Reprint
Building Thermal Envelope
Edited by
March 2020
244 pages
- ISBN978-3-03928-518-1 (Paperback)
- ISBN978-3-03928-519-8 (PDF)
This is a Reprint of the Special Issue Building Thermal Envelope that was published in
Chemistry & Materials Science
Engineering
Environmental & Earth Sciences
Physical Sciences
Summary
This book results from a Special Issue published in Energies, entitled “Building Thermal Envelope". Its intent is to identify emerging research areas within the field of building thermal envelope solutions and contribute to the increased use of more energy-efficient solutions in new and refurbished buildings. Its contents are organized in the following sections: Building envelope materials and systems envisaging indoor comfort and energy efficiency; Building thermal and energy modelling and simulation; Lab test procedures and methods of field measurement to assess the performance of materials and building solutions; Smart materials and renewable energy in building envelope; Adaptive and intelligent building envelope; and Integrated building envelope technologies for high performance buildings and cities.
Format
- Paperback
License and Copyright
© 2020 by the authors; CC BY-NC-ND license
Keywords
hybrid heat collecting facade (HHCF); passive solar building; heat transfer model; thermal performance; heat transfer; energy; thermosyphon; natural circulation loop; thermal resistance; thermal transmittance; heat flow meter method; average method; convergence characteristics; opaque exterior wall; hot box; thermal models; measuring and control system; digital temperature probes; data post-processing; roof window; thermal performance; passive building; building component development; natural ventilation; air environment; school restroom; awning window; CFD; thermal anisotropy; building envelope; thermal management; energy efficiency; peak load reduction; window thermal performance; U-value; window type; simulation performance test; actual physical performance test; heat transfer; energy; thermosyphon; natural circulation loop; expanded polystyrene (EPS); gray polystyrene; artificial sun; thermographic measurement; temperature distribution; cork; energy retrofitting; life cycle assessment; life cycle costs; thermal insulating rendering mortar; Building Information Modeling; cloud-based; envelope thermal performance; green buildings; Green Mark; Integrated Digital Delivery (IDD); traditional Diyarbakır houses; courtyard; settlement; Designbuilder simulation; energy performance; n/a