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Abdelkhalak El Hami - Heat Transfer 2

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Название:
Heat Transfer 2
Автор:
Abdelkhalak El Hami
Жанр:
unrecognised / на английском языке
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неизвестен
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Heat Transfer 2: краткое содержание, описание и аннотация

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Heat is a branch of thermodynamics that occupies a unique position due to its involvement in the field of practice. Being linked to the management, transport and exchange of energy in thermal form, it impacts all aspects of human life and activity. <p>Heat transfers are, by nature, classified as conduction, convection (which inserts conduction into fluid mechanics) and radiation. The importance of these three transfer methods has resulted – justifiably – in a separate volume being afforded to each of them. This second volume is dedicated to radiation. After recalling photometry, the calculation of luminance is addressed using the theory of the black body and associated laws: Stefan, Wien. The reciprocal radiation of two surfaces in total influence is discussed extensively, and the case of finished surfaces is also considered. <p>Heat Transfer 2 combines a basic approach with a deeper understanding of the discipline and will therefore appeal to a wide audience, from technician to engineer, from doctoral student to teacher-researcher.

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Figure 6.9. Model using ANSYS with loads and conditionsFigure 6.10. Result of mixing conditions (convection/conduction/isolation)Figure 6.11. TransistorFigure 6.12. Results of the temperature evolving at the initial stateFigure 6.13. Results of the temperature evolving after 30 secondsFigure 6.14. Results of the temperature evolving after 60 secondsFigure 6.15. Results of the temperature evolving after 105 secondsFigure 6.16. Results of the temperature evolving after 240 secondsFigure 6.17. Results of the temperature evolving at the end of our study (T=300 ...Figure 6.18. Evolution of the temperature according to time for the central node...Figure 6.19. Model for the thermal studyFigure 6.20. Geometry of our meshed modelFigure 6.21. Model under loadsFigure 6.22. Temperature distribution in the ovenFigure 6.23. Thermal fluxes present in the walls of the ovenFigure 6.24. Graph representing the variation in temperature according to the se...Figure 6.25. Geometry studied: a reservoir intersected by a tubeFigure 6.26. Quarter geometryFigure 6.27. Meshed geometry with a fine mesh (level size = 1)Figure 6.28. Modeling loads on our model (with arrows)Figure 6.29. Temperature distribution in our systemFigure 6.30. Distribution of heat flux vectors at the intersection between the r...Figure 6.31. Construction of the cylinder on a 3D model using ANSYS WorkbenchFigure 6.32. Mesh of the cylinderFigure 6.33. Application of the study conditions on the cylinderFigure 6.34. Results of temperatures in stationary thermics on the cylinderFigure 6.35. Results of the directional heat fluxes in thermal stationary on the...Figure 6.36. Construction of a puck on a 3D model from ANSYS Workbench. The view...Figure 6.37. Applying convection on the puckFigure 6.38. Results in transitory thermal obtained on the puck after 30 secondsFigure 6.39. Results in transitory thermal obtained on the puck after 10,000 sec...Figure 6.40. Temperature results in thermal transitory on the thermal exchangerFigure 6.41. Results of heat flux in thermal transitory on the thermal exchangerFigure 6.42. Parameterizing of a heat flux to simulate the heat extricated by an...Figure 6.43. Parameterizing a convectionFigure 6.44. Parameterizing the radiationFigure 6.45. Development of a mesh with ANSYS WorkbenchFigure 6.46. Temperature versus time for a simulation without a PCMFigure 6.47. Temperature results for the hydrated PCM salt with a heat flux of 1...Figure 6.48. Representation of heat on the thermal exchanger (seen from below)Figure 6.49. Representation of heat on the thermal exchanger seen from above)Figure 6.50. Temperature results for paraffin as a MCP with a heat flux of 1,200...Figure 6.51. Graphical representation of the different heat fluxes applied for h...Figure 6.52. Graphical representation of the different heat fluxes applied for p...Figure 6.53. Comparison of the three models

Guide

1 Cover

2 Table of Contents

3 Title Page Mathematical and Mechanical Engineering Set coordinated by Abdelkhalak El Hami Volume 10

4 Copyright First published 2021 in Great Britain and the United States by ISTE Ltd and John Wiley & Sons, Inc. Apart from any fair dealing for the purposes of research or private study, or criticism or review, as permitted under the Copyright, Designs and Patents Act 1988, this publication may only be reproduced, stored or transmitted, in any form or by any means, with the prior permission in writing of the publishers, or in the case of reprographic reproduction in accordance with the terms and licenses issued by the CLA. Enquiries concerning reproduction outside these terms should be sent to the publishers at the undermentioned address: ISTE Ltd 27-37 St George’s Road London SW19 4EU UK www.iste.co.uk John Wiley & Sons, Inc. 111 River Street Hoboken, NJ 07030 USA www.wiley.com © ISTE Ltd 2021 The rights of Michel Ledoux and Abdelkhalak El Hami to be identified as the authors of this work have been asserted by them in accordance with the Copyright, Designs and Patents Act 1988. Library of Congress Control Number: 2020949611 British Library Cataloguing-in-Publication Data A CIP record for this book is available from the British Library ISBN 978-1-78630-517-6

5 Preface

6 Introduction

7 Begin Reading

8 Appendix: G0−λT Function Table

9 References

10 Index

11 End User License Agreement

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Mathematical and Mechanical Engineering Set

coordinated by

Abdelkhalak El Hami

Volume 10

Heat Transfer 2

Radiative Transfer

Michel Ledoux