Stahl | Energy-Efficient Retrofit of Buildings by Interior Insulation | Buch | 978-0-12-816513-3 | sack.de

Buch, Englisch, 518 Seiten, Format (B × H): 152 mm x 229 mm, Gewicht: 840 g

Stahl

Energy-Efficient Retrofit of Buildings by Interior Insulation

Materials, Methods, and Tools
Erscheinungsjahr 2021
ISBN: 978-0-12-816513-3
Verlag: William Andrew Publishing

Materials, Methods, and Tools

Buch, Englisch, 518 Seiten, Format (B × H): 152 mm x 229 mm, Gewicht: 840 g

ISBN: 978-0-12-816513-3
Verlag: William Andrew Publishing


Energy-Efficient Retrofit of Buildings by Interior Insulation: Materials, Methods and Tools offers readers comprehensive coverage of current research in German Language Countries. Chapters provide an overview on the development of energy efficiency for building retrofits and the role of internal insulation, cover materials with chapters on Brick, Wood, Plaster, Clay, and Natural Stone, explain the impact of internal insulation in those materials and how to cope with problems such as moisture build, mold and algae growth, provide practical advice on how to apply internal insulation in the most effective way, including Salt Efflorescence, Noise Protection, Fire Prevention, and more.

The practical approach of the book, with examples in all chapters, makes it valuable for Civil and Architectural Engineers involved with building retrofit. The book may also be useful to researchers in the field of Building Physics due to the breadth of the coverage.
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Zielgruppe


<p>Civil engineers, Architects, local authorities, town councils, building owners, consulting engineers, students, funding bodies, real estate managers, monument conservator, producing companies, building experts</p>


Autoren/Hrsg.


Weitere Infos & Material


Section 1: Materials 1.1. Materials (wood, concrete, brick, natural stones, renewables) 1.2. Peculiarities of using VIP as internal insulation 1.3 Hydrophilic and hydrophobic materials as internal insulations for historic masonry walls 1.4 Historical plasters in connection with thermal insulations 1.5 Advantages and use of a newly developed load-bearing insulation material made of cattail 1.6 Hygric interactions with antigraffiti systems 1.7 Insulating plasters and their use as internal insulation

Section 2: Measurements and Procedures 2.1 Restoration of moisture and salt damaged masonry 2.2 Status analysis and building diagnosis prior to the application of internal insulation; practical implementation of the results obtained; some examples 2.3 Influence of internal thermal insulation on the sound insulation of walls 2.4 Peculiarities of installing internal insulation in half-timbered walls; detailed solutions; some examples 2.5 In situ measurement of water uptake on facades and its correspondence with internal insulation materials 2.6 Holistic and process approach to internal insulation 2.7 Peculiarities of fire protection in case of internal insulation; fire prevention and fire protection concepts; some examples 2.8 Variations and design options in renovation with internal insulation 2.9 Internally insulating building details in contact with the ground 2.10 Mitigation of structural thermal bridges 2.11 Energy-efficient renovation with internal insulation

Section 3: Simulation and Analysis Tools 3.1 Case study: Near zero energy building 3.2 Hygrothermal behavior of internal insulation systems with component integrated heating elements 3.3 Interior insulation and mold problems 3.4 Comparison of different internal thermal insulation materials with respect to their hygrothermal behavior 3.5 Energy performance evaluation of internal insulation as a measure for the modernization of existing buildings


Stahl, Thomas
Thomas Stahl earned his MS degree in building physics and engineering from the University of Applied Sciences in Stuttgart and his second MS degree in building refurbishment from the University of Weimar. He has longtime working experience in the Building Science and Technology Laboratory of the Swiss Federal Laboratories for Materials Science and Technology (Empa) as building physicist and material developer (aerogel insulation plaster, moisture buffering plaster). From 2014 to 2019 he has been engaged in the development of innovative building materials in the R&D of Swiss Industrial companies serving as research team leader and managing director. Since 2016, he is co-founder and managing director of the Institute for Applied Building Physics (IABP) in Winterthur, Switzerland. Thomas Stahl is leading a working group within the International Association for Science and Technology of Building Maintenance and Monuments Preservation (WTA) and author of numerous publications in national and international journals.


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