Advances in enhanced heat transfer--1985
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Advances in enhanced heat transfer--1985 presented at the 23rd National Heat Transfer Conference, Denver, Colorado, August 4-7, 1985 by National Heat Transfer Conference (23rd 1985 Denver, Colo.)

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Published by American Society of Mechanical Engineers in New York, N.Y. (345 E. 47th St., New York 10017) .
Written in English

Subjects:

  • Heat -- Transmission -- Congresses.

Book details:

Edition Notes

Statementsponsored by the Heat Transfer Division, ASME ; edited by S.M. Shenkman ... [et al.].
SeriesHTD ;, vol. 43, HTD (Series) ;, v. 43.
ContributionsShenkman, S. M., American Society of Mechanical Engineers. Heat Transfer Division.
Classifications
LC ClassificationsTJ260 .N36 1985
The Physical Object
Paginationv, 107 p. :
Number of Pages107
ID Numbers
Open LibraryOL2624525M
LC Control Number85192686

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Principles of Enhanced Heat Transfer pages This book is The book presents results pages Advances in Enhanced Heat Transfer Presented at the 23rd National Heat Transfer Conference, Denver, Colorado, August , PSU Heat Size: 73KB. Introduction to Enhanced Heat Transfer Saha, S.K., Ranjan, H., Emani, M.S., Bharti, A.K. This Brief stands as a primer for heat transfer fundamentals in heat transfer enhancement devices, the definition of heat transfer area, passive and active enhancement techniques and their potential and benefits and commercial applications. Abstract. This lecture provides a general introduction to the subject of the Institute. Introductory remarks are made about heat transfer enhancements, surface augmentation or intensification in heat by: 2.   Bergles AE, Webb RL () A guide to the literature on convective heat transfer augmentation, in advances in enhanced heat transfer - , ASME, HTD Vol. 43, pp. 81–90 Google Scholar Bishara F, Jog MA, Manglik RM () Heat transfer and pressure drop of periodically fully developed swirling laminar flows in twisted tubes with elliptical Author: Sujoy Kumar Saha, Hrishiraj Ranjan, Madhu Sruthi Emani, Anand Kumar Bharti.

Comparative Experimental Performance of High-Finned Tubes in Staggered Equilateral and Equivelocity Layouts Max Monheit Engineering Development, Hudson Products Corporation, Houston, Texas 1This paper evaluates the effect of the geometry pattern used in the equive- locity layout on the thermal hydraulic performance of a bank of high-finned tubes of the type used in air-cooled heat by: 1. Effect of perforated twisted-tapes with parallel wings on heat tansfer enhancement in a heat exchanger tube. Enhanced Heat Transfer ; Advances in enhanced heat transfer: The heat transfer and the pressure drop characteristics of laminar flow of viscous oil ( Cited by:   A comprehensive analysis of the pressure-gradient driven flow in a meandering channel has been presented. This geometry is of interest as it can be used for the creation of streamwise vortices which magnify the transverse transport of scalar quantities, e.g. heat by: 7.

A 'read' is counted each time someone views a publication summary (such as the title, abstract, and list of authors), clicks on a figure, or views or downloads the full-text. Advances in the LIBS measurements at our laboratory of lasers and new materials in the physics department at the faculty of science – Cairo University were achieved by studying the X-ray/particle emission from plasmas produced by laser irradiating nano-srtuctured targets, Hegazy et al.. In this experiment, nano-copper structures evaporated Cited by: International Journal of Heat and Mass Transfer is the vehicle for the exchange of basic ideas in heat and mass transfer between research workers and engineers throughout the world. It focuses on both analytical and experimental research, with an emphasis on contributions which increase the basic understanding of transfer processes and their. The unsteady natural convection heat transfer of nanofluid along a vertical plate embedded in porous medium is investigated. The Darcy-Forchheimer model is used to formulate the problem. Thermal conductivity and viscosity models based on a wide range of experimental data of nanofluids and incorporating the velocity-slip effect of the Cited by: