New energy

Non electric cooling coating - efficient cooling solution in the field of new energy

New energy equipment often faces severe high-temperature challenges during operation, with specific pain points including:
• Prominent safety hazards: High temperatures can easily cause electrical fires and other safety accidents, with a high risk level.
• High energy consumption costs: Traditional refrigeration systems (such as air conditioning) consume huge amounts of energy, significantly increasing operating costs.
• Damaged energy efficiency conversion: High temperatures lead to a decrease in the efficiency of core components such as photovoltaic modules and batteries.
• Equipment lifespan degradation: Continuous high temperature environment accelerates the aging of equipment components, shortening the overall service life.
• Increased operational burden: Frequent cooling maintenance and fault repair drive up operational investment.
• Reduced system reliability: High temperature is one of the main causes of equipment downtime and unstable performance.

Innovative patent technology solutions:
This product adopts patented non electric cooling coating technology, which achieves:
• Significantly reduce surface temperature: effectively isolate or reflect heat, reducing heat accumulation from the source.
• Protect internal components: alleviate the thermal damage and aging effects of high temperatures on precision electronic components inside.
• Improve power generation/storage efficiency: Maintain equipment in a better operating temperature range to enhance energy conversion and storage efficiency.
• Extend equipment lifespan: Reduce thermal stress and effectively delay the overall aging process of the equipment.
• Reduce long-term costs: significantly reduce reliance on high energy consuming refrigeration systems, reduce maintenance frequency and costs.
• Practicing the green concept: Using zero energy cooling methods to help enterprises achieve the dual goals of cost reduction, efficiency improvement, and sustainable development.

Diversified application scenarios: charging stations, energy storage cabinets, wind power generation and other new energy facilities exposed to high temperatures outdoors that require effective heat dissipation.