ideal pump work, (b) the cycle efficiency, (c) for an enginewith the same end state, determine the engine efficiency.(Note: Draw the schematic and T-s diagram)
please provide full calculation
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Rankine Cycle (Thermodynamics) Show the illustration diagram and complete and step by step solution.
An ideal Rankine cycle operates between a steam boiler pressure of 18 MPa and a condenser temperature of 42 °C. The steam leaving the boiler is a saturated vapor. The net power generated by the cycle is 150 MW. What is the mass flow rate of steam? What is the cycle efficiency? Use the formula: n=Wnet/Qin.
2. Steam at 10MPaa, 550°C enters an ideal engine that has one stage of regenerative cycle; condenser pressure is 10 kPaa and extraction of steam is at 1 MPa. a. Sketch the schematic diagram showing the correct state points and its components b. Sketch the T-s diagram showing the states c. Determine all enthalpies
5. Consider a steam power plant operating on the ideal Rankine cycle. The steam enters the turbine at 5 MPa, 350 °C and is condensed in the condenser at a pressure of 15 kPa. Determine the thermal efficiency of the cycle if the steam were superheated to 750 °C. Draw the schematic and Ts diagram.
A binary-vapour cycle operates on mercury and steam. Saturated mercury vapour at 4.5 bar is suppliedto the mercury turbine, from which it exhaust at 0.04 bar. The mercury condenser generates saturatedsteam at 15 bar which is expanded in a steam turbine to 0.04 bar.(i) Find the overall efficiency of the cycle.(ii) If 50000 kg/h of steam flows through the steam turbine, what is the flow through the mercuryturbine ?(iii) Assuming that all processes are reversible, what is the useful work done in the binary vapour cyclefor the specified steam flow ?(iv) If the steam leaving the mercury condenser is superheated to a temperature of 300°C in a superheaterlocated in the mercury boiler, and if the internal efficiencies of the mercury and steam turbinesare 0.85 and 0.87 respectively, calculate the overall efficiency of the cycle. The properties ofsaturatedmercury are given below :

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