6. Steam at a pressure of 15 bar and dryness fraction 0.97 is discharged through a convergent-divergent nozzle to a back pressure of 0.2 bar. The mass flow rate is 9 kg/kWh. If the power developed is 220 kW determine. a Throat pressure b. Number of nozzles required if each nozzle has a throat of rectangular cross section of 4mm X 8mm. ¢. If 12% of the overall isentropic enthalpy drop reheats the steam by friction in the divergent portion, find the cross section of the exit rectangle. 5 e e e oy (a0 e oy S oy Steam at a pressure of 15 bar and dryness fraction 0.97 is discharged through aconvergent-divergent nozzle to a back pressure of 0.2 bar. The mass flow rate is9 kg/kWh. If the power developed is 220 kW determine.6.a. Throat pressureb. Number of nozzles required if each nozzle has a throat of rectangular [cross section of 4mm X 8mm.c. If 12% of the overall isentropic enthalpy drop reheats the steam byfriction in the divergent portion, find the cross section of the exitrectangle.250°C I exnands in the

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Steam at a pressure of 15 bar and dryness fraction 0.97 is discharged through a convergent-divergent nozzle to a back pressure of 0.2 bar. The mass flow rate is 9 kg/kWh. If the power developed is 220 kW determine. a. Throat pressure 6. nd if aach nozzle has a throat of rectangular

Steam at a pressure of 15 bar and dryness fraction 0.97 is discharged through a convergent-divergent nozzle to a back pressure of 0.2 bar. The mass flow rate is 9 kg/kWh. If the power developed is 220 kW determine. a. Throat pressure 6. nd if aach nozzle has a throat of rectangular

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Question

6. Steam at a pressure of 15 bar and dryness fraction 0.97 is discharged through a convergent-divergent nozzle to a back pressure of 0.2 bar. The mass flow rate is 9 kg/kWh. If the power developed is 220 kW determine. a Throat pressure b. Number of nozzles required if each nozzle has a throat of rectangular cross section of 4mm X 8mm. ¢. If 12% of the overall isentropic enthalpy drop reheats the steam by friction in the divergent portion, find the cross section of the exit rectangle. 5 e e e oy (a0 e oy S oy