Q1 Figure Q1, A turbo-compressor supplies power to the air-condition unit (hea pump) with 798,22kw. Calculate the volume per minute of the gas operatin through the unit where the density is 1 lb/ft³. Given Data: Atmospheric temperature = T₁= 520°R Compressor gas temperature T607°R Cp=0.539, J=778J/S, Conversion factor =33000.0 One-hours power = 746 watts. TH

Elements Of Electromagnetics
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Q1
Figure Q1, A turbo-compressor supplies power to the air-condition unit (heat
pump) with 798,22kw. Calculate the volume per minute of the gas operating
through the unit where the density is 1 Ib/ft'.
Given Data:
Atmospheric temperature = T= 520°R
Comprešsor gas temperature T-607°R
Cp=0.539, J=778J/S, Conversion factor =33000.0
One-hours power 746 watts.
TH
QH
Figure Q1 Heat- pump unit
HP
798.22kw
TL
Q2
Figure Q2, A turbo-compressor supplies power to the air-condition unit
(Refrigerant) with 900.0 kw. Calculate the volume per minute of the gas
operating through the unit where the density is 1 Ib/ft'.
Given Data:
TH
Atmospheric temperature 520°R
Compressor gas temperature 607°R
Cp=0.539, J=778J/S, Conversion factor =33000.0
One-hours power 746 watts.
QH
900.0kw
Figure (Q2), Refrigerant unit
TL
Transcribed Image Text:Q1 Figure Q1, A turbo-compressor supplies power to the air-condition unit (heat pump) with 798,22kw. Calculate the volume per minute of the gas operating through the unit where the density is 1 Ib/ft'. Given Data: Atmospheric temperature = T= 520°R Comprešsor gas temperature T-607°R Cp=0.539, J=778J/S, Conversion factor =33000.0 One-hours power 746 watts. TH QH Figure Q1 Heat- pump unit HP 798.22kw TL Q2 Figure Q2, A turbo-compressor supplies power to the air-condition unit (Refrigerant) with 900.0 kw. Calculate the volume per minute of the gas operating through the unit where the density is 1 Ib/ft'. Given Data: TH Atmospheric temperature 520°R Compressor gas temperature 607°R Cp=0.539, J=778J/S, Conversion factor =33000.0 One-hours power 746 watts. QH 900.0kw Figure (Q2), Refrigerant unit TL
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