An engineered passive radiative cooler coating is placed under the Sun. Provided the following simplified spectral emissivity/absorptivity plot below, calculate the total diffuse emissivity and absorptivity if its uniform surface temperature is a Ts=20°C. Assume the Sun's irradiation onk Earth is Gsun=1380 W/m2 and its blackbody temperature is Tsun= 5800K. Ignore the radiation from the atmosphere (surroundings). Selectively emitthermal radiationReflectsunlightWACooler30° tiltRoof bEmissivity/absorptivityEmissivity/absorptivity0.750.50.2502.50.750.50.255OL2.5 5Atmospherictransmittance8 1013Wavelength (um)810 13Wavelength (um)2020

Given Data: Gsun=1380 W/m2Tsun=5800 KTs=20°C=293 K Find: Calculate the total diffuse emissivity and…

Answered: An engineered passive radiative cooler…

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

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An engineered passive radiative cooler coating is placed under the Sun. Provided the following simplified spectral emissivity/absorptivity plot below, calculate the total diffuse emissivity and absorptivity if its uniform surface temperature is a T_s=20°C. Assume the Sun's irradiation onk Earth is G_sun=1380 W/m² and its blackbody temperature is T_sun= 5800K. Ignore the radiation from the atmosphere (surroundings).

Selectively emit
thermal radiation
Reflect
sunlight
WA
Cooler
30° tilt
Roof

b
Emissivity/absorptivity
Emissivity/absorptivity
0.75
0.5
0.25
0
2.5
0.75
0.5
0.25
5
OL
2.5 5
Atmospheric
transmittance
8 10
13
Wavelength (um)
8
10 13
Wavelength (um)
20
20

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Using a polynomial equation solver, determine the steady-state surface temperature (T_s) of the passive radiative cooler below that is exposed to a windy convective enviroment h=40 W/m²*K and T_∞= 25°C. The surrounding atmosphere is fixed at T_sur= 10°C. Set up the energy balance/conservation equation.

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