Heat transfer: a systematic learning approach
Heat Transfer: A Systematic Learning Approach presents valuable tools in understanding heat transfer mechanisms and provides a clear understanding of complex turbulent flows. It provides a comprehensive introduction to topics of heat transfer, including conduction, convection, thermal radiation, and...
Gespeichert in:
| 1. Verfasser: | |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Boca Raton ; London ; New York
CRC Press
2024
|
| Ausgabe: | First edition |
| Schlagworte: | |
| Zusammenfassung: | Heat Transfer: A Systematic Learning Approach presents valuable tools in understanding heat transfer mechanisms and provides a clear understanding of complex turbulent flows. It provides a comprehensive introduction to topics of heat transfer, including conduction, convection, thermal radiation, and nanofluids |
| Beschreibung: | xxiii, 511 Seiten Illustrationen, Diagramme |
| ISBN: | 9781032549828 9781032549835 |
Internformat
MARC
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| 245 | 1 | 0 | |a Heat transfer |b a systematic learning approach |c Naseem Uddin |
| 250 | |a First edition | ||
| 264 | 1 | |a Boca Raton ; London ; New York |b CRC Press |c 2024 | |
| 300 | |a xxiii, 511 Seiten |b Illustrationen, Diagramme | ||
| 336 | |b txt |2 rdacontent | ||
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| 505 | 8 | |a Cover -- Half Title -- Title Page -- Copyright Page -- Dedication -- Contents -- Nomenclature -- Author -- Prologue -- Chapter 1: Heat Transfer -- 1.1. Heat Transfer -- a Historical Perspective -- 1.2. Energies in Thermodynamics -- 1.3. First Law of Thermodynamics -- 1.4. Types of Heat -- 1.5. Volumetric Heat Capacity -- 1.6. Modes of Heat Transfer -- 1.6.1. Conduction -- 1.6.2. Convection -- 1.6.3. Radiation -- References -- Chapter 2: Heat Conduction Equation -- 2.1. Three-Dimensional Heat Conduction Equation -- 2.2. Some Common Boundary Conditions -- 2.2.1. Dirichlet Boundary Condition | |
| 505 | 8 | |a 2.2.2. Neumann Boundary Condition -- 2.2.3. Robin Boundary Condition -- 2.3. Scale Analysis for Heat Transfer Problems -- References -- Chapter 3: Steady-State One-Dimensional Heat Conduction -- 3.1. Conduction through Plane Wall -- 3.2. Analogy between Heat Transfer and Current Flow -- 3.3. Multilayer Wall -- 3.4. Overall Heat Transfer Coefficient -- 3.5. Heat Transfer through a Hollow Cylinder -- 3.6. Heat Transfer through a Hollow Sphere -- 3.7. Heat Conduction through Composite Pipe or Sphere -- 3.8. The Concept of Critical Radius -- 3.9. Variable Thermal Conductivity -- 3.9.1. Plane Wall | |
| 505 | 8 | |a 3.9.2. Thermal Conductivity Variation in a Cylinder -- 3.10. Thermal Contact Resistance -- 3.11. Conduction with Internal Energy Conversion into Internal Energy -- 3.12. Heat Transfer by Extended Surfaces -- 3.12.1. Infinitely Long Fin -- 3.12.2. Fin Insulated at End -- 3.13. Efficiency and Effectiveness of Fin -- 3.14. Corrected Fin Length -- References -- Chapter 4: Steady-State Two-Dimensional Heat Conduction -- 4.1. Infinite Strip Case -- 4.2. Conduction Shape Factor (CSF) -- References -- Chapter 5: Transient Heat Conduction -- 5.1. One-Dimensional Unsteady Heat Conduction (Bi<0.1) | |
| 505 | 8 | |a 5.2. Semi-Infinite Solid with Different Boundary Conditions -- 5.2.1. Semi-Infinite Plane Wall: Constant Wall Temperature -- 5.2.2. Semi-Infinite Solid: Heat Flux Boundary Condition -- 5.2.3. Semi-Infinite Solid: Convection Boundary Condition -- 5.2.4. Semi-Infinite Solid: Energy Pulse Boundary Condition -- 5.3. Transient Conduction inside a Large Slab with Convective Cooling -- 5.4. Transient Conduction through a Long Cylinder with Convective Cooling -- 5.5. Transient Heat Conduction through a Sphere with Convective Cooling -- References | |
| 505 | 8 | |a Chapter 6: Heat Conduction Analysis Using the Finite Difference Technique -- 6.1. Finite Difference Method -- 6.2. 1D Steady Conduction -- 6.3. 2D Conduction -- 6.4. 2D Conduction with Internal Heat Conversion -- 6.5. Numerical Transient Conduction -- 6.6. Convective Boundary Condition -- 6.7. 1D Transient Conduction: Implicit Formulation -- 6.8. 2D Transient Conduction -- References -- Chapter 7: Fundamentals of Convective Heat Transfer -- 7.1. Forced Convection and Dimensionless Parameters -- 7.2. Free Convection and Dimensionless Parameters | |
| 520 | |a Heat Transfer: A Systematic Learning Approach presents valuable tools in understanding heat transfer mechanisms and provides a clear understanding of complex turbulent flows. It provides a comprehensive introduction to topics of heat transfer, including conduction, convection, thermal radiation, and nanofluids | ||
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Datensatz im Suchindex
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| author | Uddin, Naseem |
| author_GND | (DE-588)136385095 |
| author_facet | Uddin, Naseem |
| author_role | aut |
| author_sort | Uddin, Naseem |
| author_variant | n u nu |
| building | Verbundindex |
| bvnumber | BV049867193 |
| classification_rvk | UG 2500 |
| contents | Cover -- Half Title -- Title Page -- Copyright Page -- Dedication -- Contents -- Nomenclature -- Author -- Prologue -- Chapter 1: Heat Transfer -- 1.1. Heat Transfer -- a Historical Perspective -- 1.2. Energies in Thermodynamics -- 1.3. First Law of Thermodynamics -- 1.4. Types of Heat -- 1.5. Volumetric Heat Capacity -- 1.6. Modes of Heat Transfer -- 1.6.1. Conduction -- 1.6.2. Convection -- 1.6.3. Radiation -- References -- Chapter 2: Heat Conduction Equation -- 2.1. Three-Dimensional Heat Conduction Equation -- 2.2. Some Common Boundary Conditions -- 2.2.1. Dirichlet Boundary Condition 2.2.2. Neumann Boundary Condition -- 2.2.3. Robin Boundary Condition -- 2.3. Scale Analysis for Heat Transfer Problems -- References -- Chapter 3: Steady-State One-Dimensional Heat Conduction -- 3.1. Conduction through Plane Wall -- 3.2. Analogy between Heat Transfer and Current Flow -- 3.3. Multilayer Wall -- 3.4. Overall Heat Transfer Coefficient -- 3.5. Heat Transfer through a Hollow Cylinder -- 3.6. Heat Transfer through a Hollow Sphere -- 3.7. Heat Conduction through Composite Pipe or Sphere -- 3.8. The Concept of Critical Radius -- 3.9. Variable Thermal Conductivity -- 3.9.1. Plane Wall 3.9.2. Thermal Conductivity Variation in a Cylinder -- 3.10. Thermal Contact Resistance -- 3.11. Conduction with Internal Energy Conversion into Internal Energy -- 3.12. Heat Transfer by Extended Surfaces -- 3.12.1. Infinitely Long Fin -- 3.12.2. Fin Insulated at End -- 3.13. Efficiency and Effectiveness of Fin -- 3.14. Corrected Fin Length -- References -- Chapter 4: Steady-State Two-Dimensional Heat Conduction -- 4.1. Infinite Strip Case -- 4.2. Conduction Shape Factor (CSF) -- References -- Chapter 5: Transient Heat Conduction -- 5.1. One-Dimensional Unsteady Heat Conduction (Bi<0.1) 5.2. Semi-Infinite Solid with Different Boundary Conditions -- 5.2.1. Semi-Infinite Plane Wall: Constant Wall Temperature -- 5.2.2. Semi-Infinite Solid: Heat Flux Boundary Condition -- 5.2.3. Semi-Infinite Solid: Convection Boundary Condition -- 5.2.4. Semi-Infinite Solid: Energy Pulse Boundary Condition -- 5.3. Transient Conduction inside a Large Slab with Convective Cooling -- 5.4. Transient Conduction through a Long Cylinder with Convective Cooling -- 5.5. Transient Heat Conduction through a Sphere with Convective Cooling -- References Chapter 6: Heat Conduction Analysis Using the Finite Difference Technique -- 6.1. Finite Difference Method -- 6.2. 1D Steady Conduction -- 6.3. 2D Conduction -- 6.4. 2D Conduction with Internal Heat Conversion -- 6.5. Numerical Transient Conduction -- 6.6. Convective Boundary Condition -- 6.7. 1D Transient Conduction: Implicit Formulation -- 6.8. 2D Transient Conduction -- References -- Chapter 7: Fundamentals of Convective Heat Transfer -- 7.1. Forced Convection and Dimensionless Parameters -- 7.2. Free Convection and Dimensionless Parameters |
| ctrlnum | (OCoLC)1466904860 (DE-599)BVBBV049867193 |
| discipline | Physik |
| edition | First edition |
| format | Book |
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| id | DE-604.BV049867193 |
| illustrated | Illustrated |
| indexdate | 2024-12-06T13:10:27Z |
| institution | BVB |
| isbn | 9781032549828 9781032549835 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-035206752 |
| oclc_num | 1466904860 |
| open_access_boolean | |
| owner | DE-703 |
| owner_facet | DE-703 |
| physical | xxiii, 511 Seiten Illustrationen, Diagramme |
| publishDate | 2024 |
| publishDateSearch | 2024 |
| publishDateSort | 2024 |
| publisher | CRC Press |
| record_format | marc |
| spelling | Uddin, Naseem Verfasser (DE-588)136385095 aut Heat transfer a systematic learning approach Naseem Uddin First edition Boca Raton ; London ; New York CRC Press 2024 xxiii, 511 Seiten Illustrationen, Diagramme txt rdacontent n rdamedia nc rdacarrier Cover -- Half Title -- Title Page -- Copyright Page -- Dedication -- Contents -- Nomenclature -- Author -- Prologue -- Chapter 1: Heat Transfer -- 1.1. Heat Transfer -- a Historical Perspective -- 1.2. Energies in Thermodynamics -- 1.3. First Law of Thermodynamics -- 1.4. Types of Heat -- 1.5. Volumetric Heat Capacity -- 1.6. Modes of Heat Transfer -- 1.6.1. Conduction -- 1.6.2. Convection -- 1.6.3. Radiation -- References -- Chapter 2: Heat Conduction Equation -- 2.1. Three-Dimensional Heat Conduction Equation -- 2.2. Some Common Boundary Conditions -- 2.2.1. Dirichlet Boundary Condition 2.2.2. Neumann Boundary Condition -- 2.2.3. Robin Boundary Condition -- 2.3. Scale Analysis for Heat Transfer Problems -- References -- Chapter 3: Steady-State One-Dimensional Heat Conduction -- 3.1. Conduction through Plane Wall -- 3.2. Analogy between Heat Transfer and Current Flow -- 3.3. Multilayer Wall -- 3.4. Overall Heat Transfer Coefficient -- 3.5. Heat Transfer through a Hollow Cylinder -- 3.6. Heat Transfer through a Hollow Sphere -- 3.7. Heat Conduction through Composite Pipe or Sphere -- 3.8. The Concept of Critical Radius -- 3.9. Variable Thermal Conductivity -- 3.9.1. Plane Wall 3.9.2. Thermal Conductivity Variation in a Cylinder -- 3.10. Thermal Contact Resistance -- 3.11. Conduction with Internal Energy Conversion into Internal Energy -- 3.12. Heat Transfer by Extended Surfaces -- 3.12.1. Infinitely Long Fin -- 3.12.2. Fin Insulated at End -- 3.13. Efficiency and Effectiveness of Fin -- 3.14. Corrected Fin Length -- References -- Chapter 4: Steady-State Two-Dimensional Heat Conduction -- 4.1. Infinite Strip Case -- 4.2. Conduction Shape Factor (CSF) -- References -- Chapter 5: Transient Heat Conduction -- 5.1. One-Dimensional Unsteady Heat Conduction (Bi<0.1) 5.2. Semi-Infinite Solid with Different Boundary Conditions -- 5.2.1. Semi-Infinite Plane Wall: Constant Wall Temperature -- 5.2.2. Semi-Infinite Solid: Heat Flux Boundary Condition -- 5.2.3. Semi-Infinite Solid: Convection Boundary Condition -- 5.2.4. Semi-Infinite Solid: Energy Pulse Boundary Condition -- 5.3. Transient Conduction inside a Large Slab with Convective Cooling -- 5.4. Transient Conduction through a Long Cylinder with Convective Cooling -- 5.5. Transient Heat Conduction through a Sphere with Convective Cooling -- References Chapter 6: Heat Conduction Analysis Using the Finite Difference Technique -- 6.1. Finite Difference Method -- 6.2. 1D Steady Conduction -- 6.3. 2D Conduction -- 6.4. 2D Conduction with Internal Heat Conversion -- 6.5. Numerical Transient Conduction -- 6.6. Convective Boundary Condition -- 6.7. 1D Transient Conduction: Implicit Formulation -- 6.8. 2D Transient Conduction -- References -- Chapter 7: Fundamentals of Convective Heat Transfer -- 7.1. Forced Convection and Dimensionless Parameters -- 7.2. Free Convection and Dimensionless Parameters Heat Transfer: A Systematic Learning Approach presents valuable tools in understanding heat transfer mechanisms and provides a clear understanding of complex turbulent flows. It provides a comprehensive introduction to topics of heat transfer, including conduction, convection, thermal radiation, and nanofluids Wärmeübertragung (DE-588)4064211-2 gnd rswk-swf Wärmeübertragung (DE-588)4064211-2 s DE-604 Erscheint auch als Online-Ausgabe 978-1-003-42840-4 Erscheint auch als Online-Ausgabe 978-1-003-80409-3 Erscheint auch als Online-Ausgabe 978-1-032-54993-4 |
| spellingShingle | Uddin, Naseem Heat transfer a systematic learning approach Cover -- Half Title -- Title Page -- Copyright Page -- Dedication -- Contents -- Nomenclature -- Author -- Prologue -- Chapter 1: Heat Transfer -- 1.1. Heat Transfer -- a Historical Perspective -- 1.2. Energies in Thermodynamics -- 1.3. First Law of Thermodynamics -- 1.4. Types of Heat -- 1.5. Volumetric Heat Capacity -- 1.6. Modes of Heat Transfer -- 1.6.1. Conduction -- 1.6.2. Convection -- 1.6.3. Radiation -- References -- Chapter 2: Heat Conduction Equation -- 2.1. Three-Dimensional Heat Conduction Equation -- 2.2. Some Common Boundary Conditions -- 2.2.1. Dirichlet Boundary Condition 2.2.2. Neumann Boundary Condition -- 2.2.3. Robin Boundary Condition -- 2.3. Scale Analysis for Heat Transfer Problems -- References -- Chapter 3: Steady-State One-Dimensional Heat Conduction -- 3.1. Conduction through Plane Wall -- 3.2. Analogy between Heat Transfer and Current Flow -- 3.3. Multilayer Wall -- 3.4. Overall Heat Transfer Coefficient -- 3.5. Heat Transfer through a Hollow Cylinder -- 3.6. Heat Transfer through a Hollow Sphere -- 3.7. Heat Conduction through Composite Pipe or Sphere -- 3.8. The Concept of Critical Radius -- 3.9. Variable Thermal Conductivity -- 3.9.1. Plane Wall 3.9.2. Thermal Conductivity Variation in a Cylinder -- 3.10. Thermal Contact Resistance -- 3.11. Conduction with Internal Energy Conversion into Internal Energy -- 3.12. Heat Transfer by Extended Surfaces -- 3.12.1. Infinitely Long Fin -- 3.12.2. Fin Insulated at End -- 3.13. Efficiency and Effectiveness of Fin -- 3.14. Corrected Fin Length -- References -- Chapter 4: Steady-State Two-Dimensional Heat Conduction -- 4.1. Infinite Strip Case -- 4.2. Conduction Shape Factor (CSF) -- References -- Chapter 5: Transient Heat Conduction -- 5.1. One-Dimensional Unsteady Heat Conduction (Bi<0.1) 5.2. Semi-Infinite Solid with Different Boundary Conditions -- 5.2.1. Semi-Infinite Plane Wall: Constant Wall Temperature -- 5.2.2. Semi-Infinite Solid: Heat Flux Boundary Condition -- 5.2.3. Semi-Infinite Solid: Convection Boundary Condition -- 5.2.4. Semi-Infinite Solid: Energy Pulse Boundary Condition -- 5.3. Transient Conduction inside a Large Slab with Convective Cooling -- 5.4. Transient Conduction through a Long Cylinder with Convective Cooling -- 5.5. Transient Heat Conduction through a Sphere with Convective Cooling -- References Chapter 6: Heat Conduction Analysis Using the Finite Difference Technique -- 6.1. Finite Difference Method -- 6.2. 1D Steady Conduction -- 6.3. 2D Conduction -- 6.4. 2D Conduction with Internal Heat Conversion -- 6.5. Numerical Transient Conduction -- 6.6. Convective Boundary Condition -- 6.7. 1D Transient Conduction: Implicit Formulation -- 6.8. 2D Transient Conduction -- References -- Chapter 7: Fundamentals of Convective Heat Transfer -- 7.1. Forced Convection and Dimensionless Parameters -- 7.2. Free Convection and Dimensionless Parameters Wärmeübertragung (DE-588)4064211-2 gnd |
| subject_GND | (DE-588)4064211-2 |
| title | Heat transfer a systematic learning approach |
| title_auth | Heat transfer a systematic learning approach |
| title_exact_search | Heat transfer a systematic learning approach |
| title_full | Heat transfer a systematic learning approach Naseem Uddin |
| title_fullStr | Heat transfer a systematic learning approach Naseem Uddin |
| title_full_unstemmed | Heat transfer a systematic learning approach Naseem Uddin |
| title_short | Heat transfer |
| title_sort | heat transfer a systematic learning approach |
| title_sub | a systematic learning approach |
| topic | Wärmeübertragung (DE-588)4064211-2 gnd |
| topic_facet | Wärmeübertragung |
| work_keys_str_mv | AT uddinnaseem heattransferasystematiclearningapproach |