Simulation and Optimization of Refrigerant Side of Ice Mold Evaporator in Direct Cooling Ice Maker

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Simulation and Optimization of Refrigerant Side of Ice Mold Evaporator in Direct Cooling Ice Maker

更新时间：2025-01-15

- Simulation and Optimization of Refrigerant Side of Ice Mold Evaporator in Direct Cooling Ice Maker
- Journal of Refrigeration (2025)
- 作者机构：
  
  1. 山东大学能源与动力工程学院,济南
  2. 山东宝成制冰设备有限公司,聊城
  3. 山东商业职业技术学院冷链物流与供应链产业学院,济南
- 作者简介：
- 基金信息：
- DOI：
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- 稿件说明：
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Simulation and Optimization of Refrigerant Side of Ice Mold Evaporator in Direct Cooling Ice Maker. [J/OL]. Journal of refrigeration, 2025.
DOI：

Simulation and Optimization of Refrigerant Side of Ice Mold Evaporator in Direct Cooling Ice Maker. [J/OL]. Journal of refrigeration, 2025. DOI：

摘要

针对直冷式制冰机在工业应用中的定量研究较少，存在调控机制不明晰，换热能力和制冰均匀性不足等问题，构建了冰模蒸发器制冷剂侧数学模型和利用MATLAB模拟仿真，对比实验数据和模拟结果，分析了换热和流动参数随流动过程和制冰时间的变化。结果表明：水结冰前换热速率较水结冰后高约30%，且制冷剂流量有明显区别；过热前后单位换热量降低了40.9%，减少过热段可以显著增强换热，提高换热均匀性；过热前水侧和冰侧热阻分别占总热阻的93.4%和91.7%，换热优化时应优先提高水侧或冰侧换热。所得模拟程序可以预测流量变化情况、模拟过热段长短，为制冰机的设计和运行控制提供了理论依据和实际指导，有助于提高产品性能并加速制冰过程。

Abstract

There has been limited quantitative research on the industrial application of direct cooling ice makers

resulting in lack of clarity in control mechanisms

and inadequate heat transfer capability and uniformity in ice making. A mathematical model focusing on the refrigerant side of the ice mold evaporator was established

and MATLAB simulation was used to analyze the changes of heat transfer and flow parameters with the flow process and ice making time

with comparisons drawn between experimental data and simulated outcomes. The results showed that the heat transfer rate before water icing is about 30% higher than that after water icing

and the refrigerant flow rate is obviously different. The unit heat transfer after overheating decreases by 40.9% compared to before overheating

reducing the overheating section can significantly enhance the heat transfer and improve the uniformity. The thermal resistance of water side and ice side accounted for 93.4% and 91.7% of the total respectively

and the heat transfer of water side or ice side should be improved first in the optimization of heat transfer. The simulation program can predict the change of flow rate and simulate the overheating section

which provides theoretical basis and practical guidance for the design and operation control of ice making machine

and helps to improve the product performance and accelerate the ice making process.

关键词

制冷及低温工程制冰机冰模蒸发器数值模拟

Keywords

refrigeration and cryogenic engineeringice makerice mold evaporatornumerical simulation

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Related Author

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Xia Rongxin

Li Donglei

Gao Feng

Zhang Yi

Pan Xiaoyan

魏文建

Related Institution

Institute of Refrigeration and Cryogenics, University of Shanghai for Science and Technology

National Virtual Simulation Experimental Teaching Center for Building EnergySchool of Environmental and Energy Engineering

Beijing University of Civil Engineering and Architecture

浙江水利水电院先进换热与能源应用研究所

丹佛斯板式换热器有限公司海盐

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