综合能源模拟、降阶建模和 NSGA-II 算法,探讨不同国家目标下多目标节能历史建筑的优化改造方案

IF 6.1 1区 工程技术 Q1 CONSTRUCTION & BUILDING TECHNOLOGY
Hailu Wei, Yuanhao Jiao, Zhe Wang, Wei Wang, Tong Zhang
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引用次数: 0

摘要

根据不同的国家目标对历史建筑进行改造涉及多个目标、限制因素以及众多潜在的措施和一揽子方案,因此在早期设计阶段既耗时又具有挑战性。本研究介绍了一种系统的改造方法,其中包括针对建筑围护结构(墙壁、窗户、屋顶)以及供暖、制冷和照明系统的标准措施。根据中国的现行标准,确定了三个改造目标。改造措施作为优化节能、碳排放和净现值(NPV)的基因,通过能源模拟技术和 NSGA-II 采用对数相加分解法,分别得到 185、163 和 8 个解决方案。随后,提出了一种加权求和方法,以得出多种方案的最优解。该框架被应用于中国南京的一栋庭院建筑,并对实施结果进行了仔细研究,以确定各种情况下的最佳改造方案。通过改造,能耗可降低 63.62%,净现值增长 151.84%,碳减排率最高达 60.48%。这三个结果值不仅表明在节能、减碳和经济性这三个方面都达到了最优值,而且也表明了在这个多目标优化问题中可能存在均衡的可能性。本研究提出的框架通过采用可靠的优化算法和计算高效的降阶模型,有效地解决了建筑改造中的多目标优化难题。它为优化能源改造策略和满足各种性能目标提供了有价值的见解和建议。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Optimal retrofitting scenarios of multi-objective energy-efficient historic building under different national goals integrating energy simulation, reduced order modelling and NSGA-II algorithm

Retrofitting a historic building under different national goals involves multiple objectives, constraints, and numerous potential measures and packages, therefore it is time-consuming and challenging during the early design stage. This study introduces a systematic retrofitting approach that incorporates standard measures for the building envelope (walls, windows, roof), as well as the heating, cooling, and lighting systems. Three retrofit objectives are delineated based on prevailing Chinese standards. The retrofit measures function as genes to optimize energy-savings, carbon emissions, and net present value (NPV) by employing a log-additive decomposition approach through energy simulation techniques and NSGA-II, yielding 185, 163, and 8 solutions. Subsequently, a weighted sum method is proposed to derive optimal solutions across multiple scenarios. The framework is applied to a courtyard building in Nanjing, China, and the outcomes of the implementation are scrutinized to ascertain the optimal retrofit package under various scenarios. Through this retrofit, energy consumption can be diminished by up to 63.62%, resulting in an NPV growth of 151.84%, and maximum rate of 60.48% carbon reduction. These three result values not only indicate that the optimal values are achieved in these three aspects of energy saving, carbon reduction and economy, but also show the possibility of possible equilibrium in this multi-objective optimization problem. The framework proposed in this study effectively addresses the multi-objective optimization challenge in building renovation by employing a reliable optimization algorithm with a computationally efficient reduced-order model. It provides valuable insights and recommendations for optimizing energy retrofit strategies and meeting various performance objectives.

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来源期刊
Building Simulation
Building Simulation THERMODYNAMICS-CONSTRUCTION & BUILDING TECHNOLOGY
CiteScore
10.20
自引率
16.40%
发文量
0
审稿时长
>12 weeks
期刊介绍: Building Simulation: An International Journal publishes original, high quality, peer-reviewed research papers and review articles dealing with modeling and simulation of buildings including their systems. The goal is to promote the field of building science and technology to such a level that modeling will eventually be used in every aspect of building construction as a routine instead of an exception. Of particular interest are papers that reflect recent developments and applications of modeling tools and their impact on advances of building science and technology.
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