Technical gazette, Vol. 30 No. 5, 2023.
Original scientific paper
https://doi.org/10.17559/TV-20230601000689
Analysis of Influencing Factors of Green Building Energy Consumption Based on Genetic Algorithm
Tiangui Luo
; PowerChina Roadbridge Group Co., LTD., Dongying Shandong, 257092, China
Jingwen Sun
; PowerChina Roadbridge Group Co., LTD., Dongying Shandong, 257092, China
Geriletu Zhang
; PowerChina Roadbridge Group Co., LTD., Dongying Shandong, 257092, China
Zhendong Li
; PowerChina Roadbridge Group Co., LTD., Dongying Shandong, 257092, China
Chengfeng Li
; PowerChina Roadbridge Group Co., LTD., Dongying Shandong, 257092, China
Abstract
With the advancement of modernization, high energy consumption buildings can no longer meet the needs of social development. Under the background of low carbon and energy saving, the development of green buildings has become the only way, but its energy-saving design effect needs to be further studied. Aiming at lighting and energy consumption, this study carried out multi-factor optimization analysis based on genetic algorithm on factors such as windowing ratio, wall heat transfer coefficient, window heat transfer coefficient, window transmittance and roof insulation coefficient. Firstly, the theory and technical scheme of applying data mining technology to solve the energy-saving design problems of different buildings are proposed and implemented, including the design of new and existing buildings, as well as the determination of decisive parameters and non-decisive parameters. Secondly, computer simulation and theoretical analysis are used to optimize the analysis of the building scheme, so as to find the optimal design range of each influencing factor and the optimal design method of green low-energy building. Multi-factor optimization theory and genetic algorithm principle are summarized, and the heat transfer coefficient of external wall and window of the building is selected as the optimization variable, so as to achieve low energy consumption and enclosure cost of the building. Aiming at better thermal comfort, an optimization model was established. Finally, through empirical research, an energysaving plan was designed, and genetic algorithm was used to obtain the optimal solution for maximizing the incremental benefits obtained by unit input incremental cost. The results indicate that the ideal incremental benefits come from a reasonable and effective combination of technologies, mainly from air conditioning systems and lighting systems; the setting of the benchmark return rate will directly affect the optimization effect of energy-saving plans, providing decision-makers with the optimal combination of energy-saving technologies.
Keywords
energy saving scheme; genetic algorithm; green building; incremental benefit; multi-factor optimization
Hrčak ID:
307711
URI
Publication date:
31.8.2023.
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