Home > Article > 2023 > 05

Article

Numerical simulation study of particle deposition and heat transfer characteristics in heat transfer pipes with dimpled dimple surface

Received Date:2023-09-13 Revised Date:2023-10-02 Publish Date:2023-10-23

DOI:10.20078/j.eep.20231011

Download Download 2023 NO.05

    Abstract:The deposition of particulate matter in heat exchanger channels can greatly reduce their heat transfer efficiency, and a... Open+
    Abstract:

    The deposition of particulate matter in heat exchanger channels can greatly reduce their heat transfer efficiency, and a better understanding of the deposition characteristics of particulate matter in heat exchanger channels is essential for improving heat exchanger performance. The deposition characteristics of particles in a three-dimensional dimpled dimple channel were simulated using the Reynolds Stress Model (RSM) and Discrete Particle Model (DPM). The flow structure, secondary flow, temperature distribution and particle deposition distribution in the dimpled dimple channel were analyzed and investigated after mesh-independence testing and numerical validation. The results showed that the main mechanisms affecting the particle deposition characteristics in dimpled dimple channels were gravity, thermophoretic forces, turbulent flow structure, secondary flow and particle inertia, and the effects of these mechanisms change significantly with particle size. For small particles (dp≤10 μm), the presence of the dimpled dimple structure promoted deposition; however, for large particles (dp>10 μm), its presence had only a small effect on the distribution of particle deposition locations.

    Close-

    Authors:

    • HAN Zunshi1,2
    • LU Hao1,2,3,*
    • ZHAO Wenjun2,3
    • WANG Zeyu1
    • XIAO Zhibo1

    Units

    • 1. Laboratory of Energy Carbon Neutrality, School of Electrical Engineering, Xinjiang University
    • 2. Engineering Research Center of Northwest Energy Carbon Neutrality, Ministry of Education, Xinjiang University
    • 3. Center of New Energy Research, School of Future Technology, Xinjiang University

    Keywords

    • Particle deposition
    • Dimple and convex dimples
    • Discrete particle model
    • Numerical simulation

    Citation

    HAN Zunshi, LU Hao, ZHAO Wenjun, et al. Numerical simulation study of particle deposition and heat transfer characteristics in heat transfer pipes with dimpled dimple surface[J]. Energy Environmental Protection, 2023, 37(5): 201-208.

    Add: No.288, Gongxiu Road, Xiaoshan District, Hangzhou City, Zhejiang Province.
    Post Code: 311201
    Tel: 0571-82989702, 19558121964
    E-mail: office@eep1987.com
    Website Copyright © Editorial Department of Energy Environmental Protection 京ICP备05086979号