Energy Performance and Thermal Comfort in a Library Building: A Case Study of Dhurakij Pundit University, Thailand

2022 International Conference and Utility Exhibition on Energy, Environment and Climate Change (ICUE) Pub Date : 2022-10-26 DOI:10.1109/ICUE55325.2022.10113535

Auntika Thongsean, Aumnad Phdungsilp, Suparatchai Vorarat, R. Sarachitti

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Abstract

The building sector represents high potential to address the energy use and occupants' comfort and well-being. This paper aims to proposed a methodological framework to assess energy and thermal comfort performance in buildings. The research framework was applied in an educational building using a library of Dhurakij Pundit University (DPU), Thailand as a case study. A representative building was modeled using SketchUp plugin with OpenStudio platform and EnergyPlus simulation engine for energy simulation. Thermal comfort parameters were measured in each floor of DPU's library and calculation of thermal comfort indices based on the PMV (Predicted Mean Vote) and PPD (Predicted Percentage Dissatisfied) using the CBE Thermal Comfort Tool. It was found that the simulated energy is in line with the measured data with differences between -0.26% to 3.87%, depending on the floor. The energy intensity of DPU's library is 66.53 kWh/m2/year. Based on the measurements, the PMV and PPD of a reference building are -0.57 and 12%. Ten measures were simulated to assess the energy performance as well as thermal comfort conditions. It was found that seven measures can address both energy performance and thermal comfort in a case study building.

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图书馆建筑的能源性能和热舒适:以泰国杜拉基Pundit大学为例

建筑行业在解决能源使用和居住者的舒适和福祉方面具有很大的潜力。本文旨在提出一种方法框架来评估建筑的能源和热舒适性能。研究框架以泰国Dhurakij Pundit大学(DPU)的图书馆为例，应用于一座教育建筑。采用SketchUp插件和OpenStudio平台，并使用EnergyPlus仿真引擎进行能量仿真，对具有代表性的建筑进行建模。采用CBE热舒适工具，测量了DPU图书馆各楼层的热舒适参数，并计算了基于PMV(预测平均投票)和PPD(预测不满意百分比)的热舒适指数。结果表明，模拟能量与实测数据基本一致，差异在-0.26% ~ 3.87%之间，随楼层的不同而不同。DPU库的能源强度为66.53 kWh/m2/年。根据实测，某参考建筑的PMV和PPD分别为-0.57和12%。模拟了十项措施，以评估能源性能和热舒适条件。研究发现，在一个案例研究建筑中，有七种措施可以同时解决能源性能和热舒适问题。

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

2022 International Conference and Utility Exhibition on Energy, Environment and Climate Change (ICUE)

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