固体电制热蓄热能量转换系统设计与实验研究
|
摘要
结合实际应用情况和实验教学的要求,设计了基于电蓄热的固体蓄热系统实验平台,蓄热功能主要通过由蓄热材料组成的蓄热体和由电热合金制成的加热元件实现,在特定的条件下将热量以材料的热焓贮存起来,并能在需要时释放和利用。该系统能够实现远程控制,将系统运行数据及时反馈到上位机,能满足学生的研究需要,对提高固体蓄热技术有重要的作用。
According to the practical application and the requirements of experimental teaching, an experimental platform of solid heat storage system based on electric heat storage is designed. The function of heat storage is mainly realized by the regenerator consisting of heat storage material and the heating element made of electrothermal alloy. Heat is stored as the enthalpy of a material under certain conditions, and it can be released and utilized when needed. This system can realize the remote control, feedback the system operation data to the host computer in time, meet the research needs of students, and play an important role in improving solid heat storage technology.
According to the practical application and the requirements of experimental teaching, an experimental platform of solid heat storage system based on electric heat storage is designed. The function of heat storage is mainly realized by the regenerator consisting of heat storage material and the heating element made of electrothermal alloy. Heat is stored as the enthalpy of a material under certain conditions, and it can be released and utilized when needed. This system can realize the remote control, feedback the system operation data to the host computer in time, meet the research needs of students, and play an important role in improving solid heat storage technology.
引文
[1] 刘春蕾,白雪,刘海威,等.太阳能与谷电联合蓄热供热监控系统研究[J].河北建筑工程学院学报,2018,36(1):85-89.
[2] 李建林,谢志佳,李德鑫,等.蓄热式电锅炉提升风电消纳能力关键技术研究[J].电器与能效管理技术,2018(1):1-7.
[3] 庄冠群.蓄热式电锅炉融合储能的风电消纳优化控制研究[D].吉林:东北电力大学,2018.
[4] 谢志佳,李建林,惠东.提升风电就地消纳的多介质储能系统容量优化配置[J].电器与能效管理技术,2018(11):56-61.
[5] 郭成,罗勇.固体电蓄热装置蓄热过程的实验[J].承德石油高等专科学校学报,2017,19(6):26-28.
[6] 董佳榕,任昊,朱晨.电蓄热采暖系统的适用性研究[J].西部皮革,2018,40(14):52.
[7] 刘冠杰,韩立鹏,王永鹏,等.固体储热技术研究进展[J].应用能源技术,2018(3):1-4.
[8] 徐德玺.固体电蓄热装置的热力学有限元分析[D].沈阳:沈阳工业大学,2016.
[9] 陈彬,李银姬,常杰飞.城市采暖燃煤锅炉电能替代解决方案研究[J].沈阳工程学院学报(自然科学版),2017,13(2):102-107.
[10] 侯晓辉.科左后旗风电弃风供热项目方案设计的研究[D].长春:吉林大学,2017.
[11] 魏东.国内首台全自动固体蓄热电锅炉研制成功[N].科技日报,2015-01-24(001).
[12] 孔祥强,高琛,董山东,等.微通道直膨式太阳能热泵实验平台设计与应用[J].实验技术与管理,2017,34(12):77-80.
[2] 李建林,谢志佳,李德鑫,等.蓄热式电锅炉提升风电消纳能力关键技术研究[J].电器与能效管理技术,2018(1):1-7.
[3] 庄冠群.蓄热式电锅炉融合储能的风电消纳优化控制研究[D].吉林:东北电力大学,2018.
[4] 谢志佳,李建林,惠东.提升风电就地消纳的多介质储能系统容量优化配置[J].电器与能效管理技术,2018(11):56-61.
[5] 郭成,罗勇.固体电蓄热装置蓄热过程的实验[J].承德石油高等专科学校学报,2017,19(6):26-28.
[6] 董佳榕,任昊,朱晨.电蓄热采暖系统的适用性研究[J].西部皮革,2018,40(14):52.
[7] 刘冠杰,韩立鹏,王永鹏,等.固体储热技术研究进展[J].应用能源技术,2018(3):1-4.
[8] 徐德玺.固体电蓄热装置的热力学有限元分析[D].沈阳:沈阳工业大学,2016.
[9] 陈彬,李银姬,常杰飞.城市采暖燃煤锅炉电能替代解决方案研究[J].沈阳工程学院学报(自然科学版),2017,13(2):102-107.
[10] 侯晓辉.科左后旗风电弃风供热项目方案设计的研究[D].长春:吉林大学,2017.
[11] 魏东.国内首台全自动固体蓄热电锅炉研制成功[N].科技日报,2015-01-24(001).
[12] 孔祥强,高琛,董山东,等.微通道直膨式太阳能热泵实验平台设计与应用[J].实验技术与管理,2017,34(12):77-80.