Thermal Modeling for a HVAC Controlled Real-Life Auditorium

Yong Fu, M. Sha, Chengjie Wu, A. Kutta, A. Leavey, Chenyang Lu, Humberto González, Weining Wang, B. Drake, Yixin Chen, P. Biswas
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引用次数: 7

Abstract

The largest source of energy consumption in buildings is heating, ventilation, and air conditioning (HVAC). For an HVAC system to provide comfort and minimize energy consumption, it is crucial to understand the spatiotemporal thermal dynamics, especially in large open spaces. To optimize HVAC control, it is important to establish accurate dynamic thermal models. For this purpose, we constructed a real-world test bed by instrumenting an HVAC-controller auditorium using multiple types of sensors. Based on the dataset, we develop and evaluate a novel data-driven approach to model the complex thermal dynamics in a large space through a combination of data clustering and system identification techniques. Real-world data shows that our approach achieves low estimation errors. Our modeling approach therefore provides a practical foundation for HVAC control and optimization for large open spaces.
暖通空调控制的现实生活礼堂热建模
建筑中最大的能源消耗来源是供暖、通风和空调(HVAC)。为了使暖通空调系统提供舒适并最大限度地减少能耗,了解时空热动力学是至关重要的,特别是在大型开放空间中。为了优化暖通空调控制,建立准确的动态热模型至关重要。为此,我们通过使用多种类型的传感器对暖通空调控制器礼堂进行检测,构建了一个真实世界的测试平台。基于该数据集,我们开发并评估了一种新的数据驱动方法,通过结合数据聚类和系统识别技术来模拟大空间中的复杂热动力学。实际数据表明,我们的方法实现了较低的估计误差。因此,我们的建模方法为大型开放空间的暖通空调控制和优化提供了实用基础。
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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