许合强,郝发义,徐邦联,胡丹,张自聪.基于有限元仿真的防冻包装保温性能分析[J].包装工程,2023,44(1):234-243.
XU He-Qiang,HAO Fa-yi,XU Bang-Lian,HU Dan,ZHANG Zi-Cong.Analysis of Thermal Insulation Performance of Antifreeze Packaging Based on Finite Element Simulation[J].Packaging Engineering,2023,44(1):234-243. |
| 基于有限元仿真的防冻包装保温性能分析 |
| Analysis of Thermal Insulation Performance of Antifreeze Packaging Based on Finite Element Simulation |
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| DOI:10.19554/j.cnki.1001-3563.2023.01.026 |
| 中文关键词: 冷链物流 防冻保温箱 导热系数 蓄冷剂 相变潜热 |
| 英文关键词: cold chain logistics antifreeze insulation box thermal conductivity refrigerant phase change latent heat |
| 基金项目:国家自然科学基金青年科学基金项目(62005165) |
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| 中文摘要: |
| 目的 考虑到寒冷地区不同的低温气候以及不同温敏产品在0~8 ℃的保温时长需求,对防冻保温包装箱箱体以及内部蓄冷剂的工程设计参数进行选择分析,以完善防冻包装方案。方法 首先对防冻保温箱进行有限元建模,分析在低温环境下其瞬态温度变化以及有效保温时长,再结合实际的试验去验证其建模的可信度。利用有限元模型模拟低温环境下保温箱保温性能,先将保温箱箱体基本参数固定,研究蓄冷剂的相变温度和相变潜热对保温性能的影响,再将蓄冷剂的基本参数固定,研究箱体的厚度和导热系数对保温性能的影响。分别拟合出保温箱保温时长的温控图,讨论在不同保温时长要求下保温箱蓄冷剂以及箱体的参数选择。结果 通过仿真和试验的对比,防冻保温箱模型平均偏差为4.6%,符合工程要求;由仿真数据得出,在满足外界低温环境和保温时长条件下,得到所需蓄冷剂和保温箱箱体的工程设计参数合理。结论 在各种外界低温环境和冷链物流保温时长要求下,科学合理地选用蓄冷剂和保温箱箱体的工程设计参数可提高保温箱的控温效率,这可以为冷链物流运输中防冻包装的优化设计奠定基础。 |
| 英文摘要: |
| The work aims to select and analyze the engineering design parameters of the antifreeze insulation packaging box and its internal refrigerant to improve the antifreeze packaging scheme in view of the different low temperature climates in cold regions and the requirements for insulation time of different temperature-sensitive products at 0~8 ℃. Firstly, the finite element modeling of antifreeze insulation box was carried out to analyze the transient temperature change and effective insulation time in low temperature environment. Then, combined with the actual test, the model credibility was validated. The finite element model was used to simulate the thermal insulation performance of box in low temperature environment. The basic parameters of the insulation box were fixed and the effect of phase change temperature and latent heat of the refrigerant on thermal insulation performance was studied. Then, the basic parameters of the refrigerant were fixed, and the effect of the thickness and thermal conductivity of the box on thermal insulation performance was studied. The temperature control diagram for the insulation time of box was fitted respectively, and the parameter selection of the refrigerant and the box for different insulation time was discussed. Through the comparison between simulation and test, the average deviation of antifreeze insulation box model was 4.6%, meeting the engineering requirements. According to the simulation data, the engineering design parameters of refrigerant and insulation box were reasonable and could meet the requirements of low temperature environment and insulation time. On the premise of meeting external low temperature environment and insulation time requirements of cold chain logistics, scientific and reasonable selection of engineering design parameters of refrigerant and insulation box can improve the temperature control efficiency of the insulation box, which can lay a foundation for the optimal design of antifreeze packaging in cold chain logistics transportation. |
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