A multi-objective optimization framework for designing urban block forms considering daylight, energy consumption, and photovoltaic energy potential
Urban form significantly influences building energy consumption. However, most research has primarily focused on quantifying the relationship between the two factors, with limited exploration of optimizing urban form to enhance building energy performance. Moreover, studies often fail to consider mu...
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| Published in | Building and environment Vol. 242; p. 110585 |
|---|---|
| Main Authors | , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Elsevier Ltd
15.08.2023
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| Subjects | |
| Online Access | Get full text |
| ISSN | 0360-1323 1873-684X |
| DOI | 10.1016/j.buildenv.2023.110585 |
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| Abstract | Urban form significantly influences building energy consumption. However, most research has primarily focused on quantifying the relationship between the two factors, with limited exploration of optimizing urban form to enhance building energy performance. Moreover, studies often fail to consider multiple performance objectives simultaneously. This study proposes a multi-objective optimization framework for early urban design stage to improve energy and environmental performance in residential block layouts. The performance objectives include energy consumption, photovoltaic energy potential, and sunlight hours. The framework is implemented using the parametric platform Rhino & Grasshopper, where a parametric model controls the layout of blocks. Ladybug Tools plugin is employed for performance simulation, and Wallacei is used for optimization. An ideal residential block in Jianhu City, China, is taken as a case study. The study generates a total of 1896 valid solutions, including 58 Pareto solutions. The performance of the Pareto solutions demonstrates considerable improvements, indicating the effectiveness of optimizing urban form for enhancing energy and environmental performance. Compared to the initial solution, a typical Pareto solution showcases a 1.5% reduction in energy consumption, a 52.7% increase in photovoltaic energy potential, and a 50% increase in sunlight hours. These findings underscore the pivotal role of urban block morphology in influencing energy consumption, photovoltaic potential, and daylighting. The proposed multi-objective framework in this study enhances and facilitates sustainable block form design, which is expected to provide technical support for energy-efficient or low-carbon urban design.
•A multi-objective optimization framework for designing urban block forms is proposed.•Constructing parametric urban block models based on typical local building types.•Daylighting, energy consumption, and PV energy potential are selected as objectives.•The performance of the Pareto solutions is improved compared to the initial solution. |
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| AbstractList | Urban form significantly influences building energy consumption. However, most research has primarily focused on quantifying the relationship between the two factors, with limited exploration of optimizing urban form to enhance building energy performance. Moreover, studies often fail to consider multiple performance objectives simultaneously. This study proposes a multi-objective optimization framework for early urban design stage to improve energy and environmental performance in residential block layouts. The performance objectives include energy consumption, photovoltaic energy potential, and sunlight hours. The framework is implemented using the parametric platform Rhino & Grasshopper, where a parametric model controls the layout of blocks. Ladybug Tools plugin is employed for performance simulation, and Wallacei is used for optimization. An ideal residential block in Jianhu City, China, is taken as a case study. The study generates a total of 1896 valid solutions, including 58 Pareto solutions. The performance of the Pareto solutions demonstrates considerable improvements, indicating the effectiveness of optimizing urban form for enhancing energy and environmental performance. Compared to the initial solution, a typical Pareto solution showcases a 1.5% reduction in energy consumption, a 52.7% increase in photovoltaic energy potential, and a 50% increase in sunlight hours. These findings underscore the pivotal role of urban block morphology in influencing energy consumption, photovoltaic potential, and daylighting. The proposed multi-objective framework in this study enhances and facilitates sustainable block form design, which is expected to provide technical support for energy-efficient or low-carbon urban design.
•A multi-objective optimization framework for designing urban block forms is proposed.•Constructing parametric urban block models based on typical local building types.•Daylighting, energy consumption, and PV energy potential are selected as objectives.•The performance of the Pareto solutions is improved compared to the initial solution. |
| ArticleNumber | 110585 |
| Author | Kong, Lingyu Zhang, Ran Huang, Wenxin Liu, Ke Xu, Xiaodong Wang, Xi |
| Author_xml | – sequence: 1 givenname: Ke orcidid: 0000-0003-0191-4149 surname: Liu fullname: Liu, Ke email: 230218543@seu.edu.cn – sequence: 2 givenname: Xiaodong surname: Xu fullname: Xu, Xiaodong email: xuxiaodong@seu.edu.cn – sequence: 3 givenname: Wenxin orcidid: 0009-0004-3340-4383 surname: Huang fullname: Huang, Wenxin – sequence: 4 givenname: Ran surname: Zhang fullname: Zhang, Ran – sequence: 5 givenname: Lingyu surname: Kong fullname: Kong, Lingyu – sequence: 6 givenname: Xi surname: Wang fullname: Wang, Xi |
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| Keywords | Energy consumption Sunlight hours Computational urban design Solar photovoltaic energy generation Multi-objective optimization Urban block forms |
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| SubjectTerms | Computational urban design Energy consumption Multi-objective optimization Solar photovoltaic energy generation Sunlight hours Urban block forms |
| Title | A multi-objective optimization framework for designing urban block forms considering daylight, energy consumption, and photovoltaic energy potential |
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