Research on Intelligent Defrost Control Based on Parallel Plate Capacitor Principle

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Research on Intelligent Defrost Control Based on Parallel Plate Capacitor Principle

更新时间：2025-01-15

- Research on Intelligent Defrost Control Based on Parallel Plate Capacitor Principle
- Journal of Refrigeration (2025)
- 作者机构：
  
  1. 天津商业大学农业农村部农产品低碳冷链重点实验室天津市制冷技术重点实验室,天津
  2. 佛山市技师学院,佛山
- 作者简介：
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Research on Intelligent Defrost Control Based on Parallel Plate Capacitor Principle[J/OL]. Journal of Refrigeration, 2025.
DOI：

Research on Intelligent Defrost Control Based on Parallel Plate Capacitor Principle[J/OL]. Journal of Refrigeration, 2025. DOI：

摘要

针对蒸发器在结霜工况中出现“误除霜”的问题，提出一种基于平行板电容器原理的新型智能除霜控制策略，并建立蒸发器结霜-除霜过程平行板电容器数学模型，理论分析了空气/冰霜/水中间介质的占比对电容值的影响规律。电容值在结霜过程中呈线性缓慢增长，而在除霜过程中先升后降。本文以冷库蒸发器作为研究对象，构建了电容除霜控制系统，实验结果与理论分析电容值变化趋势相一致。结果表明：32.0 pF与19.0 pF可分别作为除霜智能控制启停点。冷库中心温度波动幅度减少了12.0 ℃，除霜周期时间缩短了大约4 min，除霜效率提高约22 %，除霜耗电量降低了36.74 %，制冷系统总耗电量降低了19.8 %。本研究为制冷系统的高效安全除霜提供了有效途径。

Abstract

Addressing the issue of “erroneous defrosting” in the defrosting condition of the evaporator

a novel intelligent defrosting control strategy based on the principle of parallel-plate capacitor is proposed

a mathematical model of parallel-plate capacitor is established in the process of frosting and defrosting of the evaporator

and the theoretical analysis of the proportion of air/frost/water intermediate medium on the capacitance value is conducted. The capacitance value shows a slow linear growth during the frosting process

while it rises first and then falls in the defrosting process. This paper takes the cold store evaporator as the research object

constructs the capacitance defrosting control system

and the experimental results are consistent with the theoretical analysis of the change trend of capacitance value. The results show that 32.0 pF and 19.0 pF can be used as the start-stop point of intelligent defrosting control respectively. The fluctuation range of the central temperature in the cold store is reduced by 12.0 ℃

the defrosting cycle time is shortened by about 4 min

the defrosting efficiency increased by about 22 %

the defrosting power consumption is reduced by 36.74%

and the total electricity consumption of the refrigeration system is reduced by 19.8 %. This study provides an effective approach for efficient and safe defrosting in refrigerating system.

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Related Author

Fan Pengyan

Liu Zhongliang

Li Yanxia

Yuan Pei

Zeng Qinghui

Lei Zhenglin

Wu Yixiao

Yanli

Related Institution

Key Laboratory of Enhanced Heat Transfer and Energy Conservation，Ministry of Education , Department of New Energy Science and Engineering，Beijing University of Technology

Zhengzhou University of light Industry

Xi'an Jiaotong University

Shandong Xiaoya Cold Chain Co.,Ltd.

School of Mechanical Engineering， Shanghai Jiao Tong University， Shanghai， 2002401

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