With many South Africans installing inverters as part of solar power systems to mitigate the impact of load shedding in homes and at businesses, users need to be aware of the potential fire risk. This includes overheating or short-circuits in the battery or other electrical parts that could result in an explosion, warns ASP Fire CEO, Michael van Niekerk.
An essential part of any solar power system, solar inverters convert direct current (DC) power produced by photovoltaic solar panels into alternating current (AC) electricity to power appliances and devices at home and in businesses.
“There are various factors that can cause a solar inverter to catch fire,” notes van Niekerk. It can simply be the naturally high temperature of its operating environment, compounded by the equipment generating heat as it inverts and transforms high-voltage electricity.
Potential short-circuits can also be caused by a lack of adequate maintenance and management, improper installation, poor quality equipment, or vegetation, plant debris and even small animals and insects finding their way into equipment.
Grid-tied solar systems are exposed to inrush current when the power is restored after load shedding that can cause damage or fires, so it is important to have the system designed and signed off by a registered electrical engineer.
“Any failed component that short-circuits can result in a fire that spreads throughout the inverter, causing a domino effect,” highlights Van Niekerk. Here automatic fire suppression is important to quickly detect and suppress a fire so the inverter is offline before the fire can spread to other components. This reduces the impact of any fire and prevents damage to other equipment and the surrounding area.
The following general safety tips are recommended:
• Place the inverter on a reasonably flat horizontal or vertical surface.
• Keep the inverter dry and do not expose it to rain or moisture. Do not operate the inverter if any surface that is wet may come in contact with any power source. Water and many other liquids can conduct electricity and lead to serious injury or death.
• Avoid placing the inverter on or near heating vents, radiators or other sources of heat. Do not place the inverter in direct sunlight.
• Ensure the inverter is well ventilated so as to properly disperse heat generated while the inverter is in operation. Maintain a clearance of a few centimetres on the top and sides of the inverter when it is in operation.
• Do not use an inverter near flammable or combustible materials or place it in areas such as battery compartments where fumes or gases may accumulate.
“Fires will happen,” says van Niekerk. “Therefore, it is important to prepare for the worst-case scenario by understanding the fire risks, how to best mitigate those risk factors, and then lastly, how to manage a solar inverter fire.”
ASP Fire operates across the entire African continent from its Gauteng base, providing professional, accredited fire risk management and support to its clients. ASP Fire designs, installs, and maintains a full range of fire detection and suppression equipment suited to clients’ needs, and provides a holistic, proactive, and preventative fire solution based on integrated fire risk assessment, training, and consulting, with the installation and maintenance of fire detection and suppression systems that meet SABS, NFPA, FPASA, and SAQCC standards.
For more information, contact ASP Fire.
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