Building renovation processes towards low greenhouse gas emissions and energy use
2016 (English)Licentiate thesis, comprehensive summary (Other academic)
Buildings from the record year era are now 40 – 55 years old and in many cases in need of extensive renovation measures. This need for renovation could be seen as an opportunity to achieve overarching sustainability target levels and to perform renovation with a holistic approach. This thesis aims at creating support for the formulation and achievement of adequate environmental targets that relate to overarching Swedish Environmental Quality Objectives. The overall aim of the thesis is to contribute to an understanding of the current situation of environmental management in renovation processes. The scope of this thesis is limited to the aspects energy use and greenhouse gas (GHG) emissions from energy use and material production. This thesis contributes to this aim with a stepwise procedure for evaluation of measures together with a proposal for target levels for three environmental aspects. The first paper appended to this thesis investigates how six Swedish property owners performed renovation projects. From this paper it can be concluded that the main barrier (except economic ones) are characterized by lack of knowledge about overarching objectives and what aspects define a sustainable built environment. The second paper assesses embodied GHG emissions due to material production for the totality of measures needed to reduce operational energy demand per unit heated floor area by 50% compared with 1995. On a national level, embodied GHG emissions are estimated to be 12% of the reduction of GHG emissions achieved by operational energy demand reduction. The final paper appended to this thesis uses a case study building to illustrate a working procedure to identify project-specific target levels for three environmental aspects. In addition, it identifies indicative improvements necessary for the achievement of long-term targets for those aspects, which could be focused and further investigated in later project stages with the help of a long-term plan of action.
Place, publisher, year, edition, pages
Stockholm: KTH Royal Institute of Technology, 2016. , 36 p.
TRITA-INFRA-FMS, ISSN 1652-5442 ; 2016:2
Renovation processes, buildings, energy efficiency, greenhouse gas emissions, target levels
Environmental Analysis and Construction Information Technology
IdentifiersURN: urn:nbn:se:kth:diva-192888ISBN: 978-91-7729-114-5OAI: oai:DiVA.org:kth-192888DiVA: diva2:972744
2016-11-09, Q24, Osquldas väg 6B, Stockholm, 09:30 (English)
Johansson, Dennis, Docent
Malmqvist, Tove, DocentFinnveden, Göran, Professor
FunderSwedish Research Council Formas
QC 201609262016-09-262016-09-222016-10-03Bibliographically approved
List of papers