含梯度TPMS骨架石蜡腔体凝固特性数值模拟研究

马超富; 陈宝明; 见禹; 仲崇龙; 李鸿臣

doi:10.12465/j.issn.0253-4339.2025.06.132

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含梯度TPMS骨架石蜡腔体凝固特性数值模拟研究

更新时间：2025-12-03

- 含梯度TPMS骨架石蜡腔体凝固特性数值模拟研究
- Numerical Simulation Study of Coagulation Characteristics of Paraffin Cavity with Gradient TPMS Framework
- 制冷学报 2025年46卷第6期页码：132-140
- 作者机构：
  
  山东建筑大学热能工程学院　济南　 250101
- 作者简介：
  
  陈宝明，男，教授，山东建筑大学热能工程学院，15954144580，E-mail：chenbm@sdjzu.edu.cn。研究方向：复杂介质和体系里的流体流动和传热传质。
- 基金信息：
  
  国家自然科学基金(51976111)
- DOI：10.12465/j.issn.0253-4339.2025.06.132
  中图分类号： TB61⁺1;TP391.9
- 收稿：2024-06-06，
  
  修回：2024-09-16，
  
  录用：2024-09-26，
  
  纸质出版：2025-12-16
- 稿件说明：
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马超富, 陈宝明, 见禹, 等. 含梯度TPMS骨架石蜡腔体凝固特性数值模拟研究[J]. 制冷学报, 2025,46(6):132-140.

Ma Chaofu, Chen Baoming, Jian Yu, et al. Numerical Simulation Study of Coagulation Characteristics of Paraffin Cavity with Gradient TPMS Framework[J]. Journal of Refrigeration, 2025, 46(6): 132-140.
马超富, 陈宝明, 见禹, 等. 含梯度TPMS骨架石蜡腔体凝固特性数值模拟研究[J]. 制冷学报, 2025,46(6):132-140. DOI： 10.12465/j.issn.0253-4339.2025.06.132.

Ma Chaofu, Chen Baoming, Jian Yu, et al. Numerical Simulation Study of Coagulation Characteristics of Paraffin Cavity with Gradient TPMS Framework[J]. Journal of Refrigeration, 2025, 46(6): 132-140. DOI： 10.12465/j.issn.0253-4339.2025.06.132.

摘要

通过三周期极小曲面法（TPMS）构建均匀金属骨架和梯度孔隙率骨架。基于孔隙尺度，采用有限元方法数值模拟含金属骨架的相变材料的凝固过程，并与纯石蜡腔体的凝固过程进行对比，考察复合相变材料凝固中骨架结构的影响规律。对凝固过程中固液相变界面、整体液相率、瞬时固化速率、冷源壁面

、储冷性能等方面进行综合分析。研究表明：在相变腔体中加入TPMS骨架，对固液形变过程影响显著，其中孔隙率为0.78的相变腔体相比纯石蜡相变腔体凝固时间缩短94.10%，储冷速率提升12.98倍。在平均孔隙率为0.84时，孔隙率沿

方向增大，可加快腔体凝固，提升腔体传热效率，相比纯石蜡相变腔体凝固时间缩短93.50%，储冷速率提升12.60倍；相比相同孔隙率均匀TPMS骨架相变腔体凝固时间缩短12.23%，储冷速率提升15.30%。

Abstract

In this study

homogeneous metal and gradient porosity skeletons were constructed using the three-periodic minimal surface method (TPMS). Based on the pore scale

the finite element method was used to simulate the solidification process for a pure paraffin cavity and investigate the influence of the skeleton structure in the solidification of a composite phase-change material. Comprehensive analyses of the solid-liquid phase change interface

overall liquid phase rate

number of the cold source wall

and cold-storage performance were conducted

and the following conclusion was obtained. When the TPMS skeleton was added to the phase change cavity

it affected the solid-liquid deformation process. The solidification time of the phase change chamber with a porosity of 0.78 is shortened by 94.1% and the cooling rate is increased by 12.98 times compared to the pure paraffin phase change chamber. When the average porosity is 0.84

the porosity gradient increases along the positive

-direction

accelerating the solidification of the cavity

improving the heat transfer efficiency of the chamber. Compared with the pure paraffin phase change chamber

the solidification ti

me is shortened by 93.5%

and the cold storage rate is increased by 12.6 times. Compared with the same porosity and uniform TPMS skeleton phase change cavity

the solidification time is shortened by 12.23% and the cooling rate is increased by 15.3%.

关键词

Keywords

references

MARANI A , ZHANG L , NEHDI M L . Design of concrete incorporating microencapsulated phase change materials for clean energy: a ternary machine learning approach based on generative adversarial networks [J ] . Engineering Applications of Artificial Intelligence , 2023 , 118 : 105652 .

ZHANG Xiaoyan , HAN Ziyi , LIU Lang , et al . Experimental study on mechanical and thermal properties of backfill body with paraffin added [J ] . Energies , 2023 , 17 ( 1 ): 217 .

MAO Ning , JIN Chao , GAO Yan , et al . Expanded titanium-bearing blast furnace slag phase change aggregate: preparation, performance and phase change energy storage mortar application [J ] . Journal of Building Engineering , 2024 , 83 : 108306 .

HUSSAIN B , IRFAN M , KHAN M M , et al . Geometric optimization of fin structures for accelerated melting of phase change material in a triplex tube heat exchanger [J ] . Journal of Energy Storage , 2024 , 79 : 110162 .

张文宇 , 赵长颖 . 基于相变技术的便携式储冷箱性能研究 [J ] . 制冷学报 , 2024 , 45 ( 1 ): 145 - 157 .

( ZHANG Wenyu , ZHAO Changying . Examining the performance of portable cold-storage box based on phase-change technology [J ] . Journal of Refrigeration , 2024 , 45 ( 1 ): 145 - 157 .)

朱猛 , 陈华 , 侯玉洁 . 碳纳米管直径对石蜡相变蓄热性能的影响 [J ] . 制冷学报 , 2024 , 45 ( 2 ): 62 - 67 .

( ZHU Meng , CHEN Hua , HOU Yujie . Effect of carbon nanotube diameter on phase change thermal energy storage properties of paraffin wax [J ] . Journal of Refrigeration , 2024 , 45 ( 2 ): 62 - 67 .)

FARAHANI S D , MAMOEI A J , ALIZADEH A . Thermal performance of microchannel heat sink integrated with porous medium, slip coefficient and phase change material and machine learning approach [J ] . Journal of Energy Storage , 2023 , 74 : 109357 .

NAGHDI BAZNESHIN M , BORJI M , GHOLAMI R . Numerical investigation of phase transition in different latent heat storage systems in the presence of natural convection and porous media [J ] . Case Studies in Thermal Engineering , 2023 , 50 : 103450 .

周志杰 , 胡卓焕 , 杨茉 . 泡沫金属复合相变材料的凝固及接触间距影响 [J ] . 工程热物理学报 , 2022 , 43 ( 1 ): 145 - 151 .

( ZHOU Zhijie , HU Zhuohuan , YANG Mo . Effect of contact gap and solidification for metal foam composite phase change materials [J ] . Journal of Engineering Thermophysics , 2022 , 43 ( 1 ): 145 - 151 .)

张靖驰 , 盛强 , 童铁峰 , 等 . 正十八烷/泡沫相变复合材料蓄热实验研究 [J ] . 制冷学报 , 2016 , 37 ( 6 ): 61 - 65 .

( ZHANG Jingchi , SHENG Qiang , TONG Tiefeng , et al . Thermal storage experiment of N-octadecane/foam phase change composite [J ] . Journal of Refrigeration , 2016 , 37 ( 6 ): 61 - 65 .)

DU Zhao , HUANG Xinyu , LI Yuanji , et al . Design and study of metal foam parameters on whole melting-solidification cycle in phase change heat storage system [J ] . International Journal of Heat and Fluid Flow , 2024 , 106 : 109299 .

QIU Na , WAN Yuheng , SHEN Yijun , et al . Experimental and numerical studies on mechanical properties of TPMS structures [J ] . International Journal of Mechanical Sciences , 2024 , 261 : 108657 .

LIU Zhiqiang , GONG He , GAO Jiazi , et al . Bio-inspired design, mechanical and mass-transport characterizations of orthotropic TPMS-based scaffold [J ] . Composite Structures , 2023 , 321 : 117256 .

VERMA R , KUMAR J , SINGH N K , et al . Design and analysis of biomedical scaffolds using TPMS-based porous structures inspired from additive manufacturing [J ] . Coatings , 2022 , 12 ( 6 ): 839 .

SUI Liyan , CHEN Baoming , LIU Fang , et al . Three-dimensional numerical simulation of solid-liquid phase change in the cavity of composite structures based on TPMS [J ] . Applied Thermal Engineering , 2024 , 238 : 122156 .

FAN Zhaohui , FU Yijie , GAO Renjing , et al . Investigation on heat transfer enhancement of phase change material for battery thermal energy storage system based on composite triply periodic minimal surface [J ] . Journal of Energy Storage , 2023 , 57 : 106222 .

ZHANG Junfang , CHEN Xiaohong , SUN Yuanxi , et al . Design of a biomimetic graded TPMS scaffold with quantitatively adjustable pore size [J ] . Materials & Design , 2022 , 218 : 110665 .

杨喆 , 刘飞 , 张涛 , 等 . TPMS多孔铝-石蜡复合相变材料蓄热过程数值模拟及实验 [J ] . 化工进展 , 2022 , 41 ( 9 ): 4918 - 4927 .

( YANG Zhe , LIU Fei , ZHANG Tao , et al . Numerical simulation and experiment of heat storage process of TPMS porous aluminum-paraffin composite phase change material [J ] . Chemical Industry and Engineering Progress , 2022 , 41 ( 9 ): 4918 - 4927 .)

LI Xiangyu , CHEN Baoming , LIU Fang , et al . Experimental study on the melting performance of phase change materials embedded with different material skeletons [J ] . Applied Thermal Engineering , 2024 , 236 : 121873 .

见禹 , 陈宝明 , 宫晗语 . 基于分级结构骨架相变储热系统强化传热特性 [J ] . 化工进展 , 2024 , 43 ( 2 ): 649 - 658 .

( JIAN Yu , CHEN Baoming , GONG Hanyu . Enhanced heat transfer characteristics of phase change heat storage systems based on hierarchically structured skeletons [J ] . Chemical Industry and Engineering Progress , 2024 , 43 ( 2 ): 649 - 658 .)

MOTAHAR S , ALEMRAJABI A A , KHODABANDEH R . Experimental study on solidification process of a phase change material containing TiO 2 nanoparticles for thermal energy storage [J ] . Energy Conversion and Management , 2017 , 138 : 162 - 170 .

CHEN Junqi . Dynamic characteristics of phase change material in a square cavity under various heating modes [J ] . Mathematical Problems in Engineering , 2022 , 2022 : 7371917 .

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