可再生能源是未来的需要。车辆日常旅行依赖化石燃料;因此问题将出现在未来,因为他们是有限的。有一个需求保持相同。插件混合动力汽车(PHEV)是我们的交通系统未来将在很大程度上缓解化石燃料的使用。插电式混合动力汽车的策略是在需求更少依赖燃烧燃料。本文提出了一种基于太阳能充电站的想法。有正在进行的研究提高太阳能电池板的效率。很难提高效率通过改变内部结构,因此,一种新技术叫做外部tarp光线用于提高太阳能电池板的效率。抛物面聚光设计然后3 d印刷。 It reflects the photons that are incident on the surface and thus with retro-reflection efficiency gets increased. For an instance the vehicle’s battery is at threshold then to serve it mobile chargers (MC) are used. So here we have developed an android application that can alleviate range anxiety problem of PHEV users. It has various features like call the Mobile Servers (MS), range prediction with current battery status and slot booking. The mobile server relies on queuing technique that find out design parameter for such mobile charging system. Here, the design parameter is NJN (next-job-next) technique. In NJN, MC provides service to nearest PHEV when done with the recent one. As the charging stations are limited there is need to book the same. So, the application helps the driver to do the same. So, our main motto is to reduce range anxiety problem of PHEV users and preserve the environment by reducing harmful emissions from vehicles.
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