Answer :
Answer:
unit =1.83
Explanation:
The cooling load is due to people, lights, and heat transfer through the walls and the windows so. The total cooling load of the room is determined from
(Equation 1) Q cooling = Q lights + Q people + Q heat gain
there fore
Q cooling = 10 x 100 W = 1 KW
Q people = 40 x 360 KJ/h = 4 KW
Q heat gain = 15.000 kJ/h = 4.17 KW
we replace the values in Equation 1
Q cooling = Q lights + Q people + Q heat gain
Q cooling = 1 + 4 +4.17
Q cooling = 9.17 KW
Thus the number of air — conditioning units required is
9.17 KW /5 KW unit =1.83
Answer:
2 air conditioning.
Explanation:
Power is the time rate at which energy is used. Its unit is in Watt or J/s.
Mathematically,
Power = Energy/time
Energy rate of 40 students = 40 * 360 kJ/hr
= 14400 kJ/hr
In J/s, 14400 kJ/hr * 1000 J/1 kJ * 1 hr/3600 s
= 4000 J/s
Energy rate of 10 bulbs = 10 * 100 W
= 1000 J/s
Energy rate of the Walls of the classroom = 15000 kJ/hr
In J/s, 15000 kJ/hr * 1000 J/1 kJ * 1 hr/3600 s
= 4166.67 J/s
Total Energy rate added = 4166.67 + 1000 + 4000
= 9166.67 J/s
Energy rate of the air conditioning = 5 kW
= 5000 J/s
To maintain the room temperature at 0 J/s,
= 2 * 5000 J/s
= 10000 J/s
10000 J/s is greater than the total Energy rate added to the room.