该【TICC-500压缩空气储能发电示范平台热回馈系统设计及实验研究 】是由【wz_198613】上传分享,文档一共【2】页,该文档可以免费在线阅读,需要了解更多关于【TICC-500压缩空气储能发电示范平台热回馈系统设计及实验研究 】的内容,可以使用淘豆网的站内搜索功能,选择自己适合的文档,以下文字是截取该文章内的部分文字,如需要获得完整电子版,请下载此文档到您的设备,方便您编辑和打印。TICC-500压缩空气储能发电示范平台热回馈系统设计及实验研究 摘要: TICC-500压缩空气储能发电示范平台是一种新型的能量储存技术,在现代化能源体系中占有重要地位。但是,由于压缩空气发生了大量的热损失,因此需要设计热回馈系统来提高效率。本文主要研究了TICC-500压缩空气储能发电示范平台的热回馈系统设计及实验研究。 首先,本文简单介绍了TICC-500压缩空气储能发电示范平台的基本原理和结构。然后,介绍了热回馈系统的设计方案和原理,包括热回馈水箱、换热器和管路等。接着进行了实验研究,通过对比有无热回馈系统的发电效率进行了对比分析。 实验结果表明,热回馈系统可以有效地提高TICC-500压缩空气储能发电示范平台的发电效率,并减少了热损失。具体来说,在压缩空气的储存和释放过程中,通过热回馈水箱和换热器,将发生的热量回收利用,用来加热压缩机的进气,从而提高了压缩机的效率,减少了能量损失。 本文的研究为压缩空气储能发电技术的发展提供了一种新的思路和方向,可以为这一领域的研究工作提供一定的参考和借鉴价值。 关键词:TICC-500压缩空气储能发电示范平台;热回馈系统;发电效率;能量损失。 Abstract: TICC-500 compressed air energy storage and power generation demonstration platform is a new energy storage technology, which occupies an important position in the modern energy system. However, due to the large amount of heat loss in compressed air, it is necessary to design a heat feedback system to improve efficiency. This paper mainly studies the design and experimental research of the heat feedback system of TICC-500 compressed air energy storage and power generation demonstration platform. Firstly, this paper briefly introduces the basic principle and structure of TICC-500 compressed air energy storage and power generation demonstration platform. Then, the design scheme and principle of the heat feedback system, including the heat feedback water tank, heat exchanger and pipeline, are introduced. Then the experimental research was carried out, and the efficiency of power generation with and without the heat feedback system was compared and analyzed. The experimental results showed that the heat feedback system can effectively improve the efficiency of TICC-500 compressed air energy storage and power generation demonstration platform, and reduce the heat loss. Specifically, in the process of compressed air storage and release, the heat generated was recovered and utilized through the heat feedback water tank and heat exchanger to heat the intake air of the compressor, thus improving the efficiency of the compressor and reducing energy loss. The research in this paper provides a new idea and direction for the development of compressed air energy storage and power generation technology, and can provide reference and reference value for research work in this field. Keywords: TICC-500 compressed air energy storage and power generation demonstration platform; heat feedback system; power generation efficiency; energy loss.
