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A large truck drives down the highway at 10 m/s hauling a rectangular trailer that is 6 m long, 2 m wide, and 2 m tall. The trailer contains frozen food and is therefore temperature-controlled. Its external surface can be approximated to be a consistent 15°C, while the outside air is at 20°C. Assume the heat transfer on the front, back, and bottom of the trailer is negligible.

a) How much cooling power must be provided to maintain the temperature-controlled trailer? (i.e., What is the total heat transfer rate from the air to the trailer)?

b) What is the minimum local heat transfer coefficient on the surface of the trailer? Where does the minimum occur?

c) What percentage of the total heat transfer is occurring over a laminar boundary layer?

d) If the cooling system can only provide 5 kW of cooling, what is the fastest speed that this truck can drive while still adequately maintaining the temperature within the trailer?

Answer :

Answer:

3w/m²k

Explanation:

Base on the scenario been described in the question, the solution to the given problem solve in the file attached below

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