High-resolution, spatial thermal energy demand analysis and workflow for a city district

Q1 Social Sciences

International Journal of Sustainable Energy Planning and Management Pub Date : 2023-07-06 DOI:10.54337/ijsepm.7570

H. Edtmayer, Lisa-Marie Fochler, T. Mach, Jennifer Fauster, E. Schwab, C. Hochenauer

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引用次数: 1

Abstract

Knowledge about the demand of renewable thermal energy is essential for the integrated planning of sustainable cities. Planners and decision-makers need high-quality and comprehensive data for rapid and decisive action. However, little to no corresponding information is available for the status quo or possible development scenarios. Thus, new methods for urban building energy modelling and simulation with high resolution and accuracy are needed. In this paper, we present the research we conducted on the thermal energy demand of a city district in Graz, Austria. We developed a novel bottom-up, white box, multi-tool workflow for performing large-scale and high-resolution modelling, simulation and analysis of urban buildings in different development scenarios. We calculated the demand for heating, cooling and hot water in full-year dynamic building simulations and assessed the results quantitatively and spatially. Our results in the Scenario 2050 show that despite massive densification of the building stock by 88%, the calculated heat energy demand rises only by 4%; while the cooling demand soars by 432%. All results are available as hourly mean values and annual totals and in easy-to-understand spatial map representations, thus supporting stakeholders to meet the net-zero CO2-equivalent emission targets of Graz.

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城市区域高分辨率空间热能需求分析及工作流程

了解可再生热能的需求对于可持续城市的综合规划至关重要。规划者和决策者需要高质量和全面的数据来采取快速果断的行动。然而，对于现状或可能的发展情景，几乎没有相应的信息。因此，需要高分辨率和高精度的城市建筑能量建模和模拟新方法。本文介绍了我们对奥地利格拉茨市一个城区的热能需求进行的研究。我们开发了一种新颖的自下而上、白盒、多工具的工作流程，用于在不同的开发场景中对城市建筑进行大规模、高分辨率的建模、模拟和分析。我们计算了全年动态建筑模拟中的供暖、制冷和热水需求，并对结果进行了定量和空间评估。我们在情景2050中的结果表明，尽管建筑存量大幅致密化了88%，但计算的热能需求仅增长了4%；而制冷需求猛增432%。所有结果都以小时平均值和年度总数的形式提供，并以易于理解的空间地图表示，从而支持利益相关者实现格拉茨的净零二氧化碳当量排放目标。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

International Journal of Sustainable Energy Planning and Management Social Sciences-Geography, Planning and Development

CiteScore

7.60

自引率

0.00%

发文量

审稿时长

30 weeks

期刊介绍： The journal is an international interdisciplinary journal in Sustainable Energy Planning and Management combining engineering and social science within Energy System Analysis, Feasibility Studies and Public Regulation. The journal especially welcomes papers within the following three focus areas: Energy System analysis including theories, methodologies, data handling and software tools as well as specific models and analyses at local, regional, country and/or global level. Economics, Socio economics and Feasibility studies including theories and methodologies of institutional economics as well as specific feasibility studies and analyses. Public Regulation and management including theories and methodologies as well as specific analyses and proposals in the light of the implementation and transition into sustainable energy systems.