6) Steam enters a turbine at a pressure P-2.0MPA, temperature T1=500°C and enthalpy hi=3062 kJ/kgwith a velocity Vi=10 m/s. The steam leaves the turbine as a gas-liquid mixture at a pressureP2=101kPa, temperature T2-373 K, and enthalpy ha=2621 kJ/kg with a velocity of v2-50 m/s.Thermal energy is lost through the turbine walls at a rate of 5 kJ/hr. The elevation difference betweenthe entrance and exit of the turbine can be neglected.Calculate the power output in units of kW if 4000 kg/hr of steam pass through the turbine.%3D4ニ-13815/5ecPithz +6.2XlaメSo?2K9.813062 x103138910+ é 621 X1s*)!8א2llrel 1o0ox4.21looo X 9.812.

Given: P1=2 MPa T1=500oC h1=3062 kJ/kg v1=10 m/s P2=10 kPa h2=2621 kJ/kg v2=50 m/s Q=-5kJ/hr m=4000…

Answered: 6) Steam enters a turbine at a pressure…

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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Similar questions

Argon (100 kPa and 10 deg C) enters a compressor with a mass flowrate of 0.19 kg/s. It exits at 600 kPa and 130 deg C. The compressor has a specific heat loss of 16 kJ/kg. What is the power (kW) required for the compressor? Report your answer to 2 decimal places.
Write the expression of heat for an isothermal reversible expansion of a perfect gas from initial volume V1 to final volume V2.
R-134a enters a compressor as a saturated vapor at 80 kPa and exits at a pressure of 400 kPa. If 44 kJ/kg of work is required and 5 kJ/kg of heat is lost to the surroundings. What is the outlet temperature. Round your answer to the nearest whole number.
A mass flowrate of 1 Ibm/s of water at 80 F and 70 pisa is mixed with 1 Ibm/s of saturated vapor water at 70 psia in a mixing chamber. During this process 100 Btu/s of heat is lost from the mixing chamber to the surrounding environment. The exiting stream leaves the mixing chamber at 70 psia. In the question that follows, select the answer that is closest to the true value. What is the quality of the exiting stream ?
Steam (H2O) enters a turbine at 35 m/s and specific enthalpy of 3500 kJ/kg. Thesteam leaves the turbine as a mixture of vapor and liquid having a velocity of 60m/s and a specific enthalpy of 2400 kJ/kg. If the flow through the turbine is steady,adiabatic, and changes in elevation are negligible, calculate the work output per unitmass (kJ/kg) for the turbine.

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