Numerical Investigation of Heat Transfer Characteristics of Supercritical CO2 Tube in Combustion Chamber of Coal-Fired Boiler

Numerical Investigation of Heat Transfer Characteristics of Supercritical CO2 Tube in Combustion Chamber of Coal-Fired Boiler

论文摘要

To achieve compact structure, light weight, and high thermal efficiency for the coal-fired boiler, the supercritical CO2 power cycle has been considered as one of the promising alternatives in the coal-fired power conversion system. One of the major problems concerning fossil fuel powered plants is the safety of the water wall in boiler design. In this work, the heat transfer characteristics of the supercritical CO2 tube in the combustion chamber were determined through the low Reynolds number k-ε model, the gas real model and the P-1 radiation model. The study covered the supercritical CO2 tube and the fins, and the annulus flue gas passage was also included. The wall temperature and the heat transfer coefficient were compared against those obtained from the experiments. Based on the examinations of the calculated flow and turbulence fields, the distributions of the velocity and the temperature inside the supercritical CO2 tube in the combustion chamber were resolved numerically. Moreover, the effects of the heat transfer coefficient on the heat transfer characteristics were also discussed. And it was numerically focused on the influence of the inclined angle on the flow and the heat transfer of the supercritical CO2 tube. The results show that the heat transfer coefficient keeps namely constant as the increasing inclined angle. It would help to better understand the heat transfer mechanism of unique characteristics of supercritical CO2 above the pseudo-critical temperature, which may provide the corresponding theoretical basis on the optimization design of the coal-fired boiler.

论文目录

  • 1. Introduction
  • 2. Physical and Mathematical Model
  • 3. Grid Verification and Boundary Conditions
  • 4. Computational Method and Convergence Criterion
  • 5. Model Validations
  • 6. Results and Discuss
  •   6.1 Heat transfer characteristics of inclined tube
  •   6.2. Effects of inclined angle on thermal behaviors of supercritical CO2 tube
  • 7. Conclusions
  • 文章来源

    类型: 期刊论文

    作者: WANG Jimin,CHEN Xue,ZHANG Chao,GU Mingyan,CHU Huaqiang

    来源: Journal of Thermal Science 2019年03期

    年度: 2019

    分类: 工程科技Ⅱ辑

    专业: 动力工程

    单位: School of Energy and Environment, Anhui University of Technology

    基金: supported by the National Key R&D Program of China (2017YFB0601805),support from the Natural Science Foundation of Anhui Province (1708085ME108)

    分类号: TK229.6

    页码: 442-453

    总页数: 12

    文件大小: 585K

    下载量: 67

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