This chapter introduces some sustainability challenges, as well as the importance of resource efficiency and the European bioeconomy strategy. The importance of biobased materials and biotech admixtures for eco-efficient construction is summarized. The importance of changing the curriculum of civil engineering to address sustainability challenges and also enhance the collaboration between civil engineers and biotech experts is briefly discussed. Comments concerning the biobased and biotech related publication intensity of several well know civil engineering departments are also made. An outline of the book is also given.(undefined
Limiting global warming to 1.5°C requires immediate and drastic reductions in greenhouse gas (GHG) e...
Fossil fuels will run out in the foreseeable future. Out entire economic system is build upon fossil...
In the UK, the construction industry is responsible for over 50 % of total carbon emissions. 20% of ...
Over more recent years, society has witnessed an increasing demand for natural, bio or biotech-base...
This chapter starts with an overview on the sustainable development crucial challenges. The ones di...
In the housing market enormous challenges exist for the retrofitting of existing housing in combinat...
The structural engineering community has a strong responsibility to contribute to a more efficient u...
The bio-based economy relies on sustainable, plant-derived resources for fuels, chemicals, materials...
Bio-based materials are considered a promising resource for buildings in the twenty-first century du...
Developing and using planet-friendly materials can yield new, more sustainable business models — and...
SUMMARY Large quantities of materials are used in the Dutch civil engineering sector every year. Ma...
The since 2010 running research program 'Bio-Based Geo & Civil Engineering for a Sustainable Soc...
Dissertação de mestrado integrado em Engenharia Civil (área de especialização em Perfil de Construçõ...
This book gathers contributions from scientists and industry representatives on achieving a sustaina...
Ecological engineering or ecotechnology is defined as the design of sustainable production that inte...
Limiting global warming to 1.5°C requires immediate and drastic reductions in greenhouse gas (GHG) e...
Fossil fuels will run out in the foreseeable future. Out entire economic system is build upon fossil...
In the UK, the construction industry is responsible for over 50 % of total carbon emissions. 20% of ...
Over more recent years, society has witnessed an increasing demand for natural, bio or biotech-base...
This chapter starts with an overview on the sustainable development crucial challenges. The ones di...
In the housing market enormous challenges exist for the retrofitting of existing housing in combinat...
The structural engineering community has a strong responsibility to contribute to a more efficient u...
The bio-based economy relies on sustainable, plant-derived resources for fuels, chemicals, materials...
Bio-based materials are considered a promising resource for buildings in the twenty-first century du...
Developing and using planet-friendly materials can yield new, more sustainable business models — and...
SUMMARY Large quantities of materials are used in the Dutch civil engineering sector every year. Ma...
The since 2010 running research program 'Bio-Based Geo & Civil Engineering for a Sustainable Soc...
Dissertação de mestrado integrado em Engenharia Civil (área de especialização em Perfil de Construçõ...
This book gathers contributions from scientists and industry representatives on achieving a sustaina...
Ecological engineering or ecotechnology is defined as the design of sustainable production that inte...
Limiting global warming to 1.5°C requires immediate and drastic reductions in greenhouse gas (GHG) e...
Fossil fuels will run out in the foreseeable future. Out entire economic system is build upon fossil...
In the UK, the construction industry is responsible for over 50 % of total carbon emissions. 20% of ...