Essentials of heat transfer :: principles, materials, and applications /
"This textbook teaches students the principles, materials, and applications they need to understand and analyze heat transfer problems they will encounter in practice. The emphasis on modern practical problems (including thermoelectric cooling), in the numerous examples, sets this work apart fr...
Gespeichert in:
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| Format: | Elektronisch E-Book |
| Sprache: | English |
| Veröffentlicht: |
Cambridge, UK ; New York :
Cambridge University Press,
2011.
|
| Schlagworte: | |
| Online-Zugang: | DE-862 DE-863 |
| Zusammenfassung: | "This textbook teaches students the principles, materials, and applications they need to understand and analyze heat transfer problems they will encounter in practice. The emphasis on modern practical problems (including thermoelectric cooling), in the numerous examples, sets this work apart from other available works. The approach is to discuss heat transfer problems (in search of innovative and optimal solutions) and the engineering analysis, to motivate fundamental principles and analytical problem solving methods. By introducing heat flux tracking, the students develop intuition about the central role of heat transfer in engineered systems. The energy conversion mechanisms (to and from thermal energy) are integrated into the treatment, thus allowing for realistic design of thermal systems. Note that microscale heat carriers are also covered. Those familiar with the first version of this book from another publisher will notice that this volume is shorter and the generic problem solving engine was replaced by MATLAB software. The rich materials removed from the print version are available on the web site, www.cambridge.org/kaviany. A complete solutions manual for the numerous exercises is available to qualified instructors"--Provided by publisher. "This introductory textbook is designed to teach students the knowledge they need to understand and analyze heat transfer problems they are likely to encounter in practice. The emphasis on modern practical problems, clearly evident in the numerous examples, is which sets Professor Kaviany's work apart from the many available works. He discusses heat transfer problems and the engineering analysis, to motivate the fundamental principles and analytical methods used in problem solving--in search of innovative and optimal solutions. Those familiar with the first version of this book from another publisher will notice that this volume is a more manageable length, the generic problem solving machine has been replaced with MATLAB software. The rich materials removed from the print version are still available on the book web site, www.cambridge.org/kaviany. A complete solutions manual for the numerous exercises is available to qualified instructors"--Provided by publisher. |
| Beschreibung: | 1 online resource (xxv, 722 pages) : illustrations |
| Bibliographie: | Includes bibliographical references and index. |
| ISBN: | 9781107012400 1107012406 9781139145404 1139145401 9781139142090 1139142097 9780511998195 0511998198 9781107617193 1107617197 1107229154 9781107229150 1283315246 9781283315241 1139139622 9781139139625 9786613315243 6613315249 1139141201 9781139141208 1139138073 9781139138079 |
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| 245 | 1 | 0 | |a Essentials of heat transfer : |b principles, materials, and applications / |c Massoud Kaviany. |
| 260 | |a Cambridge, UK ; |a New York : |b Cambridge University Press, |c 2011. | ||
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| 504 | |a Includes bibliographical references and index. | ||
| 520 | |a "This textbook teaches students the principles, materials, and applications they need to understand and analyze heat transfer problems they will encounter in practice. The emphasis on modern practical problems (including thermoelectric cooling), in the numerous examples, sets this work apart from other available works. The approach is to discuss heat transfer problems (in search of innovative and optimal solutions) and the engineering analysis, to motivate fundamental principles and analytical problem solving methods. By introducing heat flux tracking, the students develop intuition about the central role of heat transfer in engineered systems. The energy conversion mechanisms (to and from thermal energy) are integrated into the treatment, thus allowing for realistic design of thermal systems. Note that microscale heat carriers are also covered. Those familiar with the first version of this book from another publisher will notice that this volume is shorter and the generic problem solving engine was replaced by MATLAB software. The rich materials removed from the print version are available on the web site, www.cambridge.org/kaviany. A complete solutions manual for the numerous exercises is available to qualified instructors"--Provided by publisher. | ||
| 520 | |a "This introductory textbook is designed to teach students the knowledge they need to understand and analyze heat transfer problems they are likely to encounter in practice. The emphasis on modern practical problems, clearly evident in the numerous examples, is which sets Professor Kaviany's work apart from the many available works. He discusses heat transfer problems and the engineering analysis, to motivate the fundamental principles and analytical methods used in problem solving--in search of innovative and optimal solutions. Those familiar with the first version of this book from another publisher will notice that this volume is a more manageable length, the generic problem solving machine has been replaced with MATLAB software. The rich materials removed from the print version are still available on the book web site, www.cambridge.org/kaviany. A complete solutions manual for the numerous exercises is available to qualified instructors"--Provided by publisher. | ||
| 588 | 0 | |a Print version record. | |
| 505 | 0 | |a Cover; Title; Copyright; Dedication; Contents; Preface; Acknowledgments; Guide to Instructors and Students; 1 Introduction and Preliminaries; 1.1 Applications and History; 1.1.1 Heat Transfer; 1.1.2 Applications; 1.1.3 History, Frontiers, and Integration*; 1.2 Units and Normalization (Scaling); 1.2.1 Units; 1.2.2 Normalization (Scaling); 1.3 Thermal Systems; 1.3.1 Thermodynamic Properties; 1.3.2 Thermal Nonequilibrium; 1.3.3 Control Volume and Control Surface; 1.4 Principal Energy Carriers and Heat Flux Vector; 1.4.1 Macroscopic Heat Transfer Mechanisms. | |
| 505 | 8 | |a 1.7.1 Conservation of Mass* 1.7.2 Conservation of Species* ; 1.7.3 Conservation of Momentum*; 1.7.4 Other Conserved Quantities*; 1.8 Scope; 1.9 Summary; 1.10 References*; 1.11 Problems; 1.11.1 Heat Flux Vector Tracking; 1.11.2 Integral-Volume Energy Equation; 2 Energy Equation; 2.1 Nonuniform Temperature Distribution Differential :(Infinitesimal)-Volume Energy Equation; 2.1.1 Physical Interpretation of Divergence of q; 2.1.2 Relation between Volumetric Differentiation and Surface Integration. | |
| 505 | 8 | |a 2.2 Uniform Temperature in One or More Directions: Energy Equation for Volumes with One or More Finite Lengths2.2.1 Integral-Volume Energy Equation; 2.2.2 Combined Integral- and Differential-Length Energy Equation; 2.2.3 Discrete Temperature Nonuniformity: Finite-Small-Volume Energy Equation*; 2.2.4 Summary of Selection of Energy Equation Based on Uniformity or Nonuniformity of Temperature; 2.3 Thermal Energy Conversion Mechanisms ; 2.3.1 Chemical- or Physical-Bond Energy Conversion; 2.3.2 Electromagnetic Energy Conversion; 2.3.3 Mechanical Energy Conversion. | |
| 505 | 8 | |a 2.3.4 Summary of Thermal Energy Conversion Mechanisms2.4 Bounding-Surface and Far-Field Thermal Conditions; 2.4.1 Continuity of Temperature across Bounding Surface*; 2.4.2 Bounding-Surface Energy Equation; 2.4.3 Prescribed Bounding-Surface Thermal Conditions* ; 2.4.4 Far-Field Thermal Conditions* ; 2.5 Heat Transfer Analysis*; 2.5.1 Integration of Differential-Volume Energy Equation*; 2.5.2 Single- and Multidimensional Heat Flow* ; 2.5.3 Time Dependence and Steady State* ; 2.5.4 Thermal Circuit Models* ; 2.5.5 Summary of Methodology for Heat Transfer Analysis* | |
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Datensatz im Suchindex
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| author | Kaviany, M. (Massoud) |
| author_GND | http://id.loc.gov/authorities/names/n87937130 |
| author_facet | Kaviany, M. (Massoud) |
| author_role | |
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| callnumber-raw | QC320 .K38 2011eb |
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| contents | Cover; Title; Copyright; Dedication; Contents; Preface; Acknowledgments; Guide to Instructors and Students; 1 Introduction and Preliminaries; 1.1 Applications and History; 1.1.1 Heat Transfer; 1.1.2 Applications; 1.1.3 History, Frontiers, and Integration*; 1.2 Units and Normalization (Scaling); 1.2.1 Units; 1.2.2 Normalization (Scaling); 1.3 Thermal Systems; 1.3.1 Thermodynamic Properties; 1.3.2 Thermal Nonequilibrium; 1.3.3 Control Volume and Control Surface; 1.4 Principal Energy Carriers and Heat Flux Vector; 1.4.1 Macroscopic Heat Transfer Mechanisms. 1.7.1 Conservation of Mass* 1.7.2 Conservation of Species* ; 1.7.3 Conservation of Momentum*; 1.7.4 Other Conserved Quantities*; 1.8 Scope; 1.9 Summary; 1.10 References*; 1.11 Problems; 1.11.1 Heat Flux Vector Tracking; 1.11.2 Integral-Volume Energy Equation; 2 Energy Equation; 2.1 Nonuniform Temperature Distribution Differential :(Infinitesimal)-Volume Energy Equation; 2.1.1 Physical Interpretation of Divergence of q; 2.1.2 Relation between Volumetric Differentiation and Surface Integration. 2.2 Uniform Temperature in One or More Directions: Energy Equation for Volumes with One or More Finite Lengths2.2.1 Integral-Volume Energy Equation; 2.2.2 Combined Integral- and Differential-Length Energy Equation; 2.2.3 Discrete Temperature Nonuniformity: Finite-Small-Volume Energy Equation*; 2.2.4 Summary of Selection of Energy Equation Based on Uniformity or Nonuniformity of Temperature; 2.3 Thermal Energy Conversion Mechanisms ; 2.3.1 Chemical- or Physical-Bond Energy Conversion; 2.3.2 Electromagnetic Energy Conversion; 2.3.3 Mechanical Energy Conversion. 2.3.4 Summary of Thermal Energy Conversion Mechanisms2.4 Bounding-Surface and Far-Field Thermal Conditions; 2.4.1 Continuity of Temperature across Bounding Surface*; 2.4.2 Bounding-Surface Energy Equation; 2.4.3 Prescribed Bounding-Surface Thermal Conditions* ; 2.4.4 Far-Field Thermal Conditions* ; 2.5 Heat Transfer Analysis*; 2.5.1 Integration of Differential-Volume Energy Equation*; 2.5.2 Single- and Multidimensional Heat Flow* ; 2.5.3 Time Dependence and Steady State* ; 2.5.4 Thermal Circuit Models* ; 2.5.5 Summary of Methodology for Heat Transfer Analysis* |
| ctrlnum | (OCoLC)759907826 |
| dewey-full | 621.402/2 |
| dewey-hundreds | 600 - Technology (Applied sciences) |
| dewey-ones | 621 - Applied physics |
| dewey-raw | 621.402/2 |
| dewey-search | 621.402/2 |
| dewey-sort | 3621.402 12 |
| dewey-tens | 620 - Engineering and allied operations |
| discipline | Physik Energietechnik |
| format | Electronic eBook |
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| id | ZDB-4-EBA-ocn759907826 |
| illustrated | Illustrated |
| indexdate | 2025-04-11T08:37:27Z |
| institution | BVB |
| isbn | 9781107012400 1107012406 9781139145404 1139145401 9781139142090 1139142097 9780511998195 0511998198 9781107617193 1107617197 1107229154 9781107229150 1283315246 9781283315241 1139139622 9781139139625 9786613315243 6613315249 1139141201 9781139141208 1139138073 9781139138079 |
| language | English |
| oclc_num | 759907826 |
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| physical | 1 online resource (xxv, 722 pages) : illustrations |
| psigel | ZDB-4-EBA FWS_PDA_EBA ZDB-4-EBA |
| publishDate | 2011 |
| publishDateSearch | 2011 |
| publishDateSort | 2011 |
| publisher | Cambridge University Press, |
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| spelling | Kaviany, M. (Massoud) https://id.oclc.org/worldcat/entity/E39PCjGDMqG8c47kgtVvM6drmb http://id.loc.gov/authorities/names/n87937130 Essentials of heat transfer : principles, materials, and applications / Massoud Kaviany. Cambridge, UK ; New York : Cambridge University Press, 2011. 1 online resource (xxv, 722 pages) : illustrations text txt rdacontent computer c rdamedia online resource cr rdacarrier Includes bibliographical references and index. "This textbook teaches students the principles, materials, and applications they need to understand and analyze heat transfer problems they will encounter in practice. The emphasis on modern practical problems (including thermoelectric cooling), in the numerous examples, sets this work apart from other available works. The approach is to discuss heat transfer problems (in search of innovative and optimal solutions) and the engineering analysis, to motivate fundamental principles and analytical problem solving methods. By introducing heat flux tracking, the students develop intuition about the central role of heat transfer in engineered systems. The energy conversion mechanisms (to and from thermal energy) are integrated into the treatment, thus allowing for realistic design of thermal systems. Note that microscale heat carriers are also covered. Those familiar with the first version of this book from another publisher will notice that this volume is shorter and the generic problem solving engine was replaced by MATLAB software. The rich materials removed from the print version are available on the web site, www.cambridge.org/kaviany. A complete solutions manual for the numerous exercises is available to qualified instructors"--Provided by publisher. "This introductory textbook is designed to teach students the knowledge they need to understand and analyze heat transfer problems they are likely to encounter in practice. The emphasis on modern practical problems, clearly evident in the numerous examples, is which sets Professor Kaviany's work apart from the many available works. He discusses heat transfer problems and the engineering analysis, to motivate the fundamental principles and analytical methods used in problem solving--in search of innovative and optimal solutions. Those familiar with the first version of this book from another publisher will notice that this volume is a more manageable length, the generic problem solving machine has been replaced with MATLAB software. The rich materials removed from the print version are still available on the book web site, www.cambridge.org/kaviany. A complete solutions manual for the numerous exercises is available to qualified instructors"--Provided by publisher. Print version record. Cover; Title; Copyright; Dedication; Contents; Preface; Acknowledgments; Guide to Instructors and Students; 1 Introduction and Preliminaries; 1.1 Applications and History; 1.1.1 Heat Transfer; 1.1.2 Applications; 1.1.3 History, Frontiers, and Integration*; 1.2 Units and Normalization (Scaling); 1.2.1 Units; 1.2.2 Normalization (Scaling); 1.3 Thermal Systems; 1.3.1 Thermodynamic Properties; 1.3.2 Thermal Nonequilibrium; 1.3.3 Control Volume and Control Surface; 1.4 Principal Energy Carriers and Heat Flux Vector; 1.4.1 Macroscopic Heat Transfer Mechanisms. 1.7.1 Conservation of Mass* 1.7.2 Conservation of Species* ; 1.7.3 Conservation of Momentum*; 1.7.4 Other Conserved Quantities*; 1.8 Scope; 1.9 Summary; 1.10 References*; 1.11 Problems; 1.11.1 Heat Flux Vector Tracking; 1.11.2 Integral-Volume Energy Equation; 2 Energy Equation; 2.1 Nonuniform Temperature Distribution Differential :(Infinitesimal)-Volume Energy Equation; 2.1.1 Physical Interpretation of Divergence of q; 2.1.2 Relation between Volumetric Differentiation and Surface Integration. 2.2 Uniform Temperature in One or More Directions: Energy Equation for Volumes with One or More Finite Lengths2.2.1 Integral-Volume Energy Equation; 2.2.2 Combined Integral- and Differential-Length Energy Equation; 2.2.3 Discrete Temperature Nonuniformity: Finite-Small-Volume Energy Equation*; 2.2.4 Summary of Selection of Energy Equation Based on Uniformity or Nonuniformity of Temperature; 2.3 Thermal Energy Conversion Mechanisms ; 2.3.1 Chemical- or Physical-Bond Energy Conversion; 2.3.2 Electromagnetic Energy Conversion; 2.3.3 Mechanical Energy Conversion. 2.3.4 Summary of Thermal Energy Conversion Mechanisms2.4 Bounding-Surface and Far-Field Thermal Conditions; 2.4.1 Continuity of Temperature across Bounding Surface*; 2.4.2 Bounding-Surface Energy Equation; 2.4.3 Prescribed Bounding-Surface Thermal Conditions* ; 2.4.4 Far-Field Thermal Conditions* ; 2.5 Heat Transfer Analysis*; 2.5.1 Integration of Differential-Volume Energy Equation*; 2.5.2 Single- and Multidimensional Heat Flow* ; 2.5.3 Time Dependence and Steady State* ; 2.5.4 Thermal Circuit Models* ; 2.5.5 Summary of Methodology for Heat Transfer Analysis* English. Heat Transmission Textbooks. TECHNOLOGY & ENGINEERING Mechanical. bisacsh Calor embne Termodinámica embne Heat Transmission fast Wärmeübertragung gnd http://d-nb.info/gnd/4064211-2 Textbooks fast Print version: 9786613315243 |
| spellingShingle | Kaviany, M. (Massoud) Essentials of heat transfer : principles, materials, and applications / Cover; Title; Copyright; Dedication; Contents; Preface; Acknowledgments; Guide to Instructors and Students; 1 Introduction and Preliminaries; 1.1 Applications and History; 1.1.1 Heat Transfer; 1.1.2 Applications; 1.1.3 History, Frontiers, and Integration*; 1.2 Units and Normalization (Scaling); 1.2.1 Units; 1.2.2 Normalization (Scaling); 1.3 Thermal Systems; 1.3.1 Thermodynamic Properties; 1.3.2 Thermal Nonequilibrium; 1.3.3 Control Volume and Control Surface; 1.4 Principal Energy Carriers and Heat Flux Vector; 1.4.1 Macroscopic Heat Transfer Mechanisms. 1.7.1 Conservation of Mass* 1.7.2 Conservation of Species* ; 1.7.3 Conservation of Momentum*; 1.7.4 Other Conserved Quantities*; 1.8 Scope; 1.9 Summary; 1.10 References*; 1.11 Problems; 1.11.1 Heat Flux Vector Tracking; 1.11.2 Integral-Volume Energy Equation; 2 Energy Equation; 2.1 Nonuniform Temperature Distribution Differential :(Infinitesimal)-Volume Energy Equation; 2.1.1 Physical Interpretation of Divergence of q; 2.1.2 Relation between Volumetric Differentiation and Surface Integration. 2.2 Uniform Temperature in One or More Directions: Energy Equation for Volumes with One or More Finite Lengths2.2.1 Integral-Volume Energy Equation; 2.2.2 Combined Integral- and Differential-Length Energy Equation; 2.2.3 Discrete Temperature Nonuniformity: Finite-Small-Volume Energy Equation*; 2.2.4 Summary of Selection of Energy Equation Based on Uniformity or Nonuniformity of Temperature; 2.3 Thermal Energy Conversion Mechanisms ; 2.3.1 Chemical- or Physical-Bond Energy Conversion; 2.3.2 Electromagnetic Energy Conversion; 2.3.3 Mechanical Energy Conversion. 2.3.4 Summary of Thermal Energy Conversion Mechanisms2.4 Bounding-Surface and Far-Field Thermal Conditions; 2.4.1 Continuity of Temperature across Bounding Surface*; 2.4.2 Bounding-Surface Energy Equation; 2.4.3 Prescribed Bounding-Surface Thermal Conditions* ; 2.4.4 Far-Field Thermal Conditions* ; 2.5 Heat Transfer Analysis*; 2.5.1 Integration of Differential-Volume Energy Equation*; 2.5.2 Single- and Multidimensional Heat Flow* ; 2.5.3 Time Dependence and Steady State* ; 2.5.4 Thermal Circuit Models* ; 2.5.5 Summary of Methodology for Heat Transfer Analysis* Heat Transmission Textbooks. TECHNOLOGY & ENGINEERING Mechanical. bisacsh Calor embne Termodinámica embne Heat Transmission fast Wärmeübertragung gnd http://d-nb.info/gnd/4064211-2 |
| subject_GND | http://d-nb.info/gnd/4064211-2 |
| title | Essentials of heat transfer : principles, materials, and applications / |
| title_auth | Essentials of heat transfer : principles, materials, and applications / |
| title_exact_search | Essentials of heat transfer : principles, materials, and applications / |
| title_full | Essentials of heat transfer : principles, materials, and applications / Massoud Kaviany. |
| title_fullStr | Essentials of heat transfer : principles, materials, and applications / Massoud Kaviany. |
| title_full_unstemmed | Essentials of heat transfer : principles, materials, and applications / Massoud Kaviany. |
| title_short | Essentials of heat transfer : |
| title_sort | essentials of heat transfer principles materials and applications |
| title_sub | principles, materials, and applications / |
| topic | Heat Transmission Textbooks. TECHNOLOGY & ENGINEERING Mechanical. bisacsh Calor embne Termodinámica embne Heat Transmission fast Wärmeübertragung gnd http://d-nb.info/gnd/4064211-2 |
| topic_facet | Heat Transmission Textbooks. TECHNOLOGY & ENGINEERING Mechanical. Calor Termodinámica Heat Transmission Wärmeübertragung Textbooks |
| work_keys_str_mv | AT kavianym essentialsofheattransferprinciplesmaterialsandapplications |