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印刷电路板式LNG气化器热工水力性能数值模拟与优化

潘杰翁嫣嫣安雯田可李冉

天然气工业2026，Vol.46Issue(2)：133-145,13.

天然气工业2026，Vol.46Issue(2)：133-145,13.DOI:10.3787/j.issn.1000-0976.2026.02.013

印刷电路板式LNG气化器热工水力性能数值模拟与优化

Numerical simulation and optimization on thermal-hydraulic performance of a printed circuit LNG vaporizer

潘杰 ¹翁嫣嫣 ²安雯 ³田可 ²李冉⁴

作者信息

1. 西安石油大学管道工程学院||油气储运安全与节能陕西省高校工程研究中心
2. 西安石油大学管道工程学院
3. 陕西延长石油(集团)有限责任公司天然气研究院
4. 西安石油大学石油工程学院
折叠

摘要

Abstract

Printed circuit heat exchangers(PCHEs),as highly efficient microchannel heat exchangers,offer significant advantages such as compact structure,high efficiency,and reliable safety,which has promising application prospects.But the wave-channel PCHE has been rarely studied.In this study,orthogonal numerical experimental design was employed to optimize the thermal-hydraulic performance of a wave-channel printed circuit vaporizer(PCV)for LNG.Amplitude,wavelength,and cold/hot channel cross-sectional shape were selected as experimental factors,each with three levels.The comprehensive evaluation factor G served as the optimization criterion.The following results are obtained.First,PCV with an amplitude of 3 mm,a wavelength of 25 mm,a semicircular cross-sectional hot channel,and a circular cross-sectional cold channel exhibits the best overall performance.Second,the wave-channel PCV induces periodic disturbances on the internal fluid due to its cyclically varying channel geometry,causing the acceleration core to move periodically.This thins or even disrupts the boundary layer,thereby enhancing heat transfer efficiency.Third,changes in the thermal properties of the fluid generate buoyancy forces within the flow channel,inducing secondary flows that form vortices.The wave-shaped channel induces periodic migration of vortices,which can enhance fluid mixing,thereby intensifying convective heat transfer.Fourth,the orthogonal numerical experimental approach can effectively identify remarkable performance-influencing factors in multiple geometrical parameters,thus allowing for efficient optimization.In conclusion,the proposed optimization model and resulting optimal structural parameters offer direct references for the design of efficient and compact LNG vaporizers,and also provide valuable insights for the structural optimization and performance improvement of equivalent microchannel heat exchangers.

关键词

印刷电路板式气化器/波形通道/数值正交实验设计/结构优化/热工水力性能

Key words

Printed circuit vaporizer/Wave-channel/Numerical and orthogonal experimental design/Structural optimization/Thermal-hydraulic Performance

分类

能源科技

引用本文复制引用

潘杰,翁嫣嫣,安雯,田可,李冉..印刷电路板式LNG气化器热工水力性能数值模拟与优化[J].天然气工业,2026,46(2):133-145,13.

基金项目

国家自然科学基金项目"带温差发电装置的翼型肋印刷电路板式LNG气化器热-流-电耦合机理研究及多目标优化""集成冷能温差发电装置的空温式气化器纵向翅片管热动态特性研究、能效分析及结构优化"(编号:52274064、51774237). （编号:52274064、51774237）

天然气工业

ISSN：1000-0976

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