Heat and mass transfer in buildings (Record no. 69522)
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| 000 -LEADER | |
|---|---|
| fixed length control field | 05341 a2200169 4500 |
| 020 ## - INTERNATIONAL STANDARD BOOK NUMBER | |
| International Standard Book Number | 9781138628540 |
| 082 ## - DEWEY DECIMAL CLASSIFICATION NUMBER | |
| Classification number | 697 |
| Item number | MOS |
| 100 ## - MAIN ENTRY--PERSONAL NAME | |
| Personal name | Moss, Keith J. |
| 245 ## - TITLE STATEMENT | |
| Title | Heat and mass transfer in buildings |
| 250 ## - EDITION STATEMENT | |
| Edition statement | Ed.2 |
| 260 ## - PUBLICATION, DISTRIBUTION, ETC. (IMPRINT) | |
| Place of publication, distribution, etc | New York |
| Name of publisher, distributor, etc | Taylor & Francis |
| Date of publication, distribution, etc | 2017 |
| 300 ## - PHYSICAL DESCRIPTION | |
| Extent | xx,307p. |
| 505 ## - FORMATTED CONTENTS NOTE | |
| Formatted contents note | Contents<br/>List of examples x<br/>List of case studies xv<br/>Preface to the second edition xvii<br/>Acknowledgements xix<br/>Introduction xxi<br/>1 Thermal comfort and assessment 1<br/>1.1 Introduction 2<br/>1.2 Heat energy and temperature 2<br/>1.3 Thermometry 3<br/>1.4 Types of thermometer 4<br/>1.5 Heat loss from the human body 5<br/>1.6 Physiological responses 10<br/>1. 7 Thermal assessment 11<br/>1.8 Thermal comfort criteria 17<br/>1.9 Temperature profiles 24<br/>1.10 Chapter closure 25<br/>2 Heat conduction 26<br/>2.1 Introduction 27<br/>2.2 Heat conduction at right angles to the surface 27<br/>2.3 Surf ace conductance 31<br/>2.4 Heat conduction in ground floors 36<br/>2.5 Heat conduction in suspended ground floors 38<br/>2.6 Thermal bridging and non-standard U values 41<br/>2.7 Non-standard U values, multi-webbed bridges 43<br/>2.8 Radial conductive heat flow 46<br/>2.9 Chapter closure 53<br/>3 Heat convection 54<br/>3.1 Introduction 54<br/>3.2 Rational formulae for free and forced heat convection 57<br/>3.3 Temperature definitions 59<br/>3.4 Convective heat output from a panel radiator 61<br/>3.5 Heat output from a freely suspended pipe coil 63<br/>3.6 Heat transfer from a tube in a condensing secondary fluid 64<br/>3.7 Cooling flux from a chilled ceiling 66<br/>3.8 Heat flux off a floor surface from an embedded pipe coil 68<br/>3.9 Heat transfer notes 70<br/>3.10 Chapter closure 71<br/>4 Heat radiation 72<br/>4.1 Introduction 73<br/>4.2 Surface characteristics 73<br/>4.3 The greenhouse effect 76<br/>4.4 Spectral wave forms 76<br/>4.5 Monochromatic heat radiation 77<br/>4.6 Laws of black body radiation 78<br/>4.7 Laws of grey body radiation 80<br/>4.8 Radiation exchange between a grey body and a grey enclosure 81<br/>4.9 Heat transfer coefficients for black and grey body radiation 82<br/>4.10 Heat radiation flux I 83<br/>4.11 Problem solving 84<br/>4.12 Asymmetric heat radiation 96<br/>4.13 Historical references 97<br/>4.14 Chapter closure 97<br/>5 Measurement of fluid flow 98<br/>5.1 Introduction 98<br/>5.2 Flow characteristics 99<br/>5.3 Conservation of energy in a moving fluid 100<br/>5.4 Measurement of gauge pressure with an uncalibrated manometer 101<br/>5.5 Measurement of pressure difference with an uncalibrated differential manometer 102<br/>5.6 Measurement of flow rate using a venturi meter and orifice plate 104<br/>5.7 Measurement of air flow using a pitot static tube 111<br/>5.8 Chapter closure 114<br/>6 Characteristics of laminar and turbulent flow 115<br/>6.1 Introduction 115<br/>6.2 Laminar flow 116<br/>6.3 Turbulent flow 119<br/>6.4 Boundary layer theory 121<br/>6.5 Characteristics of the straight pipe or duct 125<br/>6.6 Determination of the frictional coefficient in turbulent flow 126<br/>6.7 Solving problems 127<br/>6.8 Chapter closure 135<br/>7 Mass transfer of fluids in pipes, ducts and channels 136<br/>7.1 Introduction 137<br/>7.2 Solutions to problems in frictionless flow 137<br/>7.3 Frictional flow in flooded pipes and ducts 144<br/>7.4 Semi-graphical solutions to frictional flow in pipes and ducts 160<br/>7.5 Gravitational flow in flooded pipes 162<br/>7.6 Gravitational flow in partially flooded pipes and channels 170<br/>7.7 Alternative rational formulae for partial flow 176<br/>7.8 Flow of natural gas in pipes 180<br/>7.9 Flow of compressed air in pipes 181<br/>7.10 Vacuum pipe sizing 183<br/>7.11 Chapter closure 184<br/>8 Natural ventilation in buildings 185<br/>8.1 Introduction 186<br/>8.2 Aerodynamics around a building 186<br/>8.3 Effects on cross-ventilation from the wind 191<br/>8.4 The stack effect 194<br/>8.5 Natural ventilation to internal spaces with openings in one wall only 198<br/>8.6 Ventilation for cooling purposes 200<br/>8.7 Fan assisted ventilation 205<br/>8.8 Further reading 206<br/>8.9 Chapter closure 206<br/>9 Regimes of fluid flow in heat exchangers 207<br/>9.1 Introduction 208<br/>9.2 Parallel flow and counter-flow heat exchangers 209<br/>9.3 Heat transfer equations 212<br/>9.4 Heat exchanger performance 219<br/>9.5 Cross flow 225<br/>9.6 Further examples 228<br/>9.7 Chapter closure 232<br/>Appendix 1: verifying the form of an equation by dimensional analysis 233<br/>AI.1 Introduction 233<br/>AI.2 Dimensions in use 234<br/>AI.3 Appendix closure 238<br/>Appendix 2: solving problems by dimensional analysis 239<br/>A2.1 Introduction 240<br/>A2.2 Establishing the form of an equation 240<br/>A2.3 Dimensional analysis in experimental work 243<br/>A2A Examples in dimensional analysis 244<br/>A2.5 Appendix closure 262<br/>Appendix 3: renewable energy systems 263<br/>A3.1 Introduction 263<br/>A3.2 Wind turbines 264<br/>A3.3 Hydro power 267<br/>A3.4 Marine turbines 275<br/>A3.5 Solar irradiation and the solar constant 277<br/>A3.6 Photovoltaics 281<br/>A3.7 Biomass 282<br/>A3.8 Combined heat and power 285<br/>A3.9 Fuel cell CHP 287<br/>A3.10 References and further reading 289<br/>A3.11 Appendix closure 290<br/>Appendix 4: towards sustainable building engineering 291<br/>A4.1 Introduction 291<br/>A4.2 Thermodynamics and sustainability 292<br/>A4.3 The laws of thermodynamics 294<br/>A4.4 Power supplies 297<br/>A4.5 Products and systems 297<br/>A4.6 The building footprint 300<br/>A4.7 Scenarios for building services 300<br/>A4.8 Further reading 302<br/>A4.9 Appendix closure 303<br/>Bibliography 304<br/>Index 305 |
| 890 ## - Country | |
| Country | USA |
| 891 ## - Topic | |
| Topic | FT |
| 942 ## - ADDED ENTRY ELEMENTS (KOHA) | |
| Source of classification or shelving scheme | Dewey Decimal Classification |
| 650 ## - SUBJECT ADDED ENTRY--TOPICAL TERM | |
| Topical term or geographic name as entry element | Orientalism in art |
| -- | Numerical calculations |
| -- | Heat--Transmission--Mathematical models |
| -- | Heating--Mathematics |
| Withdrawn status | Lost status | Source of classification or shelving scheme | Damaged status | Not for loan | Collection code | Withdrawn status | Home library | Current library | Date acquired | Source of acquisition | Cost, normal purchase price | Total Checkouts | Total Renewals | Full call number | Barcode | Date last seen | Date last borrowed | Cost, replacement price | Price effective from | Koha item type |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| Dewey Decimal Classification | Faculty of Technology | CEPT Library | CEPT Library | 22/04/2022 | amazon.in | 1345.00 | 5 | 5 | 697 MOS | 023498 | 02/09/2024 | 13/08/2024 | 1345.00 | 22/04/2022 | Book |