CFD-based structure optimization of plate bundle in plate-fin heat exchanger considering flow and heat transfer performance-Reference-Cited by-同舟云学术

CFD-based structure optimization of plate bundle in plate-fin heat exchanger considering flow and heat transfer performance

Published:2021-04-12 Issue:5 Volume:19 Page:499-513
ISSN:1542-6580
Container-title:International Journal of Chemical Reactor Engineering
language:en
Short-container-title:

Author:

Li Yao¹,Si Haiqing¹,Qiu Jingxuan¹,Shen Yingying¹,Zhang Peihong²,Jia Hongyin²

Affiliation:

1. College of Civil Aviation and Flight , Nanjing University of Aeronautics and Astronautics , Nanjing 211106 , China

2. China Aerodynamics Research and Development Center , Mianyang , 621000 , China

Abstract

Abstract The plate-fin heat exchanger has been widely applied in the field of air separation and aerospace due to its high specific surface area of heat transfer. However, the low heat transfer efficiency of its plate bundles has also attracted more attention. It is of great significance to optimize the structure of plate-fin heat exchanger to improve its heat transfer efficiency. The plate bundle was studied by combining numerical simulation with experiment. Firstly, according to the heat and mass transfer theory, the plate bundle calculation model of plate-fin heat exchanger was established, and the accuracy of the UDF (User-Defined Functions) for describing the mass and heat transfer was verified. Then, the influences of fin structure parameters on the heat and mass transfer characteristics of channel were discussed, including the height, spacing, thickness and length of fins. Finally the influence of various factors on the flow field performance under different flow states was integrated to complete the optimal design of the plate bundle.

Publisher

Walter de Gruyter GmbH

Subject

General Chemical Engineering

Link

https://www.degruyter.com/document/doi/10.1515/ijcre-2020-0219/pdf

Reference28 articles.

1. Abdullahi, B. 2015. Development and Optimization of Heat Pipe Based Compound Parabolic Collector. Birmingham: University of Birmingham.

2. An, R., and X. C. Yu. 2011. “Fault Tree Analysis on Explosion of Main Condensing Evaporator in Air Separation Plant.” Journal of Safety and Environment 03: 166–7.

3. Cai, Y. H., and C. L. Zhu. 2010. “Simulation Study on Thermodynamic Characteristics of Plate-Fin Heat Exchanger.” Popular Science & Technology 126 (2): 123–5.

4. Chen, Z. H. 1999. “Accumulation of Nitrous Oxide and Film Condensation Evaporator.” Cryogenic Technology 6: 45–7.

5. Chen, J., J. P. Li, and J. Cao. 2017. “Numerical Simulation of Heat and Mass Transfer Process in Gravity Heat Pipe.” Refrigeration and Air Conditioning 17 (9): 17–21.

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