Helium is compressed through a compressor steadily. At the inlet the pressure is and the temperature is . At the exit the pressure is and the temperature is . The power input is and the heat loss rate is during this process. Neglect the kinetic and potential energy changes. Assume helium is ideal gas with a constant specific heat and its specific heat ratio , which means that enthalpy can be calculated using . Calculate the enthalpy per unit mass at the inlet _________

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  1. Helium is compressed through a compressor steadily.  At the inlet the pressure is   and the temperature is  . At the exit the pressure is    and the temperature is  .  The power input is   and the heat loss rate is   during this process.  Neglect the kinetic and potential energy changes.  Assume helium is ideal gas with a constant specific heat   and its specific heat ratio  , which means that enthalpy can be calculated using  .  Calculate the enthalpy per unit mass at the inlet   _________ 

1
Helium is compressed through a compressor steadily. At the inlet the pressure is P₁ = 100kPa and the temperature is 7₁=300K. At the exit the
pressure is P₁= 600kPa and the temperature is T₂=390K. The power input is W=5000kW and the heat loss rate is Q=1000kJ/s during
1
2
this process. Neglect the kinetic and potential energy changes. Assume helium is ideal gas with a constant specific heat c=5.1926 kJ/kg . K and its
P
inlet h
С
P
specific heat ratio k=—= 1.667, which means that enthalpy can be calculated using h=c_T. Calculate the enthalpy per unit mass at the
C
P
1
out
kJ/kg
Transcribed Image Text:1 Helium is compressed through a compressor steadily. At the inlet the pressure is P₁ = 100kPa and the temperature is 7₁=300K. At the exit the pressure is P₁= 600kPa and the temperature is T₂=390K. The power input is W=5000kW and the heat loss rate is Q=1000kJ/s during 1 2 this process. Neglect the kinetic and potential energy changes. Assume helium is ideal gas with a constant specific heat c=5.1926 kJ/kg . K and its P inlet h С P specific heat ratio k=—= 1.667, which means that enthalpy can be calculated using h=c_T. Calculate the enthalpy per unit mass at the C P 1 out kJ/kg
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