제품 설명
High transfer rate silane functional photovoltaic film additives have a number of benefits, such as better light transmission, higher energy conversion efficiency, fewer hot spot hazards, and better bonding, interfacial adhesion, superior moisture resistance, and longer module lifespans.Silane functional photovoltaic film additives with high transfer rate are specialist compounds designed to increase the light transmission qualities of photovoltaic films used in solar modules. Usually made of silane-based substances, these additives improve the module’s ability to absorb and transmit light.
In solar energy systems, these additions help to improve the environmental resistance, power output, and durability of the modules. High bonding rate silanized photovoltaic film additives are essential for improving the efficiency, dependability, and uptake of photovoltaic modules for sustainable energy solutions because of their extensive variety of uses in the solar energy industry and associated areas.
고급 장비!
제품 품질을 보장하기 위해 첨단 생산 라인과 실험 테스트 센터를 갖추고 있습니다.
강력한 기술력!
10명 이상의 숙련된 기술 R&D 직원이 지속적인 혁신을 주도합니다.
특성
성능 | 가치 | 테스트 방법 |
밀도 | 0.95g/㎤ | ASTM D792 |
녹는점(DSC) | 69℃(156℉) | ASTM D3418 |
MFR(190℃2.16kg) | 5-15g/10분 | ASTM D1238 |
실란 함량 | 높음 | 내부 방법 |
참고: 위의 데이터는 일반적인 테스트 값이며 사양으로 해석해서는 안 됩니다.
권장 복용량 : 권장 복용량실제 적용에 따라 비용을 고려하여 적절한 증액 또는 감액 금액을 결정합니다.
- Enhanced Light Transmission: The main benefit of silane functional additives is their capacity to enhance photovoltaic films’ light transmission characteristics. By reducing light reflections and losses, these additions increase the amount of incident light that is absorbed and transformed into energy.
- Higher Energy Conversion Efficiency: These additives help to increase energy conversion efficiency by maximizing the rate at which incoming light is transferred. They guarantee that the sun’s energy is used to its fullest potential, which enhances the photovoltaic module’s total performance and power output.
- Lower Risk of Hot Spots: The addition of silane functional additives helps to equally disperse light over the solar cells, reducing the possibility of hot spots. This lessens the possibility of performance loss and localized heating, extending the module’s lifetime and overall reliability.
- Enhanced Durability: The solar film is also made more durable by these additions. Long-term performance and dependability are guaranteed by their resilience to environmental stresses like moisture, temperature swings, and UV radiation.
이점
Higher Power Output: These compounds’ improved light transmission qualities lead to a rise in power output. Through optimizing light absorption and mitigating losses, they augment the solar module’s energy conversion efficiency.
Enhanced Module Efficiency: Silane functional additives aid in raising the solar module’s overall efficiency. Improved performance allows the module to generate more electricity for a given quantity of incident sunlight thanks to higher light transmission and fewer reflections.
Enhanced durability: These additives provide improved long-term durability for solar modules by reducing hot spot dangers and optimizing light distribution. Longer module lifespans, lower maintenance costs, and higher return on investment are the outcomes of this.
당사의 장점
글로벌 공급망!
사운드 스토리지 및 물류 공급망 시스템
기술 지원
판매 후 보호
집중 - 성취 - 우수성!
맞춤형 제품
R&D에 집중
글로벌 서비스
코이스 인증!
ISO9001:2015 인증
ISO14001:2015 인증
EU REACH 등록
한국 K-REACH 사전 등록
기업의 이점!
국내외를 넘나드는 레이아웃, 믹스 앤 매치하기 좋은 디자인
국내 마케팅 레이아웃
해외 마케팅 레이아웃
애플리케이션
Production of Photovoltaic Films: During the production process, silane functional additives are added to the formulation of photovoltaic films. The incorporation and compatibility of the additives are guaranteed by their uniform dispersion throughout the film.
Assembling solar Modules: The active layers in the construction of solar modules are photovoltaic films with silane functional additives. These films improve the module’s overall performance and power production by enabling effective light absorption and transmission.
Solar Energy Sector: High transfer rate silane functional photovoltaic film additives are widely used in the solar energy sector. By using them in utility-scale solar farms, residential and commercial solar installations, and other solar projects, photovoltaic modules perform better, are more reliable, and more efficient.