Sinopsis
This third book in a series of three dealing with building physics and its application, looks to the impact a performance requirements linked approach has on building design and construction. It starts with a resumption of what's expected from buildings, followed by discussing a range of materials needed to guarantee a correct heat, air, moisture response. Then, looked is to preparing the building site, the excavations needed, the foundations, the below-grade parts and spaces, the structural systems commonly used, the floors, different types of outer walls, different types of roof assemblies, inside walls, the glazing, windows, outer doors, glass façades, balconies, all kind of shafts, chimneys, stairs, timber-frame construction, wall, floor and ceiling finishes. Each time again, not only the heat, air, moisture related metrics but also structural integrity, durability, fire safety, acoustics, maintenance, sustainability and buildability are discussed. The whole ends with looking to the risks deficiencies may cause.
To do so, beside years of teaching, research and curing damage cases due to failing performance, a bunch of national and international sources and literature has been consulted, which is why each chapter ends with an extended has read list.
Mayor changes compared to the first edition is that the two volumes form one now, whereby combining, reshuffling, extending and redrafting was done where appropriate and necessary, so reducing the number of chapters from 28 to 20. Excavations and foundations now form a joint chapter, while the requirements for outer walls and roofs are considered uniformly and are now available in eight chapters on the building envelope, five of which are on outer walls and three on roof structures. Then come the inside walls and other specific parts, followed by one chapter on windows, outer doors and glass facades. The last three chapters deal with timber-frame construction, finishings, and risk assessment.
The content of all chapters has been critically reviewed, actualized and gifted with additional figures where needed, so incorporating the experiences gained during 38 years of teaching to architectural and building engineering students, 36 years of research and 53 years of consultancy.
(Package: Print Book + ePDF)
Acerca de los autores
Dr. Ir. Hugo S.L.C. Hens is an emeritus professor of the University of Leuven (KU Leuven), Belgium. Until 1972, he worked as a structural engineer and site supervisor at a mid-sized architectural office. After the sudden death of his predecessor and promotor Professor A. de Grave in 1975 and after defending his PhD thesis, he stepwise built up the Department of Building Physics at the Department of Civil Engineering.
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 authored and co-authored 68 peer reviewed journal papers and 174 conference papers about the research done, 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 to 1993. Between 1986 and 2008, he was operating agent of the Annexes 14, 24, 32 and 41 of the IEA EXCO on Energy in Buildings and Communities. He is a fellow of the American Society of Heating, Refrigeration and Air Conditioning Engineers (ASHRAE).
Dr. Ir. Hugo S.L.C. Hens ist emeritierter Professor der Universität Leuven (KU Leuven), Belgien. Bis 1972 arbeitete er als Tragwerkplaner und Bauleiter in einem mittelgroßen Architekturbüro. Nach dem plötzlichen Tod seines Vorgängers und Förderers Professor A. de Grave und nach der Verteidigung seiner Doktorarbeit baute er ab 1975 schrittweise das Fachgebiet Bauphysik am Fachbereich Bauingenieurwesen auf. Er lehrte Bauphysik von 1975 bis 2003, Performance Based Building Design von 1975 bis 2005 und Gebäudetechnik von 1975 bis 1977 und von 1990 bis 2008. Hugo Hens war Autor und Mitautor von 68 begutachteten Zeitschriftenaufsätzen und 174 Konferenzbeiträgen über seine Forschungsarbeiten, und erstellte Hunderte von Schadensgutachten und Sanierungsplanungen. Von 1983 bis 1993 wirkte er als Koordinator der CIB W40 Working group für "Heat and Mass Transfer in Buildings". Zwischen 1986 und 2008 war er Beauftragter für die Anhänge 14, 24, 32 und 41 der IEA EXCO on Energy in Buildings and Communities. Er ist Mitglied der American Society of Heating, Refrigeration and Air Conditioning Engineers (ASHRAE).
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