Overview
FrançaisABSTRACT
Nowadays, in the research of long-term solutions to limit the earth global warming due to green-house gas (GHG), the construction and building sector can play an important role. The setting of bio-based materials in new buildings or for renovation seems a reliable way of sustainability and tempo-rary carbon storage.
This paper aims at analyzing the physical phenomena and issues, by taking into account the moment and duration of the GHG storage and emissions: which type of bio-based material: agro-ressource or wood ; which lifespan for the buildings and the materials ; amount of carbon uptake in each plant, dissolution kinetics of GHG; which end of life scenario.
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Thibaut LECOMPTE: Senior lecturer – HDR - Université Bretagne Sud, UMR CNRS 6027, IRDL, Lorient, France
INTRODUCTION
Global warming has become an indisputable phenomenon, thanks to precise temperature measurements taken around the globe and numerous scientific studies, notably compiled by the experts of the IPCC (Intergovernmental Panel on Climate Change) since 1988. Awareness of global warming on the part of public authorities led to the first international conference in Rio in 1992, followed by annual COP (Conference Of the Parties) meetings since 1995, to discuss and commit countries to limiting the average temperature of the earth's surface. COP3 in Kyoto (1997) led to the "Kyoto Protocol", signed and ratified by over 190 states, including all European countries. COP21 in Paris in 2016 led to new commitments on limiting global warming (the Paris agreements).
The building sector in Europe accounts for a significant share of anthropogenic greenhouse gas (GHG) emissions: around 37% by 2022 according to the UN . These GHGs are linked both to the construction of buildings (extraction of raw materials, transport, transformation, implementation on site, maintenance, end-of-life) and to the use of buildings (heating, lighting, cooling, ventilation, domestic hot water, household appliances). On a global scale, use of existing buildings accounts for around three-quarters of emissions, and construction for around a quarter . This is why, since the 1990s, public authorities have mainly focused their regulations on controlling energy use, via thermal regulations. The ultimate aim is to build positive-energy buildings, i.e. passive buildings equipped with energy production systems. Achieving this goal means increasing the quantity or efficiency of insulating materials in building envelopes. The decrease in energy use, accompanied by an increase in the quantity of materials in the walls, is logically focusing more and more attention on materials, their energy content and their environmental impact. In France, this was the subject of the E+C experiment– (positive energy and carbon reduction buildings) between 2016 and 2020, which led to the recommendations of the RE2020, an environmental regulation that takes into account the "global warming" impact of materials chosen in the design phase of structures.
Building materials are often seen as "GHG emitters", in the same way as cementitious materials and steel products. For these sectors, the ecological effort consists in limiting the...
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KEYWORDS
wood | biobased compounds | building materials | LCA | temporary carbon storage | biobased materials
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CAN BE ALSO FOUND IN:
Home Materials Functional materials - Bio-based materials Bio-based building materials and temporary carbon storage
Home Innovations Smart cities Bio-based building materials and temporary carbon storage
Home Construction and public works Sustainable construction Bio-based building materials and temporary carbon storage
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Green chemistry
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Bio-sourced building materials and temporary carbon storage
Bibliography
Software tools
DYNCO2, version 2.0, May 2016, free download from CIRAIG website (Montreal)
https://ciraig.org/index.php/fr/project/dynco2-calculateur-dempreinte-carbone-dynamique/
ECOINVENT – Database 3.2
Websites
IPCC
http://www.ipcc.ch (page consulted on April 9, 2024)
EASAC
https://easac.eu (page consulted on January 22, 2019)
AGRESTE, French Ministry of Agriculture and Food
Events
ICBBM – International Conference on Bio-based Building Materials, held every two years (odd-numbered years).
Standards and norms
- Environmental management – Life cycle assessment – Principles and framework - ISO 14040 - 2006
- Environmental management – Life cycle assessment – Requirements and guidelines - ISO 14044 - 2006
- Contribution of building structures to sustainable development – Environmental product declarations – Rules governing construction product categories - NF EN 15804+A1 - Avril 2014
- Contribution of building...
Directory
IRDL – Institut de Recherche Dupuy de Lôme
Ecopertica
University of Southern Brittany: eco-materials and eco-construction programme
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