Add to ORKGA number of comparative LCA studies on structural systems mainly focus on the use of alternative building materials, without taking into account possible damage resulting from extreme events throughout their life cycle. The present study not only analyzes environmental impacts related to the choice of the structural system and its implications but also aims at investigating the consequences of structural damage from exceptional events (e.g. earthquakes) in a life cycle perspective, including maintenance and/or demolition and reconstruction of the building. This study suggests possible actions to optimize structural systems in terms of environmental sustainability according to the Life Cycle Thinking approach. The LCA analysis compares the ...
Considering latest natural disasters and the worrisome increase of demographic phenomenon, the criti...
SPEAR is the acronym for the European research project Seismic PErformance Assessment and Rehabilita...
The proper use of materials, products and construction technologies can significantly contribute to ...
With increasing demand to reduce the carbon emission of buildings, it is crucial to quantify the lif...
It is well-known that the existing building stock is responsible for non-renewable resource depletio...
Sustainable development aims to enhance the quality of life by improving the social, economic and en...
Life cycle assessment has become an important tool for determining the environmental impact of mater...
Being the building sector responsible of 30–40% of total greenhouse gases’ emissions and being some ...
The construction industry, as a main energy consumer and a foremost contributor to greenhouse gas em...
This paper proposes a stochastic life-cycle assessment (LCA) as a general stochastic formulation to ...
In this study, the possibility of applying the Life Cycle Thinking approach to structural design, co...
Growing awareness about building-related resource consumption and vulnerability to natural hazards h...
Existing buildings can reach a performance enhancement and extend their nominal service life through...
Recently there has been an increase of energy and environmental certifications in the Swedish buildi...
This dissertation presents models and methods for the lifecycle analysis of buildings. Detailed mode...
Considering latest natural disasters and the worrisome increase of demographic phenomenon, the criti...
SPEAR is the acronym for the European research project Seismic PErformance Assessment and Rehabilita...
The proper use of materials, products and construction technologies can significantly contribute to ...
With increasing demand to reduce the carbon emission of buildings, it is crucial to quantify the lif...
It is well-known that the existing building stock is responsible for non-renewable resource depletio...
Sustainable development aims to enhance the quality of life by improving the social, economic and en...
Life cycle assessment has become an important tool for determining the environmental impact of mater...
Being the building sector responsible of 30–40% of total greenhouse gases’ emissions and being some ...
The construction industry, as a main energy consumer and a foremost contributor to greenhouse gas em...
This paper proposes a stochastic life-cycle assessment (LCA) as a general stochastic formulation to ...
In this study, the possibility of applying the Life Cycle Thinking approach to structural design, co...
Growing awareness about building-related resource consumption and vulnerability to natural hazards h...
Existing buildings can reach a performance enhancement and extend their nominal service life through...
Recently there has been an increase of energy and environmental certifications in the Swedish buildi...
This dissertation presents models and methods for the lifecycle analysis of buildings. Detailed mode...
Considering latest natural disasters and the worrisome increase of demographic phenomenon, the criti...
SPEAR is the acronym for the European research project Seismic PErformance Assessment and Rehabilita...
The proper use of materials, products and construction technologies can significantly contribute to ...