摘要
在深入分析凝露产生机理及其基本概念、凝露与温湿度间关联的基础上,进一步分析电气实验设备在潮湿度环境中产生的物理和化学现象及其危害;探讨温湿度的变化如何导致设备内部出现凝露现象及其后果;阐析各类凝露防御控制方法的逻辑,并评估不同措施的优劣。在此基础上,结合理论分析和数据论证,提出三种防凝露可行性方案,以期为电气实验设备防凝露方案设计提供实用参考,并为构建智能判断与自动控制于一体的主动防凝露控制系统提供初步思路。同时也以此加强电气设备在潮湿环境下的可靠性能和安全性,推动智能控制技术在电气设备保护领域的应用。
On the basis of an in-depth analysis of the mechanism of condensation formation and its basic concepts,as well as the relationship between condensation and temperature and humidity conditions,this study further explores the physical and chemical phenomena and associated risks that occur in electrical laboratory equipment under humid conditions.It examines how changes in temperature and humidity lead to condensation inside the equipment and its consequences.The paper analyzes the logic behind various condensation prevention and control methods and evaluates the strengths and weaknesses of different approaches.Based on this,and supported by theoretical analysis and data validation,three feasible anti-condensation solutions are proposed.These aim to provide practical references for designing condensation prevention schemes for electrical laboratory equipment,and offer preliminary ideas for developing an intelligent system that integrates automatic detection and control for proactive condensation prevention.At the same time,this research seeks to enhance the reliability and safety of electrical equipment in humid environments,and promote the application of intelligent control technology in the protection of electrical equipment.
作者
陈江燕
寇龙
CHEN Jiang-yan;KOU Long(Guangzhou College of Applied Science and Technology,Guangzhou 511300,China;Guangzhou Huashang College,Guangzhou 511300,China;National Institute of Development Administration,Bangkok 10700,Thailand)
出处
《广东水利电力职业技术学院学报》
2024年第4期8-12,38,共6页
Journal of Guangdong Polytechnic of Water Resources and Electric Engineering
基金
2022年广东省教育厅普通高校青年创新人才类项目(2022KQNCX134)。
关键词
凝露
绝对湿度
相对湿度
露点温度
condensation
absolute humidity
relative humidity
dew point temperature
