Energy efficiency optimization analysis of a ground source heat pump system based on neural networks and genetic algorithms

IF 2.9 2区地球科学 Q3 ENERGY & FUELS

Geothermal Energy Pub Date : 2024-12-19 DOI:10.1186/s40517-024-00325-2

Shanming Wei, HaiBo Wang, YanFa Tian, Xubo Man, Yanshi Wang, ShiYu Zhou

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Abstract

This paper reports on the performance of a ground source heat pump (GSHP) system located in Shandong Province, China. The system operation data were monitored and collected by a data collection system. According to the analysis of the accumulated operational data, it was found that the GSHP system showed a relative higher COP in cooling season of 2023 than that of 2022 due to the change of supplying water temperature at ground-source side. Based on the analyzed data, a BP neural network model for energy consumption prediction was established. Furthermore, genetic algorithm (GA) was used to optimize the control strategy on the basis of the energy consumption prediction model. Comparison between the artificial experience control strategy and the one optimized by the genetic algorithm was conducted. The results show that the optimization strategy of the genetic algorithm is superior in terms of energy saving, particularly in the load rate higher than 50%, in which, the average energy-saving rate reaches 39.66%. Within the load rate range of 30–50%, the energy-saving rate could also reach 7.84%.

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基于神经网络和遗传算法的地源热泵系统能效优化分析

本文报告了位于中国山东省的地源热泵（GSHP）系统的性能。数据采集系统对系统运行数据进行了监测和收集。根据对累积运行数据的分析发现，由于地源侧供水温度的变化，GSHP 系统在 2023 年制冷季节的 COP 相对高于 2022 年。根据分析数据，建立了用于能耗预测的 BP 神经网络模型。此外，在能耗预测模型的基础上，使用遗传算法（GA）优化了控制策略。比较了人工经验控制策略和遗传算法优化策略。结果表明，遗传算法的优化策略在节能方面更胜一筹，尤其是在负载率高于 50%的情况下，平均节能率达到 39.66%。在 30-50% 的负载率范围内，节能率也能达到 7.84%。

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

Geothermal Energy Earth and Planetary Sciences-Geotechnical Engineering and Engineering Geology

CiteScore

5.90

自引率

7.10%

发文量

审稿时长

8 weeks

期刊介绍： Geothermal Energy is a peer-reviewed fully open access journal published under the SpringerOpen brand. It focuses on fundamental and applied research needed to deploy technologies for developing and integrating geothermal energy as one key element in the future energy portfolio. Contributions include geological, geophysical, and geochemical studies; exploration of geothermal fields; reservoir characterization and modeling; development of productivity-enhancing methods; and approaches to achieve robust and economic plant operation. Geothermal Energy serves to examine the interaction of individual system components while taking the whole process into account, from the development of the reservoir to the economic provision of geothermal energy.