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INDUSTRY STATUS AND PAIN POINTS

INSUFFICIENT ROOF LOAD

·The application of distributed photovoltaics are mostly on building surfaces. A considerable proportion of existing industrial and commercial factory roofs lack sufficient loading capacity and cannot safely bear traditional glass modules of 15 to 20 kilograms per square meter, which limits the further development of distributed photovoltaics.

·If traditional photovoltaic modules are installed on the existing industrial and commercial roofs, most roofs will need to be reinforced, which will cause additional renovation costs and also affect company's normal operations.

CURVED SURFACES CAN'T BE APPLIED

·Based on considerations such as aesthetics,waterproofing, thermal insulation, increasing space utilization, and reducing wind pressure load, many industrial and commercial building roofs and facades adopt curved surface designs.

·Traditional photovoltaic systems are often heavy and rigid, making it difficult to adapt to different shapes and curves of building surfaces. Architectural designs often require more flexible, lightweight materials to meet structural requirements.

High frequency vibration leads to increased glass breakage rate

·The high-frequency vibration caused by the busy road traffic and the uninterrupted operation of large mechanical equipment in factories has become a problem that cannot be ignored. Under the action of continuous vibration, the breakage rate of traditional glass components increases significantly, posing a potential threat to people's lives and property.

Safety issues of high-altitude installation

·Due to their heavy weight, glass modules not only bring technical challenges to the installation process, but also significantly increase the safety risks of high-altitude installation operations.

25 YEARS OF SHINING IN THE RENEWABLE ENERGY WORLD UNFADINGLY

SAFE AND RELIABLE

SUPER DURABLE

HIGH-EFFICIENCY AND HIGH INCOME

Material technology advantages

INDEPENDENTLY DEVELOPED TRANSPARENT FRONT FILM，GLASS FIBER REINFORCED COMPOSITE MATERIALS，ENHANCED BACKBOARD

POLYMER CHAIN GROUP MODIFICATION TECHNOLOGY

·The light transmittance is ≥91%, far higher than similar products, and no barrier for photoelectric conversion

·Ultra-high UV blocking ability ensures lasting protection of power generation efficiency for 25 years

[ Data support: 20 years of practical outdoor application data of polymer materials, 20,000 hours of accelerated aging experimental data,Yellowing index Δ≤3]

RESIN AND FIBER INTERFACE STRENGTH IMPROVEMENT TECHNOLOGY

·The modulus is 1300MPa, 100% higher than competing products, whichimproves the overall strength of the module and solves the problem of cell cracks

NANOHYBRID MODIFICATION AND SURFACE TREATMENT FLAME RETARDANT TECHNOLOGY

·The flame retardant grade of the module reaches building B1 level & UL94 -V0 level

[Passed EN45545 EU flame retardant standard, TB/T3237 Chinese railway standard flame retardant standard]

DISADVANTAGES OF TRADITIONAL MODULES

Traditional modules cannot meet the needs of modern photovoltaic integrated buildings in terms of lightweight, flexibility, functional integration and overall performance.

·Limited Load heavy weight , bracket installation, high roof load requirements

·Safety Risk risk of self-explosion (3‰ )

·Additional costs steel structure/bracket costs, labor costs due to complex construction

·Insufficient Shock Resistance the glass module is fragile and has poor shock resistance

·Aesthetic Shortcomings single color, single shape, poor adaptability

SOLUTION

HIGH-EFFICIENCY AND LIGHTWEIGHT PHOTOVOLTAIC MODULES AND BIPV PRODUCTS

·LIGHTER Only 30% of the weight of traditional modules, solving the problem of insufficient load on existing roofs

·MORE FLEXIBLE It can be better integrated into architectural design, provide more diverse appearance and integration solutions, adapt to different curved surfaces and shapes, so that photovoltaic systems can be perfectly integrated with buildings and reduce design restrictions.

·SHINING GREEN ENERGY WORLD Through the research and technological iteration of encapsulation materials, we have solved the insufficient light transmission and weather resistance of other ordinary lightweight modules, and achieve higher and more stable power generation efficiency.