Publications by Tove Malmqvist Stigell
Peer reviewed
Articles
[1]
A. Al-Najjar and T. Malmqvist, "Embodied carbon saving of reusing concrete elements in new buildings : A Swedish pilot study," Resources, Conservation and Recycling, vol. 212, 2025.
[2]
A. Dervishaj et al., "A digital workflow for assessing lifespan, carbonation, and embodied carbon of reusing concrete in buildings," Journal of Building Engineering, vol. 96, pp. 1-23, 2024.
[3]
Z. Barjot and T. Malmqvist, "Limit values in LCA-based regulations for buildings – System boundaries and implications on practice," Building and Environment, vol. 259, 2024.
[4]
T. Malmqvist and J. Brismark, "Embodied carbon savings of co-living and implications for metrics," Buildings and Cities, vol. 4, no. 1, pp. 386-404, 2023.
[5]
R. K. Zimmermann et al., "GHG emissions from building renovation versus new-build : incentives from assessment methods," Buildings and Cities, vol. 4, no. 1, pp. 274-291, 2023.
[6]
L. Harala et al., "Industrial ecosystem renewal towards circularity to achieve the benefits of reuse- Learning from circular construction," Journal of Cleaner Production, vol. 389, pp. 135885, 2023.
[7]
J. Brismark, T. Malmqvist and S. Borgström, "Climate Mitigation in the Swedish Single-Family Homes Industry and Potentials for LCA as Decision Support," Buildings, vol. 12, no. 5, pp. 588, 2022.
[8]
N. Francart et al., "Demands, default options and definitions : How artefacts mediate sustainability in public housing projects in Sweden and Cyprus," Energy Research & Social Science, vol. 92, 2022.
[9]
A. Moncaster et al., "Embodied carbon of concrete in buildings, Part 2 : are the messages accurate?," Buildings and Cities, vol. 3, no. 1, pp. 334, 2022.
[10]
N. Francart, T. Widström and T. Malmqvist, "Influence of methodological choices on maintenance and replacement in building LCA," The International Journal of Life Cycle Assessment, vol. 26, no. 11, pp. 2109-2126, 2021.
[11]
J. Lind, T. Malmqvist and J. Wangel, "Developing Citylab Post-Construction-A Swedish Certification System to Evaluate the Sustainability of Urban Areas," Sustainability, vol. 12, no. 11, 2020.
[12]
N. Francart et al., "Sharing indoor space: stakeholders’ perspectives and energy metrics," Buildings and Cities, pp. 70-85, 2020.
[13]
P. Hagbert and T. Malmqvist, "Actors in transition: shifting roles in Swedish sustainable housing development," Journal of Housing and the Built Environment, 2019.
[14]
J. Lind, T. Malmqvist and J. Wangel, "Key Considerations When Designing Certification Systems for Urban Sustainability and Implications for The Swedish Post-Construction System Citylab," Sustainability, vol. 11, no. 9, 2019.
[15]
N. Francart et al., "Requirements set by Swedish municipalities to promote construction with low climate change impact," Journal of Cleaner Production, vol. 208, pp. 117-131, 2019.
[16]
Å. Svenfelt et al., "Scenarios for sustainable futures beyond GDP growth 2050," Futures : The journal of policy, planning and futures studies, vol. 111, pp. 1-14, 2019.
[17]
A. M. Moncaster et al., "Widening understanding of low embodied impact buildings : Results and recommendations from 80 multi-national quantitative and qualitative case studies," Journal of Cleaner Production, vol. 235, pp. 378-393, 2019.
[18]
F. N. Rasmussen et al., "Analysing methodological choices in calculations of embodied energy and GHG emissions from buildings," Energy and Buildings, vol. 158, pp. 1487-1498, 2018.
[19]
N. Francart, T. Malmqvist and P. Hagbert, "Climate target fulfilment in scenarios for a sustainable Swedish built environment beyond growth," Futures : The journal of policy, planning and futures studies, vol. 98, pp. 1-18, 2018.
[20]
D. Berglund et al., "Comparative life-cycle assessment for renovation methods of waste water sewerage systems for apartment buildings," Journal of Building Engineering, vol. 19, pp. 98-108, 2018.
[21]
T. Malmqvist et al., "Design and construction strategies for reducing embodied impacts from buildings - Case study analysis," Energy and Buildings, vol. 166, pp. 35-47, 2018.
[22]
H. Birgisdottir et al., "IEA ESC annex 57 'evaluation of embodied energy and CO2eq for building construction'," Energy and Buildings, vol. 154, pp. 72-80, 2017.
[23]
S. Olsson, T. Malmqvist and M. Glaumann, "An approach towards sustainable renovationd : A tool for decision support in early project stages," Building and Environment, vol. 106, pp. 20-32, 2016.
[24]
J. Wangel et al., "Certification systems for sustainable neighbourhoods : What do they really certify?," Environmental impact assessment review, vol. 56, pp. 200-213, 2016.
[25]
N. Brown, T. Malmqvist and H. Wintzell, "Owner organizations' value-creation strategies through environmental certification of buildings," Building Research & Information, vol. 44, no. 8, pp. 863-874, 2016.
[26]
M. Wallhagen, T. Malmqvist and O. Eriksson, "Professionals’ knowledge and use of environmental assessment in an architectural competition," Building Research & Information, pp. 1-17, 2016.
[27]
N. Brown, T. Malmqvist and H. Wintzell, "Value creation for tenants in environmentally certified buildings," Building Research & Information, 2016.
[28]
S. Olsson, T. Malmqvist and M. Glaumann, "Managing Sustainability Aspects in Renovation Processes : Interview Study and Outline of a Process Model," Sustainability, vol. 7, pp. 6336-6352, 2015.
[29]
N. W. O. Brown, S. Olsson and T. Malmqvist, "Embodied greenhouse gas emissions from refurbishment of residential building stock to achieve a 50% operational energy reduction," Building and Environment, vol. 79, pp. 46-56, 2014.
[30]
N. W. O. Brown et al., "Sustainability assessment of renovation packages for increased energy efficiency for multi-family buildings in Sweden," Building and Environment, vol. 61, pp. 140-148, 2012.
[31]
T. Malmqvist et al., "A Swedish environmental rating tool for buildings," Energy, vol. 36, no. 4, pp. 1893-1899, 2011.
[32]
M. Wallhagen, M. Glaumann and T. Malmqvist, "Basic building life cycle calculations to decrease contribution to climate change : Case study on an office building in Sweden," Building and Environment, vol. 46, no. 10, pp. 1863-1871, 2011.
[33]
S. Toller et al., "Energy Use and Environmental impacts of the Swedish Building and Real Estate Management Sector," Journal of Industrial Ecology, vol. 15, no. 3, pp. 394-404, 2011.
[34]
T. Malmqvist et al., "Life Cycle Assessment in Buildings: the ENSLIC simplified method and guidelines," Energy, vol. 36, no. 4, pp. 1900-1907, 2011.
[35]
G. Assefa et al., "Quality versus impact : Comparing the environmental efficiency of building properties using the EcoEffect tool," Building and Environment, vol. 45, no. 5, pp. 1095-1103, 2010.
[36]
M. Glaumann et al., "Development of an environmental rating tool for buildings through a new kind of dialogue between stakeholders and researchers," Archnet-IJAR : International Journal of Architectural Research, vol. 3, no. 1, pp. 116-130, 2009.
[37]
T. Malmqvist and M. Glaumann, "Environmental efficiency in residential buildings : A simplified communication approach," Building and Environment, vol. 44, no. 5, pp. 937-947, 2009.
[38]
T. Malmqvist, "Environmental rating methods : selecting indoor environmental quality (IEQ) aspects and indicators," Building Research & Information, vol. 36, no. 5, pp. 466-485, 2008.
[39]
B. Brunklaus, T. Malmqvist and H. Baumann, "Managing Stakeholders or the Environment? : The Challenge of Relating Indicators in Practice," Corporate Social Responsibility and Environmental Management, vol. 16, no. 1, pp. 27-37, 2008.
[40]
G. Assefa et al., "Environmental assessment of building properties — Where natural and social sciences meet : the case of EcoEffect," Building and Environment, vol. 42, no. 3, pp. 1458-1464, 2007.
[41]
T. Malmqvist and M. Glaumann, "Selecting problem-related environmental indicators for housing management," Building Research & Information, vol. 34, no. 4, pp. 321-333, 2006.
Conference papers
[42]
A. Dervishaj, K. Gudmundsson and T. Malmqvist, "Digital workflow to support the reuse of precast concrete and estimate the climate benefit," in International Conference on Challenges for the Next Generation Built Environment, 09/05/2024 - 10/05/2024, Bologna, Italy, 2024, pp. 1-10.
[43]
F. N. Rasmussen et al., "Existing benchmark systems for assessing global warming potential of buildings : Analysis of IEA EBC Annex 72 cases," in IOP Conference Series : Earth and Environmental Science, 2022.
[44]
F. N. Rasmussen, T. Malmqvist and H. Birgisdóttir, "Drivers, barriers and development needs for LCA in the Nordic building sector - A survey among professionals," in IOP Conference Series : Earth and Environmental Science, 2020.
[45]
N. Francart and T. Malmqvist, "Investigation of maintenance and replacement of materials in building LCA," in IOP Conference Series : Earth and Environmental Science, 2020, p. 032027.
[46]
A. M. Moncaster and T. Malmqvist, "Reducing embodied impacts of buildings - Insights from a social power analysis of the UK and Sweden," in IOP Conference Series : Earth and Environmental Science, 2020, p. 032047.
[47]
J. Lind, T. Malmqvist and J. Wangel, "Developing Indicators to Evaluate Sustainability of Urban Areas," in YRSB19 IISBE Forum of Young Researchers in Sustainable Building, 2019.
[48]
J. Lind et al., "Citylab Action: Guiding Sustainable Urban Development," in Conference Proceedings - World Sustainable Built Environment Conference 2017 Hong Kong, 2017.
[49]
C. Liljenström and T. Malmqvist, "Resource use and greenhouse gas emissions of office fit-outs - A case study," in CESB 2016 - Central Europe Towards Sustainable Building 2016 : Innovations for Sustainable Future, 2016, pp. 182-189.
[50]
T. Malmqvist et al., "Design strategies for low embodied energy and greenhouse gases in buildings : analyses of the IEA Annex 57 case studies," in Proceedings of the World Sustainable Building Conference, SB14, Barcelona, October 28-30, 2014., 2014.
[51]
S. Olsson, T. Malmqvist and M. Glaumann, "Managing sustainability aspects in renovation processes : interview study and outline of a process model," in Proceedings of the World Sustainable Building Conference, SB14, Barcelona, October 28-30, 2014, 2014.
[52]
T. Malmqvist, L. Keski-Seppälä and M. Glaumann, "Integrating municipal climate targets with planning targets at building level in a life cycle perspective," in Proceedings of 6th World Sustainable Building Conference, SB11 Helsinki, October 18-22, 2011, 2011.
[53]
B. Peuportier et al., "Life cycle assessment methodologies in the construction sector: the contribution of the European LORE-LCA project.," in Proceedings of 6th World Sustainable Building Conference, SB11 Helsinki, October 18-21, 2011, 2011.
[54]
M. Glaumann, T. Malmqvist and M. Wallhagen, "Selecting environmental assessment tool for buildings," in Proceedings of 6th World Sustainable Building Conference, SB11 Helsinki, 2011.
[55]
N. Brown et al., "Sustainability assessment of Renovation for Increased End-use Energy Efficiency for Multi-family Buildings in Sweden," in Proceedings of 6th World Sustainable Building Conference, SB11, 2011.
[56]
G. Finnveden et al., "A Swedish Environmental rating Tool for Buildings," in Programme Book of SETAC 15th LCA Case Studies Symposium, 2009.
[57]
T. Malmqvist et al., "LCA in Buildings : the Enslic Simplified Method and Guidelines," in Archival of 5th Dubrovnik Conference on Sustainable Development of Energy, Water and Environment Systems. Dubrovnik, Croatia. Sep 29, 2009 - Oct 03, 2009, 2009.
[58]
T. Malmqvist and M. Glaumann, "Selecting aspects and indicators in environmental assessment methods for buildings," in PORTUGAL SB07 - SUSTAINABLE CONSTRUCTION, MATERIALS AND PRACTICES : CHALLENGE OF THE INDUSTRY FOR THE NEW MILLENNIUM, 2007, pp. 326-333.
[59]
M. Glaumann et al., "Development of an environmental classification system for buildings through a new kind of dialogue between stakeholders and researchers," in The 19th IAPS Conference. Alexandria, Egypt. 11-16 September, 2006, 2006.
[60]
T. Malmqvist, M. Glaumann and U. Westerberg, "A simplified method to generate weights for application in environmental assessment of buildings," in the International conference Sustainable Building 2005, 2005.
[61]
T. Malmqvist et al., "Environmental assessment of real estates – where natural and social sciences meet: the case of EcoEffect," in the International conference Sustainable Building 2005, 2005.
[62]
T. Malmqvist and M. Glaumann, "Impact indicators in the environmental management process of real estate companies – proposed concept and discussion of applicability," in the International conference Sustainable Building 2005, 2005.
Chapters in books
[63]
M. Glaumann and T. Malmqvist, "Assessing the environmental efficiency of Buildings," in Methodologies in housing research, Vestbro, D-U., Hürol, Y., and Wilkinson, N Ed., Tyne&Wear, Great Britain : The Urban International Press, 2005.
Non-peer reviewed
Articles
[64]
T. Malmqvist, P. Hagbert and N. Francart, "Mångfald av aktörer behövs för att nå hållbarhetsmålen," Samhällsbyggaren, vol. 1, 2019.
[65]
S.-O. Ryding et al., "Trafikverket inför klimatkrav i sina upphandlingar," Bygg och Teknik, vol. 5, 2019.
[66]
T. Malmqvist, M. Erlandsson and J. Kellner, "Vilken förbättringspotential finns ur klimatsynpunkt för olika byggsystem?," Bygg och Teknik, vol. 2, 2019.
[67]
M. Erlandsson and T. Malmqvist, "Olika byggsystem av betong och trä där mix av material inklusive stål ger klimatfördelar," Bygg och Teknik, vol. 7, 2018.
[68]
M. Malmaeus et al., "Riskabelt att tro att tillväxt ska lösa våra problem.," Svenska Dagbladet, 2018.
[69]
T. Malmqvist and M. Erlandsson, "Klimatpåverkan från byggprocessen – en ny fråga att hantera," PLAN, 2017.
[70]
[71]
[72]
M. Glaumann, T. Malmqvist and M. Wallhagen, "Miljöklassning och miljöpåverkan," Fastighetsnytt, no. 6, 2009.
Conference papers
[73]
T. Malmqvist and M. Glaumann, "To evaluate user satisfaction and environmental impact simultaneously in buildings," in 19th IAPS International Conference: Environment, Health, and Sustainable Development. Alexandria, Egypt. September 11-16 2006, 2006.
Chapters in books
[74]
F. N. Rasmussen et al., "Embodied Carbon In Building Regulation - Development And Implementation In Finland, Sweden And Denmark," in The Routledge Handbook of Embodied Carbon in the Built Environment, : Informa UK Limited, 2023, pp. 85-102.
[75]
A. H. Wiberg et al., "Embodied Emissions : Knowledge Building For Industry," in The Routledge Handbook of Embodied Carbon in the Built Environment, : Taylor and Francis, 2023, pp. 147-181.
[76]
T. Malmqvist et al., "Circularity in the built environment : – a call for a paradigm shift," in Handbook of the Circular Economy, Brandão, M., Lazarevic, D., Finnveden, G Ed., Cheltenham, UK : Edward Elgar Publishing, 2020.
[77]
A. M. Moncaster et al., "Embodied carbon measurement, mitigation and management within Europe, drawing on a cross-case analysis of 60 building case studies," in Embodied Carbon in Buildings: Measurement, Management, and Mitigation, : Springer International Publishing, 2018, pp. 443-462.
[78]
T. Malmqvist and N. Brown, ""Miljöbyggnad" som verktyg vid renovering," in Miljonprogrammet - utveckla eller avveckla?, Johansson, Birgitta Ed., Stockholm : Forskningsrådet Formas, 2012.
[79]
J. Nakao, T. Malmqvist and M. Glaumann, "Basic analysis to minimize contribution to climate change at building design : a Swedish case study," in Integrated approach towards sustainable constructions : Summary report of the cooperative activities COST Action C25 Sustainability of constructions, Braganca, L., Koukkari, H, Blok, R, Gervasio, H., Veljkovic, M., Plewako, Z., Borg, RP Ed., 1st ed. Malta : Department of Civil and Structural Engineering, University of Malta, 2011.
Theses
[80]
T. Malmqvist, "Methodological aspects of environmental assessment of buildings," Doctoral thesis Stockholm : KTH Royal Institute of Technology, Trita-SOM, 2008-10, 2008.
[81]
T. Malmqvist, "Fastighetsförvaltning med miljöproblemen i fokus : om miljöstyrning och uppföljning av minskad miljöpåverkan i fastighetsförvaltande organisationer," Licentiate thesis Stockholm : KTH, TRITA-INFRA, 2004.
Reports
[82]
T. Malmqvist et al., "Referensvärden för klimatpåverkan vid uppförande av byggnader. Version 2, 2023," Stockholm, TRITA-ABE-RPT, 233, 2023.
[83]
T. Malmqvist et al., "Referensvärden för klimatpåverkan vid uppförande av byggnader. Version 3, 2023.," Stockholm, Sweden : KTH Royal Institute of Technology, TRITA-ABE-RPT, 2325, 2023.
[84]
T. Malmqvist et al., "Referensvärden för klimatpåverkan vid uppförande av byggnader," Stockholm : KTH Royal Institute of Technology, TRITA-ABE-RPT, 2120, 2021.
[85]
J. Lind et al., "Bakgrund och motiveringar i utvecklingen av Citylab manual för certifiering av en stadsdels hållbarhet," , TRITA-ABE-RPT, 2010, 2020.
[86]
T. Malmqvist, Ö. Svane and K. Knatz, "How can Hammarby Sjöstad become more sustainable? : Master Students’ assessments using the CityLab tool," Stockholm, TRITA-ABE-RPT, 2018, 2020.
[87]
P. Hagbert et al., "Futures Beyond GDP Growth : Final report from the research program 'Beyond GDP Growth: Scenarios for sustainable building and planning'," Stockholm, TRITA-ABE-RPT, 1835, 2019.
[88]
T. Malmqvist, M. Lundgren and E. Sandström, "Byggnadens klimatpåverkan kan minska med en genomtänkt projekteringsprocess," Stockholm : White, 2018.
[89]
P. Hagbert et al., "Framtider bortom BNP-tillväxt : slutrapport från forskningsprogrammet "Bortom BNP-tillväxt: scenarier för hållbart samhällsbyggande"," Stockholm : KTH Royal Institute of Technology, TRITA-ABE-RPT, 1835, 2018.
[90]
T. Malmqvist and M. Erlandsson, "LCA-baserade miljökrav i byggandet. : Slutrapport inom E2B2-programmet," , E2B2, 2017:27, 2018.
[91]
M. Erlandsson et al., "Livscykelanalysbaserade miljökrav för byggnadsverk – En verktygslåda för att ställa miljökrav," , IVL, B2253, 2018.
[92]
T. Malmqvist et al., "Minskad klimatpåverkan från flerbostadshus – LCA av fem byggsystem," , IVL, C 344, 2018.
[93]
M. Erlandsson et al., "Minskad klimatpåverkan från nybyggda flerbostadshus – LCA av fem byggsystem," , IVL, C 350, 2018.
[94]
[95]
[96]
J. Florell et al., "Kommuners arbete med livscykelanalys och klimatpåverkan vid byggande," Alingsås, 2017.
[97]
U. Gunnarsson-Östling et al., "Scenarier för hållbart samhällsbyggande bortom BNP-tillväxt," , TRITA-INFRA-FMS, 2017:01, 2017.
[98]
M. Larsson et al., "Byggandets klimatpåverkan : Livscykelberäkning av klimatpåverkan för ett nyproducerat flerbostadshus med massiv stomme av trä," , IVL, B 2260, 2016.
[99]
M. Larsson, M. Erlandsson and T. Malmqvist, "Byggandets klimatpåverkan för ett flerbostadshus med yttervägg och stomme av korslimmat trä - kvarteret Strandparken : Sammanfattningsrapport," , IVL, B2260-P, 2016.
[100]
C. Liljenström et al., "Byggandets klimatpåverkan : Livscykelberäkning av klimatpåverkan och energianvändning för ett nyproducerat energieffektivt flerbostadshus i betong," Sveriges Byggindustrier, 2015.
[101]
Å. Svenfelt et al., "Testversion av scenarier för hållbart samhällsbyggande bortom BNP-tillväxt," Stockholm : KTH Royal Institute of Technology, TRITA-INFRA-FMS, 2015:05, 2015.
[102]
N. W. O. Brown, T. Malmqvist and H. Wintzell, "Mervärden för fastighetsägare vid miljöcertifiering av byggnader – en enkätstudie av fastighetsägare medmiljöcertifierade lokalfastigheter," Stockholm, Sweden : KTH Royal Institute of Technology, TRITA-INFRA-FMS, 2014:07, 2014.
[103]
N. W. O. Brown, T. Malmqvist and H. Wintzell, "Miljöcertifiering och mervärden : Vad säger svenska lokalfastighetsägare?," KTH Royal Institute of Technology, TRITA-INFRA-FMS, 2014:08, 2014.
[104]
S. Olsson, C. Liljenström and T. Malmqvist, "Miljöstyrning av renoveringsprocessen : intervjustudie samt litteratur-och projektsammanställning," Stockholm : KTH Royal Institute of Technology, TRITA-INFRA-FMS, 2014:3, 2014.
[105]
K. Wittchen et al., "Building typologies in Nordic countries : Identification of potential energy saving measures," Hörsholm, Denmark : SBi, Statens Byggeforskningsinstitut, SBi report, 2012-04, 2012.
[106]
T. Malmqvist, "Miljöbyggnad i renoveringsprocessen," Stockholm : SABO Sveriges allmännyttiga bostadsföretag, 2012.
[107]
[108]
[109]
[110]
T. Malmqvist and M. Noring, "Mervärden hos "gröna" fastigheter : Drivkrafter för energieffektivisering," Stockholm : KTH Royal Institute of Technology, TRITA-INFRA-FMS, 2009:5, 2009.
[111]
B. Peuportier et al., "State of the art for use of LCA in building sector : Deliverable D2 of the project ENSLIC_BUILDING : Energy Saving through Promotion of Life Cycle Assessment in Buildings," www.enslic.eu : enslic.eu, 2009.
[112]
[113]
M. Hult and T. Malmqvist, "Miljövärdering av bebyggelse. : Innemiljövärdering EcoEffect-metoden," Gävle : Högskolan i Gävle, FoU-rapport, 31, 2008.
[114]
M. Glaumann and T. Malmqvist, "Miljövärdering av bebyggelse – EcoEffect-metoden : Bakgrund och sammanfattande beskrivning," Stockholm : KTH - Miljöstrategisk analys, TRITA-INFRA-FMS, 2007:12, 2007.
[115]
Other
[116]
M. Wallhagen, M. Glaumann and T. Malmqvist, "Basic building life cycle calculations as decision support to decrease contribution to climate change," (Manuscript).
[117]
J. Lind, T. Malmqvist and J. Wangel, "Developing a certification system to evaluate the sustainability of urban areas post‑construction : the case of Citylab," (Manuscript).
[118]
N. Francart et al., "How artefacts mediate sustainability in public housing projects," (Manuscript).
[119]
[120]
N. Brown, S. Olsson and T. Malmqvist, "Screening of globalwarming potential due to material production for renovation measures for 50 % decrease innet energy demand of existing stock of residential buildings in Sweden," (Manuscript).
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