Practice and Optimization of Seasonal/Daily Composite Thermal Energy Storage Technology Based on Lakes/Rivers

Practice and Optimization of Seasonal/Daily Composite Thermal Energy Storage Technology Based on Lakes/Rivers

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Shuchuan Yang¹, Yonggao Yin¹, Xiao Li², Donglin Zhao¹, Mengying Cui¹

Journal of Refrigeration | 2025, 46(3) : 1 - 10

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Journal of Refrigeration | 2025, 46(3): 1-10

• Energy Storage Technology •

Practice and Optimization of Seasonal/Daily Composite Thermal Energy Storage Technology Based on Lakes/Rivers

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Shuchuan Yang¹, Yonggao Yin¹, Xiao Li², Donglin Zhao¹, Mengying Cui¹

Affiliations

^1.School of Energy and Environment, Southeast University, Nanjing, 210000, China

^2.Hebei Zhuopai Renewable Energy Development Co., Ltd., Shijiazhuang, 050000

Published: 2025-06-16 doi: 10.12465/j.issn.0253-4339.2025.03.001

Outline

Abstract

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Heat pump technology has become an essential solution in the field of medium- and low-temperature heating due to its superior efficiency in converting electrical energy into thermal energy. However, owing to the lack of stable heat sources during winter in northern China, it is necessary to store the heat sources within the urban area throughout the seasons to ensure the stability of the heat provided by the heat pump system. In this study, based on the project of seasonal/daily thermal storage of river water in Guantao, a simulation model was constructed using the Transient System Simulation Tool (TRNSYS). A sensitivity analysis of the thermal energy storage unit parameters was conducted under the constraint of the fixed site area. The configurations and strategies of the daily thermal energy storage were optimized. The results show that the temperature rise of the thermal energy storage unit reaches 3.2 ℃ after 10 years of operation, effectively preventing the soil heat imbalance. The distance between the buried pipes and the depth had the greatest influence on the performance of the system. The total length of the pipes could be reduced by approximately 23% with a spacing of 4 m and a depth of 150 m. The daily thermal energy storage system should be matched to the valley power storage heat and heat release load to avoid wasting the valley power. If the storage heat power is large, the volume of the storage tank can be increased, and the flat power heat release is considered. The optimized system improves the utilization rate of valley power and reduces annual operating costs by 11.2%.

Key words

seasonal thermal energy storage / river water / peak-valley electricity price / TRNSYS

Cite this Article

Shuchuan Yang, Yonggao Yin, Xiao Li, Donglin Zhao, Mengying Cui. Practice and Optimization of Seasonal/Daily Composite Thermal Energy Storage Technology Based on Lakes/Rivers[J]. Journal of Refrigeration, 2025 , 46 (3) : 1 -10 . DOI: 10.12465/j.issn.0253-4339.2025.03.001

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Year 2025 volume 46 Issue 3

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Article Info

doi: 10.12465/j.issn.0253-4339.2025.03.001

Receive Date：2024-12-14
Online Date：2026-03-13
Published：2025-06-16

Article Data

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History

Received：2024-12-14
Revised：2024-12-31
Accepted：2025-01-03

Affiliations

^1.School of Energy and Environment, Southeast University, Nanjing, 210000, China

^2.Hebei Zhuopai Renewable Energy Development Co., Ltd., Shijiazhuang, 050000

Corresponding:

Yin Yonggao, male, professor, School of Energy and Environment, Southeast University, 86-13611515279, E-mail: y.yin@seu.edu.cn. Research fields: solution dehumidification and low-grade heat utilization, energy-saving of new heat pumps and air conditioning systems, energy storage technology for building carbon neutrality.

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表12种不同金属材料的力学参数

科 Family	属数 Number of genus	种数 Number of species	占总种数比例 Percentage of total species (%)	属 Genus	种数 Number of species	占总种数比例 Percentage of total species (%)
鹅膏菌科Amanitaceae	2	11	5.26	鹅膏菌属 Amanita	10	4.78
小菇科 Mycenaceae	2	12	5.74	丝盖伞属 Inocybe	5	2.39
多孔菌科 Polyporaceae	8	14	6.70	蜡蘑属 Laccaria	5	2.39
红菇科 Russulaceae	3	23	11.00	小皮伞属 Marasmius	6	2.87
				小菇属 Mycena	11	5.26
				光柄菇属 Pluteus	5	2.39
				红菇属 Russula	17	8.13
				栓菌属 Trametes	5	2.39

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