Wednesday, December 4, 2019
Research Methods for Emerging and Selected Topics - myassignmenthelp
Question: Discuss about theResearch Methods for Emerging and Selected Topics. Answer: Introduction In order to deal with the crisis of the energy, it is important to increase the popularity of the electric vehicles. These vehicles are mainly dependent on the charging from the electrical sources that are able to power up the engine. Lukic and Pantic (2013), have mentioned about the fact that the electrical vehicles lost huge amount of time in the process of charging that is an essential part of the overall process. Hence, it is important to note that in most of the occasions, the process of wireless charging needs to be implemented in order to save the time that is required by the electronic vehicles in the overall time that is needed in the process of charging. According to Musavi et al. (2012), the wireless process of charging can also help to save the time that is needed in the charging of the engine. The potential that exists in the process of electrification of the cars can help to attract several types of research in the respective fields in the given case. The main purpose o f the research of the research is to improve upon the commercial applicability of the wireless form of charging that can help in the process of dealing with the issues related to the energy crisis. The research paper of Miller et al. (2014), have mentioned about the application of Inductive Power Transfer (IPT) that has been used successfully in many electronic vehicle systems. This is one of the most important matters related to the powering of the electric vehicles. The process of wireless charging has been adopted by many of the top automobile brands including Mercedes Benz and BMW. The basic principle of wireless charging is in this case based on most of the inductive level of charging. Capacitive power transfer is also one of the important technological improvements of wireless charging. The capacitive process of charging that is used in the process of isolation is needed to deal with minimizing the cost of wireless charging. It is also believed to be one of the convenient modes of portable electronic devices, which can be used to power up the devices. Wireless charging can also be the advancement in the process of autonomous charging concept that is used by most of the luxurious automobile brands (Bi et al. 2015). It is also based that in most cases, wireless charging is related to the bidirectional form of charging, that is related to high effective forms of charging system, which is believed to be one of the economic ways. Onar et al. (2013), have mentioned about the importance of efficiency due to the fact that internal engines are able to have longer life span. With the help of the specially designed coiled system within the internal engine, it is possible to deal with most of the cases related to the internal engines. It is also important to mention that wireless charging electric vehicles produce much fewer air pollutants compared to that of traditional engines. Hence, with the help of this mechanism, it is possible to reduce the effect of environmental degradation (Zhang et al. 2016). In Spite of the advantages of electric cars, they have limited range due to the fact that it is not possible to provide charge in all places. Therefore, electric cars cannot be relied upon for long distance journey. However, with the introduction of wireless charging system, it is possible to neutralize this limitation. This makes the electric car more users friendly and practically suitable for all types of situation. A hybrid system that is used in the electric vehicles also enables them to get the engine power from any source of electricity. Developers of the wireless charging automobile vehicles have enabled them to deal with the challenges related to the developing system. The wireless charging is based upon the principle of electromagnetism, which enables them to deal with the challenges related to the use of petroleum product. The type of the battery that is used in the car is also dependent upon the type of electronic charging system that is being implemented (Li and Mi 2015). Another major advantage of the wireless charging technology is due to the fact that it is possible to integrate the shape of the device within tiny wireless charging receiver. Hence, it is possible to improve upon the overall sizing of the battery and car engine (Rajashekara 2013). It is also possible for multiple numbers of devices to be charged simultaneously, which is believed to be one of the effective ways of saving time. There are numerous multiple devices is charging stations that have become popular in the recent years. As there is a minimum amount of cables required in the overall process of charging, it is possible to save vital space within the charging station. On the other hand, the major disadvantages that are related to the use of wireless charging system are due to the fact that it is related to various health concerns. The electromagnetic radiation through which the wireless charging system is operated can cause major health issues if they are being exposed to human for longer duration. It can also cause critical diseases like tumour or cancer (Xie et al. 2013). In spite of the fact that wireless charging system is believed to be one of the economic ways of powering up automobile vehicles, the initial cost of setting up the infrastructure is generally very high. In spite of its popularity, due to the high-cost offsetting of the infrastructure, it is not possible to commercially implement the wireless charging system. It is important for the future research has to focus on the ways to improve the efficiency of the cost that is involved in setting up the infrastructure for the wireless charging system. It is also important to ensure that minimum amount of harm is being caused due to the electromagnetic radiation that is an important component of wireless charging system. Reference Bi, S., Ho, C.K. and Zhang, R., 2015. Wireless powered communication: Opportunities and challenges. IEEE Communications Magazine, 53(4), pp.117-125. Li, S. and Mi, C.C., 2015. Wireless power transfer for electric vehicle applications. IEEE journal of emerging and selected topics in power electronics, 3(1), pp.4-17. Lukic, S. and Pantic, Z., 2013. Cutting the cord: Static and dynamic inductive wireless charging of electric vehicles. IEEE Electrification Magazine, 1(1), pp.57-64. Miller, J.M., Onar, O.C., White, C., Campbell, S., Coomer, C., Seiber, L., Sepe, R. and Steyerl, A., 2014. Demonstrating dynamic wireless charging of an electric vehicle: The benefit of electrochemical capacitor smoothing. IEEE Power Electronics Magazine, 1(1), pp.12-24. Musavi, F., Edington, M. and Eberle, W., 2012, September. Wireless power transfer: A survey of EV battery charging technologies. In Energy Conversion Congress and Exposition (ECCE), 2012 IEEE (pp. 1804-1810). IEEE. Onar, O.C., Miller, J.M., Campbell, S.L., Coomer, C., White, C.P. and Seiber, L.E., 2013, March. A novel wireless power transfer for in-motion EV/PHEV charging. In Applied Power Electronics Conference and Exposition (APEC), 2013 Twenty-Eighth Annual IEEE (pp. 3073-3080). IEEE. Rajashekara, K., 2013. Present status and future trends in electric vehicle propulsion technologies. IEEE Journal of Emerging and Selected Topics in Power Electronics, 1(1), pp.3-10. Xie, L., Shi, Y., Hou, Y.T. and Lou, A., 2013. Wireless power transfer and applications to sensor networks. IEEE Wireless Communications, 20(4), pp.140-145. Zhang, Y., Chen, K., He, F., Zhao, Z., Lu, T. and Yuan, L., 2016. Closed-form oriented modeling and analysis of wireless power transfer system with constant-voltage source and load. IEEE Transactions on Power Electronics, 31(5), pp.3472-3481.
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