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Building Physics - Heat, Air and Moisture
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Building Physics - Heat, Air and Moisture

Building Physics - Heat, Air and Moisture

Hugo s. l. hens (author)

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330 pages, parution le 05/09/2017
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Résumé

Dr. Ir. Hugo S.L.C. Hens is an emeritus professor of the University of Leuven (KULeuven), Belgium. Till 1972, he worked as a structural engineer and site supervisor at a medium-sized architectural office. In 1975, after defending his PhD thesis, he started the building physics research unit within the Faculty of Engineering of the university. He taught building physics from 1975 to 2003, performance based building design from 1975 to 2005 and building services from 1975 to 1977 and 1990 to 2008. He has authored and co-authored approx. 70 peer-reviewed journal papers and 170 conference papers, has helped to manage hundreds of building damage cases and acted as coordinator of the CIB W40 working group on Heat and Mass Transfer in Buildings from 1983 till 1993. Between 1986 and 2008, he was operating agent of the Annexes 14, 24, 32 and 41 of the International Energy Agency's EXCO on Energy in Buildings and Communities. He is a fellow of the American Society of Heating, Refrigeration and Air Conditioning Engineers (ASHRAE).Includes ebook access.Introduction
0.1 Subject of the book
0.2 Building physics
0.3 Importance of building physics
0.4 History of Building Physics
0.5 Units and symbols
1 Heat transfer
1.1 Overview
1.2 Conduction
1.2.1 Conservation of energy
1.2.2 Fourier laws
1.2.3 Steady state
1.2.4 Transient regime
1.3 Convection
1.3.1 Heat exchange at a surface
1.3.2 Convective heat transfer
1.3.3 Convection typology
1.3.4 Calculating the convective surface film coefficient
1.3.5 Values for the convective surface film coefficient
1.4 Radiation
1.4.2 Quantities
1.4.3 Reflection, absorption and transmission
1.4.4 Radiant surfaces
1.4.6 Grey bodies
1.4.7 Coloured bodies
1.4.8 Practical formulas
1.5 Applications
1.5.1 Surface film coefficients and reference temperatures
1.5.2 Steady state, one dimension: flat assemblies
1.5.3 Steady state, cylindrical coordinates: pipes
1.5.4 Steady state, two and three dimensions: thermal bridges
1.5.5 Steady state: windows
1.5.7 Transient, periodic: flat assemblies
1.5.8 Heat balances
1.5.8 Transient, periodic: spaces
1.6 Problems
2 Mass transfer
2.1 Generalities
2.1.1 Quantities and definitions
2.1.2 Saturation degrees
2.1.3 Air and moisture transport
2.1.4 Moisture sources
2.1.5 Air, moisture and durability
2.1.6 Link between mass and energy transfer
2.1.7 Conservation of mass
2.2 Air Transfer
2.2.1 Overview
2.2.2 Air pressure differences
2.2.3 Air permeances
2.2.4 Air transfer in open-porous materials
2.2.5 Air flow across permeable layers, apertures, joints, leaks and cavities
2.2.6 Air transfer at building level
2.2.7 Combined heat and air transfer
2.3 Vapour Transfer
2.3.1 Water vapour in the air
2.3.2 Water vapour in open-porous materials
2.3.3 Vapour transfer in the air
2.3.4 Vapour transfer in materials and assemblies
2.3.5 Surface film coefficients for diffusion
2.3.6 Applications
2.4 Moisture Transfer
2.4.1 Overview
2.4.2 Moisture transfer in a pore
2.4.3 Moisture transfer in materials and assemblies
2.4.4 Simplified moisture transfer
2.5 Problems
3 Combined heat, air, moisture transfer
3.1 Overview
3.2 Material and assembly level
3.3 Building Level
3.4 Problems
References
Annex, Problems, Solutions

Bad experiences with construction quality, the energy crises of 1973 and 1979, complaints about "sick buildings", thermal, acoustical, visual and olfactory discomfort, the need for good air quality, the move towards more sustainability - all these have accelerated the development of a field that, for a long time, was hardly more than an academic exercise: building physics (in English speaking countries sometimes referred to as building science). The discipline embraces domains such as heat and mass transfer, building acoustics, lighting, indoor environmental quality and energy efficiency. In some countries, fire safety is also included. Through the application of physical knowledge and its combination with information coming from other disciplines, the field helps to understand the physical phenomena governing building parts, building envelope, whole buildings and built environment performance, although for the last the wording "urban physics" is used. Today, building physics has become a key player on the road to a performance based building design.
The book deals with the description, analysis and modeling of heat, air and moisture transport in building assemblies and whole buildings with main emphasis on the building engineering applications, including examples. The physical transport processes determine the performance of the building envelope and may influence the serviceability of the structure and the whole building.
Compared to the second edition, in this third edition the text has partially been revised and extended.
Third editionTH6021Buildings - Environmental engineering.1GermanyWeinheimHugo S.L. Hens.

Caractéristiques techniques

  PAPIER
Éditeur(s) Wiley
Auteur(s) Hugo s. l. hens (author)
Parution 05/09/2017
Nb. de pages 330
Format 171 x 24
Poids 642g
EAN13 9783433031995

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