首页|期刊导航|电气技术|潮热地区变电站10 kV配电装置室凝露机理分析与综合防治

潮热地区变电站10 kV配电装置室凝露机理分析与综合防治OA

Mechanism analysis and integrated prevention of condensation in 10 kV distribution equipment room of substations in hot-humid regions

中文摘要英文摘要

针对福建泉州某 220 kV 变电站 10 kV 配电装置室母线桥局部放电及金属构件锈蚀问题,通过现场测试与理论分析,揭示了凝露形成的根本机理——建筑封堵不严与通风控制缺失耦合,在垂直相邻空间形成热力烟囱效应主导的空气对流,致使高含湿量的热空气持续接触低温设备表面并冷凝.基于湿空气热力学理论解析传热传质过程,通过露点计算定量验证凝露发生的必然性.提出以"封堵隔离为基础、温湿度协同调控为核心、智能监测为保障"的综合治理方案,通过建筑气密性改造和空调-除湿机联动控制,实现环境露点的精确管理.工程应用表明,该方法可有效防范凝露与放电隐患,治理后装置室相对湿度稳定控制在(50±5)%范围内,为潮热地区变电站的防潮设计与运维提供了可靠解决方案.

In response to the partial discharge and metal component corrosion issues in the busbar bridge of a 10 kV distribution equipment room at a 220 kV substation in Quanzhou,Fujian,this study reveals the fundamental mechanism of condensation formation through field testing and theoretical analysis.Research indicates that inadequate building sealing coupled with deficient ventilation control creates thermal stack effect-driven airflow between vertically adjacent spaces,causing moisture-laden hot air to continuously contact and condense on cooler equipment surfaces.The heat and mass transfer process is analyzed based on humid air thermodynamics,and the inevitability of condensation is quantitatively verified through dew point calculation.An integrated solution is proposed,featuring"airtight sealing as the foundation,coordinated temperature-humidity control as the core,and intelligent monitoring as the safeguard".Precise management of the environmental dew point is achieved through building airtightness improvements and coordinated operation of air conditioning and dehumidifiers.Engineering applications demonstrate that this approach effectively eliminates condensation and discharge risks,maintaining post-treatment room relative humidity stably within(50±5)%,providing a reliable solution for moisture prevention in substation design and operation within hot-humid regions.

张俊康;沈谢林;杨冬明;张少莹;郑昕泽

国网泉州供电公司,福建 泉州 362000国网泉州供电公司,福建 泉州 362000国网泉州供电公司,福建 泉州 362000国网泉州供电公司,福建 泉州 362000国网泉州供电公司,福建 泉州 362000

变电站凝露热力烟囱效应传热传质露点温度综合治理

substationcondensationthermal stack effectheat and mass transferdew point temperatureintegrated prevention and control

《电气技术》 2026 (6)

54-59,6

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