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The Temperature Field within a Car Having Glass Windows Supported by Embedded Metallic Mesh, Considering the Mesh Parameters and the Heat Loss Modes
Technical Paper
2002-01-1992
ISSN: 0148-7191, e-ISSN: 2688-3627
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English
Abstract
The daily temperature variation of the car's glass windows, supported with a metallic mesh being embedded in it and subjected to incident global solar radiation is obtained.
A heat balance equation with terms considering heat losses by convection and thermal radiation is solved. A heat diffusion equation for the car's salon is also solved using Fourier sine transform technique. The effect of the mesh parameters and other main features on the salon climate are clarified through the obtained relations.
Authors
Citation
El-Adawi, M., Shalaby, S., and Behery, G., "The Temperature Field within a Car Having Glass Windows Supported by Embedded Metallic Mesh, Considering the Mesh Parameters and the Heat Loss Modes," SAE Technical Paper 2002-01-1992, 2002, https://doi.org/10.4271/2002-01-1992.Data Sets - Support Documents
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References
- Aksakal A. Rehman S. Global solar radiation in Northeastern Saudi Arabia Renewable Energy 17 461 472 1991
- El-Adawi M. K. Shalaby S.A. On the diurnal climate control within the Car's salon: New Approach Re: ATT270 2001
- Bender C.M. Orszag S.A. Advanced Mathematical Methods for scientist and engineers Int student Edition McGRAW-Hill Tokyo 20 1978
- El_Adawi M. K. Al-Nuaim I. A. Prediction of diurnal global solar irradiance on “Horizontal surface-general approach the 1 st Saudi science conference KFUPM 16 63 2001
- Munroe M.M. Estimation of totals of irradiance on a horizontal surface from UK average metrological data solar energy 24 235 1980
- Villarrubia M. Coronasm A. Liorens M. Solar radiation incident on hilted flat surfaces in Barcelona Spain Solar Energy 25 259 1980
- Leung C.T. The fluctuation of solar irradiance in Hong Kong solar Energy 25 485 1990
- El-Adawi M.K. El-Niklawi M.M. Kutut A.A. Al-Barakati G.G. Estimation of the hourly solar irradiance on a horizontal surface Solar energy 36 2 129 1986
- Shalaby S.A. Estimation of diurnal global solar irradiance on a horizontal surface-new approach India J. phys 68B 6 503 1994
- Duffiee J.A. Beckman W.A. Solar energythermal process Wiley-Interscience New York 1974
- Hartley L.E. Martinez-lazaro J.A. Utrillas M.P. Tena F. The optimization of the angle of inclination of a solar collector to maximize the incident solar radiation REVEWABLE ENERGY 17 291 1999
- Isachenko V. Osipova V. Sukomal A. Heat transfer MIR Pubisher Moscew 42 1969
- Eckert E.R.G. Drake, R.M. JR Analysis of heat and mass transfer Int. student Edition McGRAW-Hill Ltd Tokyo 167 1972
- Stephenson G. An introduction to partial equations for science students LONGMANS 121 1968
- Whitehouse A.A.K. Pritchett E.G.K. Barnett G. Phenolic resins ILIFFE London 1967