In this question se have to find the interior surface temperature
Question 35: Compute the inside surface temperature of a window with a thermal conductance of U-SI...
Consider an ocean-facing room in a high-rise building (L/W of 1). The ocean-facing wall (with window) is 10m by 4 m, contains two windows (3m by 1m, each). Assume the room is located 30 m above the neutral pressure level and the inside air temperature is maintained at 24°C with RH of 50%. Outside air is of 35°C with RH of 60%. Assume the convective heat transfer coefficients on inner side and outer side of the wall and window are 0.5 and...
Thermal Resistance Analysis: Consider a 1.2 m high and 1.4 m wide double-pane window consisting of two 4 mm thick layers ofglass (k-0.85 W m-K) separated by a 8-min stagnant air space. (k= 0.025 W m-K) Determine the steady rate of heat transfer through this double-pane window and the temperature of its inner and outer surfaces on a day when the inside room temperature is maintained at 20 °C and the outside ambient temperature is 32 °C. Assume the convection...
Consider a 1.2-m-high and 2-m-wide double-pane window consisting of two 3-mm-thick layers of glass (k = 0.78 W/m K) separated by a 12-mm-wide stagnant air space (k = 0.026 W/m K). Determine the steady rate of heat transfer through this double-pane window. R . and all the surface temperatures (inner and outer of each pane) within the circuit (which you will draw and correctly label) for a day during which the room is maintained at 24°C while the temperature of...
To defog therear window of an automobile, a very thintransparent heating element is attached to the inner surface of the window. A Uniformheat flux of 1300 W/m2 is provided to the heating element for defogging a rear windowwith thickness of 5 mm. The interior temperature of the automobile is 22°C and theconvection heat transfer coefficient is 15 W/m2·K. The outside ambient temperature is−5°C and the convection heat transfer coefficient is 100 W/m2·K. If the thermalconductivity of the window is 1.2...
5) A certain automobile has a 4 mm thick glass window with a surface area of 2.8 m². The outside temperature is 32°C while the passenger compartment is maintained at 22°C. The convection heat transfer coefficient on the exterior window surface is h = 90 W/(m²K). Determine the heat gain through the windows when the interior convection heat transfer coefficient is h = 15 W/(m²K). By controlling the air flow in the passenger compartment the interior heat transfer coefficient can...
(25pts) Consider a 1.2-m-high and 2-m-wide glass window whose thickness is 6 mm and thermal conductivity is k 0.78 W/m °C. Determine the steady rate of heat transfer through this glass window and the temperature of its inner surface for a day during which the room is maintained at 24°C while the temperature of the outdoors is-5°C. Take the convection heat transfer coefficients on the inner and outer surfaces of the window to be h 10 W/m2 °C and h...
4.- The temperature inside a room is 25°C. There is a single glass window of 1 m. Outsid temperature is 4°C. The convective coefficient outside the room is 20 W/m-K, and inside the is 10 W/mK. In order to reduce a 90% the heat flux, it is possible to install a new window with double gli an air chamber between the glasses. Evaluate the thickness of the air chamber between glasses The thickness of the glasses is 2 cm Thermal...
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part B with matlab code
The rear window of an automobile is defogged by attach ing a thin, transparent, film-type heating element to its inner surface. By electrically heating this element, a uni- form heat flux may be established at the inner surface For 4-mm-thick window glass, determine the electrical power required per unit window area to maintain arn inner surface temperature of 15°C when the interior air temperature and convection coefficient are To 25°C and hi = 10...
5 A hollow sphere of inside radius 30 mm and outside radius 50 mm is (5 electrically heated at its inner surface at a constant rate of 10 KW/m2. The outer surface is exposed to a fluid at 30°C, with heat transfer coefficient of 170 W/m2.K. The thermal conductivity of the material is 20 W/m.K. Calculate *.inner and outer surface temperatures 301.5°C Not all the above 30.15°C. 57.14'c. O 60.14'c. O تقع The handle of a saucepan, 30 cm long...
The upper surface of a 60-cm-thick solid plate (k = 237 W/m.K) is being cooled by water with temperature of 20°C. The upper and lower surfaces of the solid plate maintained at constant temperatures of 60°C and 120°C, respectively. Given: The thermal conductivity of the solid plate is given as k= 237 W/m.K. (T1+T) The thermal conductivity of water at the film temperature of Tf =(60°C + 20°C)/2 = 40°C is kfluid = 0.631 W/m.K. = 2 1. value: 3.00...