By Senthilarasu Sundaram, David Benson, Tapas K. Mallick
Solar Photovoltaic know-how creation: power Environmental affects and Implications for Governance presents an summary of the rising business PV region, its applied sciences, and the regulatory frameworks assisting them. This new publication reports and categorizes the aptitude environmental affects of numerous major PV applied sciences, reading the level to which present ecu governance frameworks control such affects. by way of picking out the gaps or regulatory mismatches and making a foundation for normative tips on governance switch, this publication analyzes strength governance implications and their affects with regards to brands upscaling PV creation techniques.
- Fills the necessity for a coherent resource of knowledge at the power affects of other PV technologies
- Provides accomplished assurance of lifecycle research (LCA) of PV applied sciences in one reference
- Analyzes appropriate governance preparations for researchers and brands
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Extra resources for Solar Photovoltaic Technology Production. Potential Environmental Impacts and Implications for Governance
1 Perovskite Solar Cells Perovskite solar cells have attracted a large amount of attention due to their sudden rise in the conversion efficiency—over 20% within a short duration of time. 55 eV), high absorption coefficient, long hole-electron diffusion length ($100 nm), and excellent carrier transport. Moreover, perovskite solar cells are most commonly prepared through different techniques like solution process (spin coating) and thermal evaporation methods. The flexibility of making highly efficient solar cells with solid-state DSSCs will have less complication in the manufacturing process, easy possibility for producing monolithically interconnected modules, 38 Solar Photovoltaic Technology Production easier sealing and encapsulation of the modules which are similar to other TF solar cells.
The controllability of various parameters in a three-stage growth process can bring complexities for CIGS solar cell manufactures, viz. high processing temperature (500–600°C), high vacuum (10À6–10À5 mbar), and complex controllability. But, two-step processes, which are less complicated, lead to less efficient cells. In CIGS manufacturing, selenization plays an important role to make the process complete. , 2011a,b) environment is considered as a simple and promising two-step approach to produce good quality absorber and high efficiency CIGS solar cells.
Coalition, 2009). , 2015). CIGS is known for its long-term durability and cost-effective production methods which makes it competitive to current silicon-based PV technologies. , 1996). The controllability of various parameters in a three-stage growth process can bring complexities for CIGS solar cell manufactures, viz. high processing temperature (500–600°C), high vacuum (10À6–10À5 mbar), and complex controllability. But, two-step processes, which are less complicated, lead to less efficient cells.