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Qual è l'effetto anti-PID degli additivi per film fotovoltaici al silano sui moduli fotovoltaici?

One major problem affecting the efficiency and dependability of photovoltaic (PV) modules is Potential-Induced Degradation (PID). This paper explores the mechanisms and advantages of silane additions in PV films that have an anti-PID impact. Through a thorough investigation of the root causes of PID, the benefits of using silane additives to reduce PID in PV modules are clarified.

 

Introduzione

PV modules have a phenomena known as Potential-Induced loss (PID), where over time, the electrical potential difference between the cells and the grounded frame causes performance loss. PID can cause a large amount of power loss, which reduces the PV systems’ total energy output. Silane additions have shown great promise in reducing PID and enhancing the long-term dependability of photovoltaic modules.

Recognizing Degradation Induced by Potential (PID)

Three main variables contribute to PID: elevated system voltages, elevated temperatures, and elevated humidity levels. In these circumstances, a leakage current passes through the photovoltaic module, causing charged species to migrate within the cell and creating leaking pathways. Reduced module efficiency and power loss are the outcomes of this process.

 

Silane Additives’ Function in PID Mitigation

Silane additives provide an efficient way to counteract PID in PV modules because of their special chemical characteristics. By serving as moisture barriers, these additives lessen the amount of humidity that enters the module. Silane additives can reduce the establishment of leakage channels and stop charged species from migrating by creating a protective layer on the PV film’s surface.

Methods of the Anti-PID Action

Additivi silanici work through a variety of methods to counteract photoinduced degradation. First off, they make the PV film more hydrophobic, which lessens the amount of moisture that is absorbed. This prevents leakage routes from forming and restricts the availability of charged species. Second, PID-induced performance loss is minimized when a persistent silane layer forms on the cell surface, blocking the flow of ions and electrons.

 

Silane Additives’ Advantages in PID Mitigation

Silane additives are included into PV modules to provide a number of advantages for PID mitigation. First of all, it enhances module efficiency and power output by preventing the development of PID-induced leakage routes. Second, silane compounds’ moisture barrier qualities lessen the possibility of corrosion and potential stress within the module, improving its long-term dependability. Silane additives are a workable and affordable approach for PID mitigation since they are also compatible with the current module production procedures.

Comparative Evaluation and Experiments

Experimental results and comparative analyses show that silane additions are effective at reducing PID. When PID is induced, modules treated with silane additions show decreased power loss and enhanced electrical performance. The information emphasizes how crucial it is to include silane additives in PV modules in order to guarantee their long-term dependability and performance.

 

For solar modules, silane additions provide a workable way to reduce Potential-Induced Degradation (PID). Silane additives significantly limit the creation of leakage channels and improve module performance by functioning as moisture barriers and blocking the migration of charged species. Improved efficiency, enhanced dependability, and compatibility with current module production processes are some of the advantages of silane additions. It is recommended that future study concentrate on refining silane additive formulations and application techniques in order to further augment their anti-PID properties.

 

Finally, one important step in mitigating Potential-Induced Degradation in solar modules is the use of silane compounds. Their significance in guaranteeing the long-term performance and dependability of PV systems is highlighted by our comprehension of their mechanics and the benefits they have been shown to have in minimizing PID. In order to combat PID-related difficulties, the photovoltaic (PV) industry can increase efficiency, boost power production, and improve durability by using silane additives.

 

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