摘要
配电站内变压器等设备在运行过程中会导致配电房内气温上升。通过仿真模拟配电房内温度场的变化情况,研究了降低配电站室内温度的方案,研制了改善通风、散热的热交换设备,开发了防止太阳照射的实用型设备、微正压通风过滤装置与太阳能板发电系统配套的节能设备,以及变配电站安装防火保温材料和雨水收集除尘系统,形成了配电站的智能化节能通风系统,不仅可以降低配电站出现的缺陷和故障的概率,还有利于配电站实现节能减排。
Distribution substation transformer equipment in operation process will cause temperature rise within the transformer room.Through simulation the change of temperature field within the transformer room,study the feasibility of reducing substation indoor temperature,is developed to improve the ventilation and heat dissipation of heat exchange equipment,developed to prevent the sun’s practical equipment,micro positive pressure ventilation filter unit and the energysaving equipment form a complete set of solar power generation system,formed the substation intelligent energysaving ventilation system,not only can reduce the probability of the defects and faults of distribution substation,and favors the substation to achieve energy conservation and emissions reduction.
出处
《电力与能源》
2014年第4期472-474,共3页
Power & Energy
关键词
配电站
仿真模拟
温度场
通风散热
防火保温材料
Sub-station
simulation
Temperature field
Ventilation cooling
Fire insulation materials
