Project 110020.150200250300350400450500550600650CUPONTHFC-134a700200.0.0016 1-0001810.Pressure-Enthalpy0.00140001240.00208.0.0030100.80.6.Diagramvolume-0.0040 mikg(SI Units)0.00600 00800.01060.40.2.0.0150 02020.00300.80.04010.8.0.60.0600.46.0 0800100.20.150202.0.10.080.300.401.0.80.060600.040.6O801.00.40.021.5200.20.01100150200 250300350400 4500.1700500 550600650Enthalpy (kJ/kg)Refrigerant HFC-134a as the working fluid- Ideal cycle operation condition is assumedCycle is operated at high pressure line of 0.8 MPaCycle is operated at low temperature line of – 10° C- Flow rate is 0.1 kg/secThe head of the department in the company that you are working in asked you to make use of pressure -enthalpy chart provided for HFC-134a refrigeranta. Construct didactic sketches, showing the operating principles of a refrigeration systemPressure (bar)4.-Dozz -auneadu H061 ta091 Ti100006 0- --- 99'O094.Pressure (MPa)

A thermal cycle used to produce a cooling effect is called a refrigeration cycle. A Carnot…

Answered: Refrigerant HFC-134a as the working…

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

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Problem 2: Win High-pressure liquid water (Pump Boiler Condenser à out Low-pressure liquid water FIGURE 7-1 Example of a power cycle. High-pressure steam 3 Turbine Wout Low-pressure superheated vapor or high-quality two-phase mixture A simple steam power cycle consists of a boiler, turbine, condenser, and pump as shown in the sketch above. All the heat removal in the cycle is done by the condenser which transfers the heat to pipes carrying cooling water. The cooling water has a mass flow rate of 7 kg/sec, and a specific heat of 4,180 J/kg-°C. The cooling water is supplied at a temperature of 10 °C and exits at 20 °C. Heat is supplied to the cycle through a steam boiler at a rate, Ċin = 420 kW. Find the following: a. The rate at which heat is rejected from the cycle to the cooling water, Qout- b. The net power produced in kilowatts, Wnet- c. The cycle efficiency, cycle.
An engine operating on the Otto cycle principle has an initial compression temperature of 675°C and a compression ratio of 8. The pressure at this condition is 100 kPa and the cylinder volume is 0.028 m³. The maximum temperature that can be achieved by the system is 4500°C. a.)Calculate the temperature and pressure at each end of the process (point), B. thermal efficiency, C. MEP
Power generation using steam is one of the most common method which can be found around the world. In these type of power plants, steam goes through a basic thermodynamic cycle called Rankine cycle which is shown in the following figure. Steam flow Boiler Qin Pump Wout Win Condenser •Qout For the proper operation of the cycle, water should be pumped to the boiler using pump which required work input (Wm) generate steam and then high pressure steam is fed to the turbine. By extracting the energy from high pressure steam, turbine is producing work output (Wout). Because of this, the steam pressure is reduced and low pressure steam is flowing into the condenser. Condenser removes heat energy from steam further (Qout) and steam is converted into liquid water. The liquid water can be pumped into the boiler again and the cycle continues. Performance of a Ranking cycle can be evaluated by using thermal efficiency (nth)which is determined from; the cycle. Heat energy should be supplied to the…

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