Abstract
Reducing the lifecycle energy use of buildings with renewable energy applications has become critical given the urgent need to decarbonize the building sector. Multi-objective optimizations have been widely applied to reduce the operational energy use of buildings, but limited studies concern the embodied or whole lifecycle energy use. Consequently, there are issues such as sub-optimal design solutions and unclear correlation between embodied and operational energy in the current building energy assessment. To address these gaps, this study integrates a multi-objective optimization method with building energy simulation and lifecycle assessment (LCA) to explore the optimal configuration of different building envelopes from a lifecycle perspective. Major contributions of the study include the integrated optimization which reflects the dynamics of the whole lifecycle energy use. Insights from the study reveal the optimal configuration of PV and composite building façades for different regions in sub-Saharan Africa. The lifecycle energy use for the optimized building design resulted in 24.59, 33.33, and 36.93% energy savings in Ghana, Burkina Faso, and Nigeria, respectively. Additionally, PV power generation can efficiently cover over 90% of the total building energy demand. This study provides valuable insights for building designers in sub-Saharan Africa and similar areas that minimize lifecycle energy demand.
Highlights
The optimization is performed for two other regions in sub-Saharan Africa: Abuja, Nigeria and Ouagadougou, Burkina Faso, and the results are detailed in Figures 11 and
Slight variations are observed in the embodied energy values due to the differences in transportation distances and materials manufacturing processes
This study evaluated the optimal configuration of different building envelopes with Nigeria
Summary
The increasing consumption of natural resources and primary energy and its accompanying greenhouse gas (GHG) emissions is considered a threat to environmental sustainability [1]. It is widely recognized that the building sector is a major culprit of materials and energy consumption and possess huge potentials to reduce global emissions through energy efficiency improvement and renewable energy applications [2,3,4]. The building sector consumes about 30% of primary energy globally and. Participating countries were required to submit nationally determined contributions and long-term low greenhouse gas emission development strategies in 2020. The European Union has set goals to increase energy efficiency to at least 32.5% and the share of renewable energy by at least 32% by
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