- #1
qsz
- 2
- 0
I posted this somewehre else, but perhaps this is a better location:
Hey guys I'm trying to prepare for an exam, and I've come across a question I have no idea how to do.
I can draw the diagram and all but I'm at loss as to how i'd go about solving this. The lecturers do not give us solutions, let alone worked solutions, so if someone could help me out here (a worked solution of some sort would be great, but that's probably asking too much)
My question is as follows:
A cold room is to be erected above ground inside a building and maintained at -20°C when the building is at 21°C. The cold room shell will have an effective surface area of 500m2, constructed with two layers: one 60mm thick with conductivity 0.42 W/m.K, the other 125mm thick with conductivity 0.05 W/m.K. When operating, 400 kg/hr of frozen food with a specific heat of 3.85 kJ/kg.K is to be brought into the room at -11°C and brought to room temperature. Fans and lights consume 9.5 kW of electrical energy within the room. Assuming heat transfer through the shell depends only upon its conductivity, draw a diagram showing the various energy flows, and calculate the:
a. rate of heat flow through the cold room shell;
b. heat load caused by the frozen food;
c. rate of heat removal required to maintain the cold room temperature;
d. minimum power required to pump the heat from the room to the building.
And just to show it's not an assignment question or anything, here is the link to the past paper.. It's question A4
http://www.mech.uwa.edu.au/unit/MECH2403/tf_exams/tf_pastexams/papers/tf_pt2nov05.htm
Help would be greatly appreciated guys :) It's probably a walk in the park for you physicists
Hey guys I'm trying to prepare for an exam, and I've come across a question I have no idea how to do.
I can draw the diagram and all but I'm at loss as to how i'd go about solving this. The lecturers do not give us solutions, let alone worked solutions, so if someone could help me out here (a worked solution of some sort would be great, but that's probably asking too much)
My question is as follows:
A cold room is to be erected above ground inside a building and maintained at -20°C when the building is at 21°C. The cold room shell will have an effective surface area of 500m2, constructed with two layers: one 60mm thick with conductivity 0.42 W/m.K, the other 125mm thick with conductivity 0.05 W/m.K. When operating, 400 kg/hr of frozen food with a specific heat of 3.85 kJ/kg.K is to be brought into the room at -11°C and brought to room temperature. Fans and lights consume 9.5 kW of electrical energy within the room. Assuming heat transfer through the shell depends only upon its conductivity, draw a diagram showing the various energy flows, and calculate the:
a. rate of heat flow through the cold room shell;
b. heat load caused by the frozen food;
c. rate of heat removal required to maintain the cold room temperature;
d. minimum power required to pump the heat from the room to the building.
And just to show it's not an assignment question or anything, here is the link to the past paper.. It's question A4
http://www.mech.uwa.edu.au/unit/MECH2403/tf_exams/tf_pastexams/papers/tf_pt2nov05.htm
Help would be greatly appreciated guys :) It's probably a walk in the park for you physicists
Last edited by a moderator:
