Chemical Industry and Engineering Progress ›› 2023, Vol. 42 ›› Issue (S1): 10-20.DOI: 10.16085/j.issn.1000-6613.2023-1221

• Chemical processes and equipment • Previous Articles     Next Articles

Advances in flow and heat transfer research of liquid metal flowing across tube bundles

XIAO Hui(), ZHANG Xianjun, LAN Zhike, WANG Suhao, WANG Sheng   

  1. Nuclear Power Institute of China, Chengdu 610213, Sichuan, China
  • Received:2023-07-18 Revised:2023-10-28 Online:2023-11-30 Published:2023-10-25
  • Contact: XIAO Hui

液态金属绕流管束流动传热进展

肖辉(), 张显均, 兰治科, 王苏豪, 王盛   

  1. 中国核动力研究设计院,四川 成都 610213
  • 通讯作者: 肖辉
  • 作者简介:肖辉(1993—),男,助理研究员,研究方向为自然循环强化及多物理场协同优化。E-mail:xiaohui_hust@foxmail.com
  • 基金资助:
    国家自然科学基金(11675162);四川省科技计划(2023NSFSC1314)

Abstract:

The helical coiled tube heat exchanger based on liquid metal has the characteristics of compactness and strong heat exchange capacity. It is valuable in energy and chemical systems such as thermochemical hydrogen production, fourth-generation nuclear energy, high-temperature solar thermal power generation, and waste heat recovery. The convective heat transfer issues of liquid metal flowing across tube bundles are getting more and more attention. However, turbulent heat transfer flowing across tube bundles is complicated, and the experimental and numerical simulation is chanllenging. At present, there is no reliable and relevant literature review, hindering the design and technical development of this type of heat exchanger. This paper reviewed convective heat transfer researches on liquid metal flowing across tube bundles. Firstly, it was pointed out the similarities and differences between liquid metal and other fluids in convective heat transfer characteristics. Then, it was summarized and compared flow and heat transfer empirical relations of liquid metal. It was recommended empirical formulas for the design of this type of heat exchanger. Subsequently, by applying the recommended empirical relations, the flow and heat transfer performance of different working fluid was compared with flowing across tube bundles, and the liquid metal flowing through different flow channels was also compared. The turbulent heat transfer of liquid metal has the potential to strengthen. The flow resistance caused by tube bundles is considerable, so it is recommended to take measures to reduce the resistance. This paper provided a reference for the subsequent design of heat exchangers involving liquid metal flowing across tube bundles.

Key words: heat transfer, convection, tube bundles, liquid metal, turbulent flow

摘要:

基于液态金属的螺旋管式换热器具有紧凑、换热能力强的特点,在热化学制氢、第四代核能、太阳能高温热发电、余热回收等能源化工系统极具价值,液态金属绕流管束流动传热问题越来越受到重视。然而,绕流管束湍流传热较复杂,实验和数值模拟难度较大,目前尚未有相关可靠文献综述,阻碍了该类换热器设计与技术进步。本文回顾了液态金属绕流管束相关研究,首先指出了液态金属流动传热特性与其他流体的异同,然后简述并比较了液态金属流动传热经验关系式,推荐了该类型换热器设计的流动传热经验公式,紧接着应用经验关系式分别对比了不同工质绕流管束、液态金属流经不同流道的流动传热性能。指出液态金属湍流传热具有一定强化潜力,且绕流管束带来形阻较大,建议采取减阻措施。本文为后续涉及液态金属绕流管束的换热器设计提供了参考。

关键词: 传热, 对流, 管束, 液态金属, 湍流

CLC Number: 

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