A standard vapor-compression cycle using Refrigerant 22 operates with acondensing temperature of 34-degree C and an evaporating temperature of -10degree C.Calculate:a. Show the P-H and T-S diagram of the cycle and discuss the condition of everystate.b. The refrigerating effect in kilojoules per kilogramc. The refrigerating capacity given the flow rate of 0.3156 kg/sd. The power required by the compressor in kilowattse. The coefficient of performancef. The volume flowrate measured at the compressor suctiong. The power per kilowatt of refrigerationh. At the entrance to the evaporator what is the fraction of vapor in the mixtureexpressed both on a mass basis and a volume basisį. Describe the COP of the cycle

as per aur company policy we have restricted to givebthe answer only first 3 subparts so please…

Answered: A standard vapor-compression cycle…

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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A. Describe the four processes, which occur in the vapor-compression-refrigeration cycle that youtested.B. How did you figure out the enthalpy at the various entry / exit stages? (I know you lookedat the chart or table provided! I understand that you may have used interpolation.) I want you toexplain briefly how you determined, what principle(s) you used to determine the enthalpy at thevarious points.Sketch a p-h diagram. On this sketch of the p-h diagram you must sketch and show SOME constanttemperature lines, constant pressure lines, constant enthalpy lines, constant entropy lines, quality factorand other significant features of the p-h diagram to show your understanding of the p-h diagram. Labelx & y axis, indicate the units, indicate the critical point. Label various regions,
please include Ps and Th diagram
B-Draw the ideal vapour compression refrigeration cycle on T-S and P-H diagrams. State all details on the diagrams and give a short explanation of each process of the cycle.
Please only answer question 4 Parts C and D
Data for steady-state operation of a vapor-compression refrigeration cycle with Refrigerant 134a as theworking fluid are given in the table below. State 1 is at the compressor inlet. The cooling capacity (i.e therate at which heat is removed from the cooled space) is 4.6 tons. 1 ton of refrigeration is equivalent to211 kJ/min. Ignoring heat transfer between the compressor and its surroundings, sketch the ?-? diagramof the cycle and determinea) the mass flow rate of the refrigerant, in kg/min.b) the isentropic compressor efficiency.c) the coefficient of performance.State ? (bar) ? (°C) ℎ (kJ/kg) ? (kJ/kg-K)

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