Towards indicative baseline and decarbonization pathways for embodied life cycle GHG emissions of buildings across Europe

M. Röck; K. Allacker; M. Auinger; M. Balouktsi; H. Birgisdottir; M. Fields; R. Frischknecht; G. Habert; L. Hvid Horup Sørensen; M. Kuittinen; X. Le Den; K. Lynge; A. Muller; S. Nibel; A. Passer; F. Piton; F. N. Rasmussen; M. Ruschi Mendes Saade; N. Alaux; D. Satola; A. Sørensen; M. Spitsbaard; S. Tikka; B. Tozan; B. Truger; M. van Leeuwen; M. Vesson; A. Viitala; R. Zonnevijlle; T. Lützkendorf

doi:10.1088/1755-1315/1078/1/012055

Towards indicative baseline and decarbonization pathways for embodied life cycle GHG emissions of buildings across Europe

M. Röck^*, K. Allacker, M. Auinger, M. Balouktsi, H. Birgisdottir, M. Fields, R. Frischknecht, G. Habert, L. Hvid Horup Sørensen, M. Kuittinen, X. Le Den, K. Lynge, A. Muller, S. Nibel, A. Passer, F. Piton, F. N. Rasmussen, M. Ruschi Mendes Saade, N. Alaux, D. SatolaA. Sørensen, M. Spitsbaard, S. Tikka, B. Tozan, B. Truger, M. van Leeuwen, M. Vesson, A. Viitala, R. Zonnevijlle, T. Lützkendorf

^*Korrespondierende/r Autor/-in für diese Arbeit

Publikation: Beitrag in einer Fachzeitschrift › Konferenzartikel › Begutachtung

Abstract

Buildings' construction and operation are major contributors to global greenhouse gas (GHG) emissions, and the substantial reduction of GHG emissions across their full life cycle is required to enable meeting international climate targets. For effective climate change mitigation - as recent studies have shown - a special focus has to be put on lowering embodied GHG emissions, i.e., emissions related to construction production manufacturing and construction processes, maintenance and replacement as well as end-of-life processing. As the importance of reducing embodied GHG emissions rises, so does the need for understanding both the baseline and pathways for reduction across the full life cycle of buildings. In this paper, we offer insights into the data-driven analysis of embodied GHG emissions across the whole life cycle of buildings from recent studies. Our investigation builds on the data collection, processing and harmonisation of around 1.000 building LCA case studies. We offer an integrated perspective on GHG emissions across the life cycle of buildings, considering historical trends, current baselines and indicative reduction pathways for embodied GHG emissions in different countries across Europe. This serves to inform our current 'decade of action' and the transformation to a regenerative built environment by 2050.

Originalsprache	englisch
Aufsatznummer	012055
Fachzeitschrift	IOP Conference Series: Earth and Environmental Science
Jahrgang	1078
Ausgabenummer	1
DOIs	https://doi.org/10.1088/1755-1315/1078/1/012055
Publikationsstatus	Veröffentlicht - 2022
Veranstaltung	Sustainable Built Environment D-A-CH Conference 2022 - Built environment within Planetary Boundaries: SBE22 berlin - Natural Building Lab constructive design and climate adaptive architecture TU Berlin, Berlin, Deutschland Dauer: 20 Sept. 2022 → 23 Sept. 2022 https://www.sbe22.berlin/

ASJC Scopus subject areas

Allgemeine Umweltwissenschaft
Allgemeine Erdkunde und Planetologie

Fields of Expertise

Sustainable Systems

UN SDGs

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10.1088/1755-1315/1078/1/012055Lizenz: CC BY 4.0

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Röck, M., Allacker, K., Auinger, M., Balouktsi, M., Birgisdottir, H., Fields, M., Frischknecht, R., Habert, G., Sørensen, L. H. H., Kuittinen, M., Le Den, X., Lynge, K., Muller, A., Nibel, S., Passer, A., Piton, F., Rasmussen, F. N., Saade, M. R. M., Alaux, N., ... Lützkendorf, T. (2022). Towards indicative baseline and decarbonization pathways for embodied life cycle GHG emissions of buildings across Europe. IOP Conference Series: Earth and Environmental Science, 1078(1), Artikel 012055. https://doi.org/10.1088/1755-1315/1078/1/012055

Röck, M, Allacker, K, Auinger, M, Balouktsi, M, Birgisdottir, H, Fields, M, Frischknecht, R, Habert, G, Sørensen, LHH, Kuittinen, M, Le Den, X, Lynge, K, Muller, A, Nibel, S, Passer, A, Piton, F, Rasmussen, FN, Saade, MRM , Alaux, N, Satola, D, Sørensen, A, Spitsbaard, M, Tikka, S, Tozan, B, Truger, B, van Leeuwen, M, Vesson, M, Viitala, A, Zonnevijlle, R & Lützkendorf, T 2022, 'Towards indicative baseline and decarbonization pathways for embodied life cycle GHG emissions of buildings across Europe', IOP Conference Series: Earth and Environmental Science, Jg. 1078, Nr. 1, 012055. https://doi.org/10.1088/1755-1315/1078/1/012055

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title = "Towards indicative baseline and decarbonization pathways for embodied life cycle GHG emissions of buildings across Europe",

abstract = "Buildings' construction and operation are major contributors to global greenhouse gas (GHG) emissions, and the substantial reduction of GHG emissions across their full life cycle is required to enable meeting international climate targets. For effective climate change mitigation - as recent studies have shown - a special focus has to be put on lowering embodied GHG emissions, i.e., emissions related to construction production manufacturing and construction processes, maintenance and replacement as well as end-of-life processing. As the importance of reducing embodied GHG emissions rises, so does the need for understanding both the baseline and pathways for reduction across the full life cycle of buildings. In this paper, we offer insights into the data-driven analysis of embodied GHG emissions across the whole life cycle of buildings from recent studies. Our investigation builds on the data collection, processing and harmonisation of around 1.000 building LCA case studies. We offer an integrated perspective on GHG emissions across the life cycle of buildings, considering historical trends, current baselines and indicative reduction pathways for embodied GHG emissions in different countries across Europe. This serves to inform our current 'decade of action' and the transformation to a regenerative built environment by 2050.",

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author = "M. R{\"o}ck and K. Allacker and M. Auinger and M. Balouktsi and H. Birgisdottir and M. Fields and R. Frischknecht and G. Habert and S{\o}rensen, {L. Hvid Horup} and M. Kuittinen and {Le Den}, X. and K. Lynge and A. Muller and S. Nibel and A. Passer and F. Piton and Rasmussen, {F. N.} and Saade, {M. Ruschi Mendes} and N. Alaux and D. Satola and A. S{\o}rensen and M. Spitsbaard and S. Tikka and B. Tozan and B. Truger and {van Leeuwen}, M. and M. Vesson and A. Viitala and R. Zonnevijlle and T. L{\"u}tzkendorf",

note = "Publisher Copyright: {\textcopyright} 2022 Institute of Physics Publishing. All rights reserved.; Sustainable Built Environment D-A-CH Conference 2022 - Built environment within Planetary Boundaries : SBE22 berlin, SBE 2022 ; Conference date: 20-09-2022 Through 23-09-2022",

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AU - Röck, M.

AU - Allacker, K.

AU - Auinger, M.

AU - Balouktsi, M.

AU - Birgisdottir, H.

AU - Fields, M.

AU - Frischknecht, R.

AU - Habert, G.

AU - Sørensen, L. Hvid Horup

AU - Kuittinen, M.

AU - Le Den, X.

AU - Lynge, K.

AU - Muller, A.

AU - Nibel, S.

AU - Passer, A.

AU - Piton, F.

AU - Rasmussen, F. N.

AU - Saade, M. Ruschi Mendes

AU - Alaux, N.

AU - Satola, D.

AU - Sørensen, A.

AU - Spitsbaard, M.

AU - Tikka, S.

AU - Tozan, B.

AU - Truger, B.

AU - van Leeuwen, M.

AU - Vesson, M.

AU - Viitala, A.

AU - Zonnevijlle, R.

AU - Lützkendorf, T.

PY - 2022

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N2 - Buildings' construction and operation are major contributors to global greenhouse gas (GHG) emissions, and the substantial reduction of GHG emissions across their full life cycle is required to enable meeting international climate targets. For effective climate change mitigation - as recent studies have shown - a special focus has to be put on lowering embodied GHG emissions, i.e., emissions related to construction production manufacturing and construction processes, maintenance and replacement as well as end-of-life processing. As the importance of reducing embodied GHG emissions rises, so does the need for understanding both the baseline and pathways for reduction across the full life cycle of buildings. In this paper, we offer insights into the data-driven analysis of embodied GHG emissions across the whole life cycle of buildings from recent studies. Our investigation builds on the data collection, processing and harmonisation of around 1.000 building LCA case studies. We offer an integrated perspective on GHG emissions across the life cycle of buildings, considering historical trends, current baselines and indicative reduction pathways for embodied GHG emissions in different countries across Europe. This serves to inform our current 'decade of action' and the transformation to a regenerative built environment by 2050.

AB - Buildings' construction and operation are major contributors to global greenhouse gas (GHG) emissions, and the substantial reduction of GHG emissions across their full life cycle is required to enable meeting international climate targets. For effective climate change mitigation - as recent studies have shown - a special focus has to be put on lowering embodied GHG emissions, i.e., emissions related to construction production manufacturing and construction processes, maintenance and replacement as well as end-of-life processing. As the importance of reducing embodied GHG emissions rises, so does the need for understanding both the baseline and pathways for reduction across the full life cycle of buildings. In this paper, we offer insights into the data-driven analysis of embodied GHG emissions across the whole life cycle of buildings from recent studies. Our investigation builds on the data collection, processing and harmonisation of around 1.000 building LCA case studies. We offer an integrated perspective on GHG emissions across the life cycle of buildings, considering historical trends, current baselines and indicative reduction pathways for embodied GHG emissions in different countries across Europe. This serves to inform our current 'decade of action' and the transformation to a regenerative built environment by 2050.

KW - Benchmarks

KW - Buildings

KW - Construction

KW - Data analysis

KW - Decarbonization

KW - Embodied carbon

KW - GHG emissions

KW - Reduction pathway

KW - Roadmap

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DO - 10.1088/1755-1315/1078/1/012055

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SN - 1755-1307

VL - 1078

JO - IOP Conference Series: Earth and Environmental Science

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T2 - Sustainable Built Environment D-A-CH Conference 2022 - Built environment within Planetary Boundaries

Y2 - 20 September 2022 through 23 September 2022

ER -

Towards indicative baseline and decarbonization pathways for embodied life cycle GHG emissions of buildings across Europe

Abstract

ASJC Scopus subject areas

Fields of Expertise

UN SDGs

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