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태양광 필름의 특징과 과제는 무엇인가요?

Photovoltaic film, also known as PV film, is an essential component in photovoltaic modules, which is why it plays such an important part in the generation of solar energy. The purpose of this article is to provide a complete study of the characteristics and obstacles that are inherent in the production of PV film technology. We intend to shed light on the significance of additives such as acid-resistant and PID mitigation chemicals by looking into certain elements, technologies, and obstacles, such as the ageing process and acidification. We are able to acquire useful insights into the optimisation of this essential component by conducting a comprehensive investigation of its properties, advantages, and impact on the PV film sector. At present, great progress has been made in the production of EVA, but there are still problems with product quality. The most prominent problem is the poor anti-aging performance, and the inability to take into account both anti-aging modification and light transmittance at the same time. Only by improving the above problems can the performance of photovoltaic modules be fundamentally improved.

 

Photovoltaic Film’s Characteristics and Properties

The extensive use of photovoltaic film in solar energy systems can be attributed to the fact that it possesses a number of important qualities. To begin, it provides an amazing degree of versatility, which makes it possible to easily include it into a wide variety of module designs and applications. In addition, photovoltaic film has a high light transmittance, which enables it to effectively absorb sunlight and convert it into electrical energy. The fact that it is lightweight and has a narrow profile makes it an ideal candidate for installations that are either ground-mounted or put on rooftops, which, in turn, makes its deployment more cost-effective across a variety of locations.

The Benefits of Utilising Photovoltaic Film

The numerous benefits that photovoltaic film offers are one of the factors that are contributing to its increasing popularity in the field of renewable energy. PV film modules, in contrast to standard crystalline silicon modules, use less material and energy for production purposes. As a result, PV film modules have lower manufacturing costs and a less impact on the environment. In addition, the fact that they have a flexible form factor makes it possible to put them on curved or irregular surfaces, which can broaden the possibilities for the generation of solar energy in both urban and rural regions. In addition, photovoltaic film modules have a shorter energy payback time compared to conventional modules, which indicates that they perform better in low-light settings.

The Obstacles That Photovoltaic Film Must Overcome

PV film technology is not without its difficulties, despite the fact that it has a great deal of benefits. It is one of the key worries that the material is susceptible to deterioration and ageing over the course of time. It is possible for the qualities of photovoltaic (PV) film to deteriorate from exposure to external conditions such as ultraviolet (UV) light, moisture, and variations in temperature. This can result in a decrease in efficiency and a shorter lifespan. Furthermore, the acidic breakdown of protective layers constitutes a considerable concern, which compromises the integrity of solar modules as well as their performance. The phenomenon known as potential-induced deterioration (PID) can also lead to significant power losses, particularly in systems that have high voltage differentials.

Confronting Obstacles Through the Use of Additives

PV film is subjected to a number of problems, and in order to address these challenges, several additives are utilised to improve its durability and performance. When it comes to preserving PV film from acidification, neutralising acidic substances, and preventing corrosion, acid-resistant additives are an extremely important component. Due to the formation of a protective barrier by these chemicals, solar modules are guaranteed to be stable and reliable during the entirety of their lifetime. In a similar manner, PID mitigation additives function to prevent the movement of ions within the module, hence maintaining the module’s electrical integrity and maximising the amount of energy that is produced. Manufacturers are able to increase the overall quality and lifetime of solar modules by integrating these additives into PV film formulations. This ensures that solar modules will continue to be viable in the landscape of renewable energy.

 

태양광 필름 제조에 미치는 영향

The PV film business has been completely revolutionised as a result of the incorporation of additives such as acid-resistant and PID mitigation chemicals. It is now possible for manufacturers to develop solar modules that are more resilient and efficient, which results in increased confidence among investors and end-users. Furthermore, the widespread usage of these chemicals has prompted innovation and competitiveness within the sector, which has led to breakthroughs in technology and a reduction in the cost of solar energy. In addition, the increased durability and performance of PV film modules have made it possible for solar installations to be expanded into locations that have tough environmental conditions. This has further accelerated the shift to renewable energy on a worldwide scale.

 

In conclusion, the properties of photovoltaic film as well as the obstacles that comes along with it highlight the significance of constant innovation and optimisation in the field of solar energy technology. Through the introduction of additives, the PV film industry is able to overcome these challenges and realise its full potential. These challenges include ageing, acidity, and precipitation-induced development (PID). It is possible for us to further improve the efficiency, dependability, and sustainability of solar energy systems by working together and investing in research and development. This will pave the way for a future that is both cleaner and brighter. RM2320 is a glycidyl methacrylate-grafted polymer having an ethylene vinyl acetate copolymer matrix and a white translucent granular appearance. It’s an epoxy-functionalized EVA anti-PID ingredient. The adoption of PID mitigating additives yields tangible benefits, ranging from prolonged module lifespan to enhanced energy yield.

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