CLIMATE CONTROL
WHY CLIMATE CONTROL?
All enclosure that houses electrical and electronic components and do not have any climate control system suffers a temperature rise caused by:
• Loss of electrical components
• Provision of heat from the external environment
• Solar Radiation
The temperature reached inside an electrical panel without air conditioning can be higher than the recommended internal components, which will affect their performance and even cause its final decay.
There are several solutions that allow air to maintain the temperature inside the panel within the limits recommended by the component manufacturers. See below the different modes of cooling an electrical enclosure:
AIR/AIR HEAT EXCHANGER
Application:
• Low and medium power dissipated inside the cabinet.
• Temperature inside the enclosure varies between 8 and 12 ° C above ambient.
Advantages:
• Low maintenance, cleaning dissipation block.
• Maintenance of the protection degree of the enclosure.
Installation:
• Doors and side. • Internal and external assembly.
AIR/WATER HEAT EXCHANGER
Application:
• Low, medium and high power dissipation inside the cabinet.
• Controlled and stabilized inside the cabinet temperature.
Advantages:
• Low power consumption.
• Maintenance of the protection degree of the enclosure.
• Low noise level.
Installation:
• Doors, sides and roof.
• Mounting preferably outside.
AIR CONDITIONER
Application:
• Low and medium power dissipated inside the cabinet.
• Temperature inside the enclosure varies between 8 and 12 ° C above ambient.
Advantages:
• Low maintenance, cleaning dissipation block.
• Maintenance of the protection degree of the enclosure.
Installation:
• Doors and side.
• Internal and external assembly.
