A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Simulation-Based Optimization of Building Renovation Considering Energy Consumption and Life-Cycle Assessment
Buildings consume a tremendous amount of the total use of secondary energy resulting in a considerable impact on the environment. Therefore, it is necessary to reduce their energy consumption by improving the design of new buildings or renovating existing buildings. However, renovating building envelopes and energy systems to lessen energy losses is usually expensive and has a long payback period. Despite the significant contribution of the research about optimizing energy consumption, there is limited research focusing on the renovation of existing buildings to minimize their environmental impact using life cycle assessment (LCA). This study aims to develop a methodology to optimize the energy performance of existing buildings by selecting the optimal renovation strategies considering LCA. Different scenarios can be combined in a building renovation strategy to improve energy efficiency. Each scenario considers several factors including improvement of the building envelopes, heating, ventilation, and air conditioning (HVAC) systems, and local energy generation systems. However, some of these scenarios could be inconsistent and should be eliminated. Another consideration in this research is the appropriate coupling of renovation scenarios. For example, the HVAC system must be redesigned when renovating the building envelope to consider the reduced energy demand and to avoid undesirable side effects. A genetic algorithm (GA) coupled with an energy simulation tool is used for simultaneously minimizing the energy consumption and the LCA of the building. The simulation tool is used to calculate the energy consumption for each potential solution representing one renovation scenario. The data of the building characteristics are extracted from the building information model (BIM). The feasibility of the proposed method is demonstrated using a case study focusing on the buildings of Concordia University.
Simulation-Based Optimization of Building Renovation Considering Energy Consumption and Life-Cycle Assessment
Buildings consume a tremendous amount of the total use of secondary energy resulting in a considerable impact on the environment. Therefore, it is necessary to reduce their energy consumption by improving the design of new buildings or renovating existing buildings. However, renovating building envelopes and energy systems to lessen energy losses is usually expensive and has a long payback period. Despite the significant contribution of the research about optimizing energy consumption, there is limited research focusing on the renovation of existing buildings to minimize their environmental impact using life cycle assessment (LCA). This study aims to develop a methodology to optimize the energy performance of existing buildings by selecting the optimal renovation strategies considering LCA. Different scenarios can be combined in a building renovation strategy to improve energy efficiency. Each scenario considers several factors including improvement of the building envelopes, heating, ventilation, and air conditioning (HVAC) systems, and local energy generation systems. However, some of these scenarios could be inconsistent and should be eliminated. Another consideration in this research is the appropriate coupling of renovation scenarios. For example, the HVAC system must be redesigned when renovating the building envelope to consider the reduced energy demand and to avoid undesirable side effects. A genetic algorithm (GA) coupled with an energy simulation tool is used for simultaneously minimizing the energy consumption and the LCA of the building. The simulation tool is used to calculate the energy consumption for each potential solution representing one renovation scenario. The data of the building characteristics are extracted from the building information model (BIM). The feasibility of the proposed method is demonstrated using a case study focusing on the buildings of Concordia University.
Simulation-Based Optimization of Building Renovation Considering Energy Consumption and Life-Cycle Assessment
Sharif, Seyed Amirhosain (author) / Hammad, Amin (author)
ASCE International Workshop on Computing in Civil Engineering 2017 ; 2017 ; Seattle, Washington
Computing in Civil Engineering 2017 ; 288-295
2017-06-22
Conference paper
Electronic Resource
English
| British Library Conference Proceedings | 2017
| BASE | 2019
| BASE | 2019
| BASE | 2019