Multi-objective optimisation of concrete floors for economic and environmental performance is critical in the present context since the building construction sector is responsible for a rising share of the global economy and greenhouse gas emissions. This study explores how the designs with optimum cost and embodied carbon are governed by the selection of a concrete floor system and column spacing. Discrete concrete floor designs were generated parametrically varying the column spacing for eight different construction forms available in practice. Pareto optimal solutions for cost and cradle-to-gate embodied carbon were identified for a range of column spacings. The trends of the sensitivity of the optimum solutions were also investigated du...
The construction industry is under considerable legislative pressure to reduce its carbon emission...
The study investigated an area of sustainable structural design that is often overlooked in practica...
This paper explores the potential of thin concrete shells as low-carbon alternatives to floor slabs ...
Multi-objective optimisation of concrete floors for economic and environmental performance is critic...
The present climate emergency demands the construction industry to minimise the carbon footprint of ...
Minimising the carbon footprint of concrete buildings is vital in the presence of the climate emerge...
The built environment is one of the largest contributors of carbon emissions due to the rapid pace o...
The cost and carbon efficiency of building structures could be enhanced by the current developments ...
The construction industry has received attention due to its significant contribution to global carbo...
In the construction of multistory buildings, the reinforced concrete flat slab is a preferred floor ...
Carbon dioxide (CO2) is one of the leading greenhouse gases causing global warming. Statistics show ...
This paper investigates the effects of concrete grades and column spacings on the optimal design of ...
Construction material consumption is greater than any time in history. Australia produces approximat...
Rapid urbanisation and population growth is driving unprecedented levels of building construction. O...
An integrated design approach for the cost and embodied carbon optimisation of reinforced concrete s...
The construction industry is under considerable legislative pressure to reduce its carbon emission...
The study investigated an area of sustainable structural design that is often overlooked in practica...
This paper explores the potential of thin concrete shells as low-carbon alternatives to floor slabs ...
Multi-objective optimisation of concrete floors for economic and environmental performance is critic...
The present climate emergency demands the construction industry to minimise the carbon footprint of ...
Minimising the carbon footprint of concrete buildings is vital in the presence of the climate emerge...
The built environment is one of the largest contributors of carbon emissions due to the rapid pace o...
The cost and carbon efficiency of building structures could be enhanced by the current developments ...
The construction industry has received attention due to its significant contribution to global carbo...
In the construction of multistory buildings, the reinforced concrete flat slab is a preferred floor ...
Carbon dioxide (CO2) is one of the leading greenhouse gases causing global warming. Statistics show ...
This paper investigates the effects of concrete grades and column spacings on the optimal design of ...
Construction material consumption is greater than any time in history. Australia produces approximat...
Rapid urbanisation and population growth is driving unprecedented levels of building construction. O...
An integrated design approach for the cost and embodied carbon optimisation of reinforced concrete s...
The construction industry is under considerable legislative pressure to reduce its carbon emission...
The study investigated an area of sustainable structural design that is often overlooked in practica...
This paper explores the potential of thin concrete shells as low-carbon alternatives to floor slabs ...