Evaluate the total rate of heat transfer to the cold plate


Discuss the below:

Q: A cold plate is an active cooling device that is attached to a heat-generating system in order to dissipate the heat while maintaining the system at an acceptable temperature. It is typically fabricated from a material of high thermal conductivity, k cp ' within which channels are machined and a coolant is passed. Consider a copper cold plate of height H and width W on a side, within which water passes through square channels of width w = h. The transverse pacing between channels S is twice the spacing between the sidewall of an outer channel and the sidewall of the cold plate.

Consider conditions for which equivalent heat-generating systems are attached to the top and bottom of the cold plate, maintaining the corresponding surfaces at the same temperature Ts. The mean velocity and inlet temperature of the coolant are um and Tm,i respectively.

(a) Assuming fully developed turbulent flow throughout each channel, obtain a system of equations that may be used to evaluate the total rate of heat transfer to the cold plate, q, and the outlet temperature of the water, Tm,n in terms of the specified parameters.

(b) Consider a cold plate of width W = 100 mm and height H = 10 mm, with 10 square channels of width w = 6 mm and a spacing of d = 4 mm between channels. Water enters the channels at a temperature of Tm,i = 300 K and a velocity of um = 2 m/s. If the top and bottom cold plate surfaces are at Ts = 360 K, what is the outlet water temperature and the total rate of heat transfer to the cold plate? The thermal conductivity of the copper is 400 W/m · K, while average properties of the water may be taken to be p = 984 kg/m3, cp = 4184 J/kg · K µ = 489 x 10-6 N · s/m2, k = 0.65 W/m · K, and Pr = 3.15.Is this a good cold plate design? How could its performance be improved?

2022_Cold plate.jpg

Request for Solution File

Ask an Expert for Answer!!
Mechanical Engineering: Evaluate the total rate of heat transfer to the cold plate
Reference No:- TGS01995975

Expected delivery within 24 Hours