Answer:
a) the coefficient of performance of the air conditioner is 3.5729
b)
- the power input required for a reversible air conditioner is 0.645 hp
- the coefficient of performance for the reversible air conditioner is 18.2759
Explanation:
Given the data in the question;
Lower Temperature [tex]T_L[/tex] = 70°F = ( 70 + 460 )R = 530 R
Higher Temperature [tex]T_H[/tex] = 99° F = ( 99 + 460 )R = 559 R
Cooling Load [tex]Q_L[/tex] = 30000 Btu/h
we know that 1 hp = 2544.43 Btu/h
Net power input P = 3.3 hp = ( 3.3 × 2544.43 )Btu/h = 8396.619 Btu/h
a)
Coefficient of performance of the air conditioner;
[tex]COP_{air-condition[/tex] = Cooling Load [tex]Q_L[/tex] / power P
we substitute
[tex]COP_{air-condition[/tex] = 30000 Btu/h / 8396.619 Btu/h
[tex]COP_{air-condition[/tex] = 3.5729
Therefore, the coefficient of performance of the air conditioner is 3.5729
b)
- Power input required ( in hp )
[tex]Q_L[/tex] / [tex]P_{required[/tex] = [tex]T_L[/tex] / ( [tex]T_H[/tex] - [tex]T_L[/tex] )
we substitute
30000 Btu/h / [tex]P_{required[/tex] = 530 R / ( 559 R - 530 R )
30000 Btu/h / [tex]P_{required[/tex] = 530 R / 29 R
we solve for [tex]P_{required[/tex]
[tex]P_{required[/tex] = ( 30000 Btu/h × 29 R ) / 530 R
[tex]P_{required[/tex] = ( 870000 Btu/h / 530 )
[tex]P_{required[/tex] = 1641.5094 Btu/h
we know that; 1 hp = 2544.43 Btu/h
so;
[tex]P_{required[/tex] = ( 1641.5094 / 2544.43 ) hp
[tex]P_{required[/tex] = 0.645 hp
Hence, the power input required for a reversible air conditioner is 0.645 hp
- the coefficient of performance for the reversible air conditioner;
[tex]COP_{rev-air-condition[/tex] = [tex]T_L[/tex] / ( [tex]T_H[/tex] - [tex]T_L[/tex] )
we substitute
[tex]COP_{rev-air-condition[/tex] = 530 R / ( 559 R - 530 R )
[tex]COP_{rev-air-condition[/tex] = 530 R / 29 R
[tex]COP_{rev-air-condition[/tex] = 18.2759
Hence, the coefficient of performance for the reversible air conditioner is 18.2759
