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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…mehr

Produktbeschreibung
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.
Autorenporträt
Karim Ghazi Wakili obtained his MS degree in experimental physics as well as his PhD from the Swiss Federal Institute of Technology (ETHZ) in Zurich Switzerland. He joined the Swiss Federal Laboratories for Materials Science and Technology (Empa) as member of the scientific staff, group leader and finally Senior Scientist in the former Laboratory for Building Physics where he served over a total period of 26 years. Since 2016 he is co-founder and managing director of the Institute for Applied Building Physics (IABP) in Winterthur Switzerland and has also a partial affiliation with the Bern University of Applied Sciences.
His area of research and expertise includes heat and mass transfer in porous building materials at ambient and fire temperatures as well as the corresponding numerical simulations and experimental techniques. He is member of the editorial board of "Energy and Buildings?, "Advances in Building Energy Research? and "Buildings?.