英国毕业论文:钙钛矿电池使用的优点
从现有文献中识别出的太阳能电池使用的另一个难点是太阳能电池的使用效率等。研究人员试图以16种常见影响指标的形式收集数据,并对两种钙钛矿太阳能电池组件的EPBT和CO2排放形式进行分析。这是一个比较的案例研究,与现有的太阳能电池系统进行比较。通过不确定度和灵敏度分析确定钙钛矿的性能,结果表明钙钛矿的不确定度和失效原因比其他太阳能电池要小得多。
英国毕业论文:钙钛矿电池使用的优点
经鉴定,与现有的太阳能电池相比,钙钛矿驱动模块在EPBT中的作用距离最短。此外,目前市面上更多的太阳能电池需要至少4年的时间才能回收与不可再生能源一样多的能源。这不是解决矿物燃料问题的可行办法。另一方面,钙钛矿光伏组件的使用可以在很短的时间内提供很大的恢复。钙钛矿回收能源的潜在投资最多可在3-4个月内完成。这又是钙钛矿使用的一个优点。
英国毕业论文:钙钛矿电池使用的优点
Yet another difficulty in the use of solar cells as identified from the existing literature is the efficiency in solar cell usages and more. Researchers attempted to collect data in the form of 16 common impact indicators and analyzed the form of EPBT and CO2 emission in the case of two perovskite solar cell components. This was a comparative case study, where comparison was carried out with the existing solar cell systems. Both uncertainty and sensitivity analysis were carried out to identify how perovskite performs and it was established that Perovskite had much less uncertainties and causes for failure compared to the other solar cells.
英国毕业论文:钙钛矿电池使用的优点
It was identified that in comparison to the existing solar cells, the Perovskite driven modules were seen to have the shortest range in EPBT. Also, the more current and commercially available solar cells are seen to require at least four years recovering as much energy as a non-renewable energy source. This would not be a feasible solution to the problem of fossil fuels. On the other hand, the use of the Perovskite PV modules is seen to offer much recovery in very short span of times. The potential investment for recovering energy in the case of the Perovskite could be done in a maximum of 3-4 months. This is once again an advantage in the use of the Perovskite.
