美国论文代写:钙钛矿硅基模块的持续性问题
另一方面,硅基模块的工作周期为20年,因此与模块相关的发射要高得多。然而,这也是一个可持续性的问题,因为钙钛矿模块需要在两年内被替换,这将导致更大的垃圾填埋场和其他可持续性问题。最后,研究还发现钙钛矿的使用对于减少热点地区也有很大的帮助。在环境热点的情况下,如涉及使用黄金,或眼镜等,有许多相关的问题。然而,在钙钛矿的案例中,发现的问题较少。热蒸发数据在制造上下文中也多指向这个方向。
美国论文代写:钙钛矿硅基模块的持续性问题
在许多研究工作中,钙钛矿的倡导是基于不确定性和敏感性分析以及效率的驱动。在前面提出的比较案例研究中,钙钛矿太阳能电池的使用被认为可以减少不确定性问题,在敏感性分析中表现更好。在性能比和寿命成本方面,钙钛矿也较好。针对这些问题进行的类似研究也试图探讨效率问题。
美国论文代写:钙钛矿硅基模块的持续性问题
The silicon based module on the other hand works for a period of 20 years and hence the emission associated with the module is considerably higher. However, this is also an issue in sustainability, as a Perovskite module that needs to be replaced in two years would contribute to greater landfill and other sustainability concerns. Finally, the research also identified that the use of Perovskite would also be much useful in the reduction of hotspots. In the case of environmental hotspots such as those involved in the use of gold, or glasses etc., there are many issues associated. However, in the case of Perovskite, there are fewer issues identified. Thermal evaporation data in the context of manufacturing and more also point in this direction .
美国论文代写:钙钛矿硅基模块的持续性问题
In much research work, the advocacy for perovskite is driven based on the uncertainty and sensitivity analysis and the efficiency rates. In the comparative case research as presented earlier, the use of Perovskite solar cells is seen to lead to less uncertainty issues and fare better in sensitivity analysis. In the case of performance ration and lifetime costs, also the perovskite is better. Similar research’s conducted on these concerns also attempt to look at the efficiency issues.
