2es!Required informationA Diesel cycle has a compression ratio of 22 and begins its compression at 87 kPa and 15°C. The maximum cycletemperature is 1200°C. Utilize air-standard assumptions. The properties of air at room temperature are R = 0.2873kPa·m³/kg-K, cp= 1.005 kJ/kg⋅K, cv= 0.718 kJ/kg-K, and k=1.4.Determine the thermal efficiency of this cycle using variable specific heats at room temperature. Use data from the tables.The thermal efficiency of this cycle is

Given Data- Compression ratio r=22 P1=87KPa , T1=15'C T3=1200'C We have to find thermal efficiency

Answered: ! Required information A Diesel 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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Q1.5 (v6q9-52, Diesel) An ideal cycle has a compression ratio of 18 and a cutoff ratio of 1.5. Determine the maximum air temperature and the rate of heat addition to this cycle when it produces 200 hp of power; the cycle is repeated 1200 times per minute; and the state of the air at the beginning of the compression is 95kPa and 17C. Use constant specific heats at room temperature. Ans 1382K, 227.2kW
Consider a Diesel cycle with cold-air-standard assumptions, and compression ratio of 21. The temperature and pressure at the beginning of the compression process are 320K and 120kPa respectively. The cutoff ratio for this cycle is 1.8. The isentropic efficiency of the compression and expansion process are 85%. Determine the temperature and pressure at the end of each process of the cycle, the heat transfer per unit mass in and out of the air; qin and qout, thermal efficiency of the cycle, and the mean effective pressure of the cycle.
Temperature after the heat addition process = K Thermal efficiency =% Mean effective pressure = kpa

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