Data-enhanced convolutional network based on air conditioning system start/stop time prediction

IF 3.5 2区 工程技术 Q1 ENGINEERING, MECHANICAL
Huaqiu Wang, Jiahao Tan
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引用次数: 0

Abstract

Most enterprise workshop operators frequently adjust the start/stop time of air conditioning systems based on indoor and outdoor temperatures and humidity to accommodate changing demand and weather conditions. However, relying on personal subjective experience for these adjustments often leads to operational delays or energy waste due to the lack of precision in determining optimal timing. Predicting air conditioning system start and stop times is crucial for energy consumption and savings in HVAC systems. Traditional data-driven methods have been insufficient in this regard, as they mainly focus on feature mapping and overlook the dynamic coupling relationships of process variables, resulting in subpar predictions. In response to this challenge, the paper introduces a novel approach known as the Periodicity and Long-Term Convolutional Neural Network (PLCNN). This method converts one-dimensional regression prediction data into two-dimensional data containing time series features to capture the dynamic coupling characteristics of the air conditioning system while maintaining the independent variation relationships of features. Experimental results using real factory floor data have demonstrated the superior performance of the PLCNN method. Specifically, this method achieved a 14.96% lower error rate compared to the traditional method and an 8.18% improvement compared to the deep learning method. Moreover, the implementation of the PLCNN method in the optimal control of air conditioning systems led to a significant 19.43% reduction in total monthly energy consumption. In conclusion, the proposed method offers a promising alternative to traditional approaches to forecasting and provides a solution to the common challenges encountered in traditional prediction tasks.
基于空调系统启动/停止时间预测的数据增强卷积网络
大多数企业车间操作人员经常根据室内外温度和湿度调整空调系统的启动/停止时间,以适应不断变化的需求和天气条件。然而,由于在确定最佳时间方面缺乏精确性,依靠个人主观经验进行这些调整往往会导致运行延迟或能源浪费。预测空调系统的启动和停止时间对于暖通空调系统的能耗和节能至关重要。传统的数据驱动方法在这方面存在不足,因为它们主要侧重于特征映射,忽略了过程变量的动态耦合关系,导致预测结果不尽人意。为了应对这一挑战,本文介绍了一种称为周期性和长期卷积神经网络(PLCNN)的新方法。该方法将一维回归预测数据转换为包含时间序列特征的二维数据,以捕捉空调系统的动态耦合特征,同时保持特征的独立变化关系。使用真实工厂车间数据的实验结果证明了 PLCNN 方法的卓越性能。具体而言,与传统方法相比,该方法的误差率降低了 14.96%,与深度学习方法相比,误差率提高了 8.18%。此外,在空调系统优化控制中实施 PLCNN 方法后,每月总能耗显著降低了 19.43%。总之,所提出的方法为传统预测方法提供了一种有前途的替代方案,并为传统预测任务中遇到的常见挑战提供了一种解决方案。
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
CiteScore
7.30
自引率
12.80%
发文量
363
审稿时长
3.7 months
期刊介绍: The International Journal of Refrigeration is published for the International Institute of Refrigeration (IIR) by Elsevier. It is essential reading for all those wishing to keep abreast of research and industrial news in refrigeration, air conditioning and associated fields. This is particularly important in these times of rapid introduction of alternative refrigerants and the emergence of new technology. The journal has published special issues on alternative refrigerants and novel topics in the field of boiling, condensation, heat pumps, food refrigeration, carbon dioxide, ammonia, hydrocarbons, magnetic refrigeration at room temperature, sorptive cooling, phase change materials and slurries, ejector technology, compressors, and solar cooling. As well as original research papers the International Journal of Refrigeration also includes review articles, papers presented at IIR conferences, short reports and letters describing preliminary results and experimental details, and letters to the Editor on recent areas of discussion and controversy. Other features include forthcoming events, conference reports and book reviews. Papers are published in either English or French with the IIR news section in both languages.
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