Abstract
The need for the selection of an appropriate insulation is becoming more important as environmental problems continue to grow. This paper investigates insulation performance in terms of heating energy requirement, environmental impact and cost. The thermal performance of insulations (natural, petrochemical, rock/slag based) is modelled, on brick, rammed earth (RE) and cavity walls, in different locations (external, internal and inside the wall), using software. The environmental performance of the insulation is determined using the Life Cycle Assessment-LCA-technique. A new scoring tool is created which allows inputted data, across the three areas of performance (energy, environmental, economic), to be standardized and compared, providing a final score that represents the overall performance. The input data and weightings can be modified easily to investigate new materials and to meet user requirements.Out of all the insulations, cellulose fibre showed the best overall performance. The model results highlight the importance of the hygrothermal properties of the insulation, and their compatibility with the substrate, for best energy performance. The insulated earth buildings require less energy for heating and are responsible for lower carbon emissions than the insulated brick buildings. This is attributed to the lower diffusivity of the earth walls attenuating external temperature fluctuation and economizing energy. The permeable insulations (cork and hemp) tend to perform better with earth than with brick, which is attributed to a more compatible hydric performance. The model results indicate that the best thermal performance is obtained when insulation is placed outside the wall.
Highlights
The building sector contributes to environmental damage through resource depletion, CO2 and other gas emissions and waste disposal
A review of the literature found that there are many ways of conducting a Life Cycle Assessment (LCA) due to the lack of rigidity within the framework [25,26,27,28], and that LCA can be assisted by Building Information Modelling (BIM) to reduce the time-consuming process of inventory analysis [29]
Comprehensive environmental as sessments using the LCA technique have been reported in the literature [26,27,28,29,30,31]
Summary
The building sector contributes to environmental damage through resource depletion, CO2 and other gas emissions and waste disposal. With the increasing importance of climate change, the building sector is under pressure to reduce its environmental impact. It is essential that solutions are found to combat the environmental damage of the building sector. The 2018 amendment to this directive enhances the renovation of existing buildings, which often includes the installation of insulation to improve the operational energy. Within this framework, the choice of insulation is yet to become even more important. The need to heat buildings during the winter, and cool them during the summer, means that selecting an appropriate insulation material is a key factor in building design
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