Volume 2, Issue 6, December 2017, Page: 63-67
Analysis of Mathematical Models and Influence of Constructions of High Efficient Heat Transfer Devices
Alijon Abdiraupovich Kholikov, Bukhara Engineering-Technological Institute, Bukhara, Republic of Uzbekistan
Hamrokul Kuvandikovich Sayidov, Bukhara Engineering-Technological Institute, Bukhara, Republic of Uzbekistan
Murodjon Hamidjonovich Beshimov, Bukhara Engineering-Technological Institute, Bukhara, Republic of Uzbekistan
Received: Mar. 20, 2017;       Accepted: Nov. 11, 2017;       Published: Dec. 13, 2017
DOI: 10.11648/j.mma.20170206.12      View  1544      Downloads  63
Abstract
According to the research on mathematical model of the influence of constructions of porosity of the wick depending on diameter of the wires and impact of porosity, as well as factors such as distilled water and alcohol on coefficient of thermal conductivity, on coefficient of heat transfer devices. The conducted analysis of the parameters of influence of constructions of high efficient heat transfer device (HEHTD or thermal pipes) on power of density of the heat flow. The carried out calculations are necessary for making average temperature heat transfer devices.
Keywords
The Heat Pipe, Porosity, Thermal Conductivity, Water, Wick
To cite this article
Alijon Abdiraupovich Kholikov, Hamrokul Kuvandikovich Sayidov, Murodjon Hamidjonovich Beshimov, Analysis of Mathematical Models and Influence of Constructions of High Efficient Heat Transfer Devices, Mathematical Modelling and Applications. Vol. 2, No. 6, 2017, pp. 63-67. doi: 10.11648/j.mma.20170206.12
Copyright
Copyright © 2017 Authors retain the copyright of this article.
This article is an open access article distributed under the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0/) which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
Reference
[1]
P. D. Dunn, D. A. Reay. Heat Pipes. Pergamon Press, Oxford, New York, Toronto, Sydney, Paris, Braunschweig, 1976. - 272 page.
[2]
S. W. Chi. Heat Pipe Theory and Practice A Sourcebook. Hemisphere Pub. Corp. in Washington. 1976, 242 page.
[3]
Stabnikov V. N., Lisyanskiy V. M., Popov V. D. Processes and machinery of production.:-М.: Agropromizdat, 1985 - 512 page.
[4]
http://www.trizminsk.org/e/21102100.htm.
[5]
http://engineeringsystems.ru/teploviye-trubi.
[6]
Safarov A. F., Gafurov K. Kh., Khikmatov D. N., Kholikov А. А. Energy-saving technologies in the processing of fruits and vegetables. Bukhara. Publ: Durdona, 2013. -248 page.
[7]
Ginzburg А. S. Fundamentals of the theory and technology of drying food products. - M.: Food industry. 1973. - 528 page.
[8]
Ginzburg А. S. Calculation and design of plants of food drying industry. М.: 1985y. page.16.
[9]
D. Reay, D. Macmichael. Heat pumps. Design and Applications. Pergamon press, Oxford, 1979. - 222 page.
[10]
David P. DeWitt, Theodore L. Bergman, Frank P. Incropera, Adrienne S. Lavine Introduction to Heat Transfer 2011.
[11]
E. R. G. Eckerst, R. M Drake – Analysis of heat transfer 1986.
[12]
R. Rudramoorthy - Thermal Engineering 2017.
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