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固体电热储能设备高温服役性能研究和系统设计OA

Research on the high-temperature service performance of solid electrothermal energy storage devices and system design

中文摘要英文摘要

固体蓄热系统的换热性能直接影响系统的热输出功率和蓄放热循环效率,其中蓄热风道结构是关键因素.针对特定的固体蓄热风道结构,利用Fluent软件模拟研究固体电蓄热装置中蓄热模块的蓄热与放热特性,分析风道结构的影响,并对装置主要部件的匹配工况进行热力计算.结果表明,加热8 h后,蓄热体平均温度从300.00 K升至1 008.64 K,同一纵截面的最大温度差为2.57 K,蓄热模块蓄热量达1 482.08 kWh.在放热过程中,U型风道传热结构使空气停留时间更长,初始温度为300 K的空气经过初始温度为765 K的U型风道蓄热体放热后,出口空气最高温度可达577.01 K;系统热力计算获得了加热丝表面负荷11.4 W/m2、换热面积255.5 m2及风机功率7.5 kW等关键参数.研究表明,双通道结构可以明显提升温度均匀性和换热效率,为固体电蓄热系统的设计与运行优化提供参考.

The heat exchange performance of the solid heat storage system directly affects the thermal output power of the system and the efficiency of the heat storage and release cycle.Among them,the structure of the heat storage duct is a key factor.For a specific solid heat storage duct structure,the Fluent software is used to simulate and study the heat storage and release characteristics of the heat storage module in the solid electroheat storage device,analyze the influence of the duct structure,and conduct thermal calculations for the matching conditions of the main components of the device.The results show that after 8 h of heating,the average temperature of the heat storage body increased from 300.00 K to 1 008.64 K,the maximum temperature difference in the same cross-section is 2.57 K,and the heat storage capacity of the heat storage module reached 1 482.08 kWh.During the heat release process,the U-shaped duct heat transfer structure enables the air to stay for a longer time.Air with an initial temperature of 300 K passing through the U-shaped heat storage body of the initial temperature of 765 K for heat release can reach an outlet air temperature of up to 577.01 K.The thermal calculations of the system obtained key parameters such as the surface load of the heating wire 11.4 W/m2,the heat exchange area 255.5 m2,and the fan power 7.5 kW.The study shows that the dual-channel structure can significantly improve temperature uniformity and heat exchange efficiency,providing a reference for the design and operation optimization of the solid electroheat storage system.

范长哲;杜勇博;刘东明;张若渊;梁旭;车得福

西安交通大学,陕西 西安 710049西安交通大学,陕西 西安 710049沈阳世杰电器有限公司,辽宁 沈阳 110171西安交通大学,陕西 西安 710049沈阳世杰电器有限公司,辽宁 沈阳 110171西安交通大学,陕西 西安 710049

信息技术与安全科学

固体电蓄热风道结构热力计算数值模拟

solid thermal storageventilation duct structurethermal calculationnumerical simulation

《节能》 2026 (1)

72-77,6

工业和信息化部重点项目(项目编号:TC220H072)

10.3969/j.issn.1004-7948.2026.01.017

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