The following research is based on the analysis of the environment and the batteries and wireless charging for the electric cars. Modern day technologies have played a significant role in changing the global business environment. The main aim of this research is to get an idea about wireless technology that is used to charge the batteries of Electric cars. The researcher has provided the different researches and the inductive battery concept in the following research. The research of Fraunhofer IWES has been mainly discussed in the literary part of the research. The inclusion of all the elements has thus proved out to be really helpful to make the research competitive and flawless.
In this particular section of the report the researcher has in details reviewed and explained the details regarding the use of wireless technology in cars in the future. The gradual decrease in the amount of global oil production and decreasing level of oil globally has led to the serious considerations for searching out renewable energy sources to drive the future generation. Oil is the largest contributor of energy at present as all Air Transport and road transport is heavily dependent on oil. As of now electricity has been one of the main alternatives that can have a large impact once oil is totally exhausted (Wildemuth 2016). Electric cars have now become a reality and a number of globally reputed companies have started to produce electric hybrid cars and are rechargeable. However the researcher has concentrated his efforts on wireless charging for electric cars which will surely be a break taking ground for future transportation. The researcher has discussed in detail about all the different elements of the following research and thus has been able to make the project effective and flawless in nature.
Figure 1- Conceptual Framework
Source- (As created by the author)
The relatively small number of charging stations and absence of dedicated corridors for the transportation of the electric cars renders the wireless electric charging of the cars useless and not feasible. However the faster adoption of the electric vehicles has sped up the process of building the infrastructure needed for wireless charging. The main challenge of building these electric charging stations across the roads and highways though seems easier is not as easy as it seems as because the electric charging system must be linked with the electric grid of that particular area to facilitate better charging. The demand for the vehicles has been gradually increasing as experts have warned about the possible end of the car industry run on oil by the year 2040. According to De Vaus 2013, location theory addresses questions of what economic activities such as EV charging stations should be located where and why. This theory is rooted in microeconomics, which studies the behavior of individual and firms in making decisions regarding the allocation of limited resources. Organizations such as developers of the technology charging stations/utility companies should choose locations that increase their profits and maximize the benefits to the grid. As for the EV drivers/owners, they should choose locations that maximize their utility (obtain the highest possible level of satisfaction) according to the theory.
The rising levels of pollution and the ever increasing pressure on the non renewable sources of energy has pushed the global population towards a paradigm shift and has opted for renewable sources of energy like electricity obtained from wind power and solar energy. As mentioned earlier a lot of giant automobile makers are producing electric cars that are believed to be the next generation of automobiles. However electric vehicles have a high level of flexibility and charging these is a very difficult task. The cars have high battery storage to make sure that there is enough charge for operating the car for a long distance. However the wireless charging system is an alternate to the wired charge system and its capacity is very much lower than that of the traditional wired charging (De Vaus 2013). The internal combustion engine of the car is efficient enough to go a long way. The battery is very expensive but its uses can go a long way. It is believed to be cost effective for vehicles that run on gasoline and the vehicles that use energy. The researchers are experimenting on further advanced technologies to remove the glitches of the previous technologies and make wireless the future for electric cars (Campbell, Donald and Julian 2015).
Wireless charging for the electric cars to not only charges the cars that run on electric but they also make sure to feed back energy into the power grid in which the system works (Li, Siqi and Chunting Chris 2015). The cost effective charging system is capable of achieving Ahigh degree of efficiency that ranges from a minimum of 400 watts to 3.6 kilowatts. Researchers at the Fraunhofer Institute for Wind Energy and Energy System Technology IWES have invented a cost-effective technology for running such innovative charging systems. “We deliberately use standard components that are already available on the mass market,” explains Marco Jung, who is the deputy head of the converter technology department at the mentioned institute. Apart from this the researchers of the following institute takes the help of the coil systems that are in need of a least number of Ferrie sheets. The sheets that are used are needed to control as well as protect the magnetic field that is created while the charging process goes on. The total system is a bit expensive because of the amount of coils and weight that is used in the technology (Sabki, Syamil and Nadia 2014).
One of the main advantages of the following system is the special design of the coil and the power electronics which implies about the efficient working of the system when the car is more or less 20 centimeters away from the road. “Even with an air gap of 20 centimeters, we achieve an efficiency of between 93 and 95 percent – and do so across the entire power range, from 400 watts to 3.6 kilowatts,” some of the systems can be compared to the the kind of efficiency for very short distances which limits the system’s uses for cars that have a lartge ground clearance. On the other hand the coils that are built in the road and the lower part in the body of the car, the charging system is carried out in the vehicle itself by means of the connections used for various purposes. The designing has been done in such a way that it provides flexibility to the drivers of the particular vehicle. Apart from providing inductive charging it has one phase and three phase power connection because of the multi functional concept of the technology (Aral, Sinan and Dylan 2014).
The system is also able to discharge the battery of the car apart from charging it. Some other advantages include the stabilization of the general power grid. There are particular days when the sun shines bright and thus helping the photovoltaic cells and the wind turbines to provide more energy than the normal level. However supply of a large amount of electricity may be harmful for the following system and may damage the electrical devices. Thus to avoid such complications the grid operators control the amount of energy that is received on such days (Musavi, Fariborz and Wilson 2014). But if the car batteries were used as a substitute the extra electricity produced could be easily stored in the grid when the sun revolves over or the winds lie down which further increases the proportion of the renewable energy.
The researchers of the mentioned university are presenting the wireless technology in the international motor show. Apart from this the researchers are displaying further solutions on electro mobility that includes an air cooled wheel hub motor and a lightweight construction. The induction coils are integrated into the roads, parking bays and in some cases in electric charging stations situated at different areas of the roads or highways. The coils when gets heated can pose a danger to the objects or any animals. Therefore the researchers have created a substitute for the product which is an induction late that supplies energy to the car from the front end located near the license plate (Musavi, Fariborz and Wilson 2014). The following technology thus allows the cost effective charging system that can be implemented one weighs only 3 kgs at a charging capacity of around 3.7 kilowatts. The time when a car brushes against any charger spot strongly it prevents the vehicle from getting damaged.
Some of the advantages of Wireless Charging for Cars are:
However there are also some large disadvantages of the contemporary technology like;
The researcher performed an extensive research on the provided research topic and was successful to gather a variety of knowledge about batteries and wireless technologies to charge electric cars. After a thorough analysis of the whole research some research questions can be easily pointed out which is an ideal part in the business research. The research questions are;
Research methodology
Qualitative Research is the type of research that is involved in the use of unreliable and unstructured information sources and information, collection of different methods and careful observations. It also includes the conduction of the research interviews, performing surveys and collecting information from some documents (Shin et al. 2014). Basically it is that kind of research that can be said to be a theoretical form of research involving a detailed analysis of the necessary documents. The readers will be well aware of the origin of the research, the date of occurrence, the topic of the research and the collection of the research methods. Some of the steps in this particular kind of research include;
Sampling refers to the collection of data from a selected group of participants on whom an interview is conducted. The opinion of these selected few is taken into consideration while preparing the research. The researcher has selected a sample size of 60 individuals from different organizations consisting mainly of employees and managers.
Quantitative research on the other hand refers to the use of objective statistical measurements involving complex mathematical and numerical analysis of the information collected through the sampling procedures. The steps in such a research are;
The researcher identified sample strength of 50 people among the different users of electric cars in Australia. The identification was done on the basis of the active community of people who drives electric cars (Quinn et al. 2015). The researcher used the random method of sampling to complete his research. The following method is used to provide a universal outlook to a project. It has been also put to use as it is believed to be the most transparent method of sampling. Application of simple random methods of sampling in the research had the following set of steps;
The collection of authentic information is one of the main factors that determine the success of the research. In the following research the information has been collected from various sources to make the project compact in nature.
The research conducted by the researcher has been successful in achieving all the main aims and objectives of the research. However a little bit extra effort could have produced a much better research. The shortage of time has compelled the researcher to shorten the scope of the project as many of the necessary elements of the project topic has been omitted. The use of limited number of references, depiction of less number of advantages and disadvantages, omission of minute details from research journals have took a toll on the project as it could have made the project more compact in nature. There is also an absence of important statistics like proper estimation of the number and segmentation of cloud computing frameworks of the different organizations. The research thus has lots of ground for improvement. The following research has also not shown a clear pathway towards the future development of the technology and has also failed to provide some critical concepts on the wireless technologies being used by electric cars to recharge their batteries (Quinn et al. 2015).
The research questions generally arrive in the scenario of the research when the problems with the research begin to arise. The questions that arise on the design of the research are;
The advantages of correlation designs are;
On the other hand the main disadvantages of the research design are;
Some of the key issues while preparing a research are;
The process of correlation design is;
Conclusion:
The research on the use of wireless charging for automobiles is certainly a success and a great source for future researches on the same topic. The research has considered all the necessary details regarding the following topic. The use of the induction motor technology for wireless charging has been worth to mention in this project. A thorough analysis of the total study provides the readers with a clear and transparent view of the future of wireless charging and its use in an increasing order gradually.
References:
Aral, Sinan, and Dylan Walker. “Tie strength, embeddedness, and social influence: A large-scale networked experiment.” Management Science 60, no. 6 (2014): 1352-1370.
Bi, Zicheng, Tianze Kan, Chunting Chris Mi, Yiming Zhang, Zhengming Zhao, and Gregory A. Keoleian. “A review of wireless power transfer for electric vehicles: Prospects to enhance sustainable mobility.” Applied Energy 179 (2016): 413-425.
Buja, Giuseppe, Manuele Bertoluzzo, and Kishore Naik Mude. “Design and experimentation of WPT charger for electric city car.” IEEE Transactions on Industrial Electronics 62, no. 12 (2015): 7436-7447.
Campbell, Donald T., and Julian C. Stanley. Experimental and quasi-experimental designs for research. Ravenio Books, 2015.
Choi, Su Y., Beom W. Gu, Seog Y. Jeong, and Chun T. Rim. “Advances in wireless power transfer systems for roadway-powered electric vehicles.” IEEE Journal of Emerging and Selected Topics in Power Electronics 3, no. 1 (2015): 18-36.
De Vaus, David. Surveys in social research. Routledge, 2013.
Fisher, Taylor M., Kathleen Blair Farley, Yabiao Gao, Hua Bai, and Zion Tsz Ho Tse. “Electric vehicle wireless charging technology: a state-of-the-art review of magnetic coupling systems.” Wireless Power Transfer 1, no. 2 (2014): 87-96.
Li, Siqi, and Chunting Chris Mi. “Wireless power transfer for electric vehicle applications.” IEEE journal of emerging and selected topics in power electronics 3, no. 1 (2015): 4-17.
Miller, John M., Omer C. Onar, Cliff White, Steven Campbell, Chester Coomer, Larry Seiber, Raymond Sepe, and Anton Steyerl. “Demonstrating dynamic wireless charging of an electric vehicle: The benefit of electrochemical capacitor smoothing.” IEEE Power Electronics Magazine 1, no. 1 (2014): 12-24.
Musavi, Fariborz, and Wilson Eberle. “Overview of wireless power transfer technologies for electric vehicle battery charging.” IET Power Electronics 7, no. 1 (2014): 60-66.
Quinn, Jason C., Braden J. Limb, Zeljko Pantic, Paul Barr, and Regan Zane. “Techno-economic feasibly and environmental impact of wireless power transfer roadway electrification.” In Wireless Power Transfer Conference (WPTC), 2015 IEEE, pp. 1-3. IEEE, 2015.
Sabki, Syamil Ahamad, and Nadia Mei Lin Tan. “Wireless power transfer for electric vehicle.” In Power Engineering and Optimization Conference (PEOCO), 2014 IEEE 8th International, pp. 41-46. IEEE, 2014.
Shin, Jaegue, Seungyong Shin, Yangsu Kim, Seungyoung Ahn, Seokhwan Lee, Guho Jung, Seong-Jeub Jeon, and Dong-Ho Cho. “Design and implementation of shaped magnetic-resonance-based wireless power transfer system for roadway-powered moving electric vehicles.” IEEE Transactions on Industrial Electronics 61, no. 3 (2014): 1179-1192.
Suh, Nam P., and Dong Ho Cho. “Wireless power transfer for electric vehicles.” In The On-line Electric Vehicle, pp. 17-34. Springer International Publishing, 2017.
Wildemuth, Barbara M., ed. Applications of social research methods to questions in information and library science. ABC-CLIO, 2016.
Xie, Liguang, Yi Shi, Y. Thomas Hou, and Andwenjing Lou. “Wireless power transfer and applications to sensor networks.” IEEE Wireless Communications 20, no. 4 (2013): 140-145.
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