Consider an adiabatic humidification system shown below. The humidifying efficiency is E = 0.8, the air flow rate is 2 L/s,m² and the temperature rise in the supply air fan (2–→3) is 1°C. T. FOOM The heat load into the room q [W/m²] is defined on the basis of the room temperature as: q = 35 Troom 22 °C T- 22 q = 35x| 22 °C < Trom< 40 °C 18 q = 0 Troom 2 40 °C Based on the room's hourly heat balance calculate the maximum room temperature (Troom) and the number of hours (within a 72 hour-period), when the room temperature exceeds 25°C. Examine both the case with the humidifier (State 2 # State 1) and without it (State 2 = State 1). Hourly inlet temperature and relative humidity (State 1) is provided as a separate data file (LA3_Data).
Consider an adiabatic humidification system shown below. The humidifying efficiency is E = 0.8, the air flow rate is 2 L/s,m² and the temperature rise in the supply air fan (2–→3) is 1°C. T. FOOM The heat load into the room q [W/m²] is defined on the basis of the room temperature as: q = 35 Troom 22 °C T- 22 q = 35x| 22 °C < Trom< 40 °C 18 q = 0 Troom 2 40 °C Based on the room's hourly heat balance calculate the maximum room temperature (Troom) and the number of hours (within a 72 hour-period), when the room temperature exceeds 25°C. Examine both the case with the humidifier (State 2 # State 1) and without it (State 2 = State 1). Hourly inlet temperature and relative humidity (State 1) is provided as a separate data file (LA3_Data).
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![Consider an adiabatic humidification system shown below. The humidifying efficiency is
E = 0.8, the air flow rate is 2 L/s,m² and the temperature rise in the supply air fan (2→3)
is 1°C.
T
room
The heat load into the room q [W/m²] is defined on the basis of the room temperature as:
q = 35
Troom < 22 °C
– 22
q =35×|1-room
18
22 °C < Troom< 40 °C
q = 0
Troom2 40 °C
Based on the room's hourly heat balance calculate the maximum room temperature (Troom)
and the number of hours (within a 72 hour-period), when the room temperature exceeds
25°C. Examine both the case with the humidifier (State 2 + State 1) and without it
(State 2 = State 1). Hourly inlet temperature and relative humidity (State 1) is provided
as a separate data file (LA3_Data).](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F7a885bcd-24bb-4221-93f9-b36a653b960d%2F36fa480c-b284-4c2b-9f31-e55841c1e573%2Fzobovf4_processed.png&w=3840&q=75)
Transcribed Image Text:Consider an adiabatic humidification system shown below. The humidifying efficiency is
E = 0.8, the air flow rate is 2 L/s,m² and the temperature rise in the supply air fan (2→3)
is 1°C.
T
room
The heat load into the room q [W/m²] is defined on the basis of the room temperature as:
q = 35
Troom < 22 °C
– 22
q =35×|1-room
18
22 °C < Troom< 40 °C
q = 0
Troom2 40 °C
Based on the room's hourly heat balance calculate the maximum room temperature (Troom)
and the number of hours (within a 72 hour-period), when the room temperature exceeds
25°C. Examine both the case with the humidifier (State 2 + State 1) and without it
(State 2 = State 1). Hourly inlet temperature and relative humidity (State 1) is provided
as a separate data file (LA3_Data).
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