Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Renovation of an Office Building with Prefabricated Wooden Element—Case Hedensbyn
Abstract There is a major need of cost-effective renovation that leads to lower energy consumption and better environment. This article shows the results from a pilot case of a newly developed prefabricated building system. It is an industrially prefabricated insulated wooden element adapted to renovation and upgrading of building envelopes. The renovated building is a one-story office building located in Skellefteå in the north of Sweden. Energy performance, thermal bridges, risk of moisture problems, LCA, applicability of the renovation method and assembly time were evaluated during the planning and execution of the renovation. Results from this case show that the elements were very light and easy for one person to handle at the building site. There is a great potential to reduce assembly time with improved joints and element sizes adapted to the building as well as improved batch packaging from the factory. With 100 mm insulation, the renovation gives a certain energy savings, and LCA calculations show that the reduction of climate impact due to reduced heating energy used during a service life 50 years corresponds to the climate impact of the renovation measures. The risk of microbial growth can be regarded as small.
Renovation of an Office Building with Prefabricated Wooden Element—Case Hedensbyn
Abstract There is a major need of cost-effective renovation that leads to lower energy consumption and better environment. This article shows the results from a pilot case of a newly developed prefabricated building system. It is an industrially prefabricated insulated wooden element adapted to renovation and upgrading of building envelopes. The renovated building is a one-story office building located in Skellefteå in the north of Sweden. Energy performance, thermal bridges, risk of moisture problems, LCA, applicability of the renovation method and assembly time were evaluated during the planning and execution of the renovation. Results from this case show that the elements were very light and easy for one person to handle at the building site. There is a great potential to reduce assembly time with improved joints and element sizes adapted to the building as well as improved batch packaging from the factory. With 100 mm insulation, the renovation gives a certain energy savings, and LCA calculations show that the reduction of climate impact due to reduced heating energy used during a service life 50 years corresponds to the climate impact of the renovation measures. The risk of microbial growth can be regarded as small.
Renovation of an Office Building with Prefabricated Wooden Element—Case Hedensbyn
Sandberg, Karin (Autor:in) / Gustafsson, Anders (Autor:in) / Pousette, Anna (Autor:in) / Norén, Joakim (Autor:in) / Soleimani-Mohseni, Mohsen (Autor:in)
12.12.2018
12 pages
Aufsatz/Kapitel (Buch)
Elektronische Ressource
Englisch
Façade renovation , Building envelope , Prefabricated wood element , Energy efficiency , Thermal bridge , Insulation , Climate impact , Retrofitting Energy , Sustainable Architecture/Green Buildings , Building Physics, HVAC , Interior Architecture and Design , Renewable and Green Energy , Construction Management , Urban Geography / Urbanism (inc. megacities, cities, towns)
| NTIS | 1987
HOUSE-BUILDING KIT FOR PREFABRICATED WOODEN HOUSE CONSTRUCTION
| Europäisches Patentamt | 2017
Hygrothermal behaviour of prefabricated façade elements for building renovation
| BASE | 2016