Araştırma Makalesi
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Research and Analysis of Wireless Power Transfer Technology Based on Sustainable Energy

Yıl 2022, , 798 - 804, 31.08.2022
https://doi.org/10.35414/akufemubid.1123921

Öz

Wireless power transfer (WPT) has been a topic of interest, especially in sustainable energy-based applications in recent years. The reason for this is the increase in the demand for energy originating from both social and political issues. Providing robust and flexible solutions without the need for wires, WPT technology in sustainable energy applications are thoroughly examined in this paper. The applications are categorized into two types as solar energy and wind energy. Herein, the inductive and microwave wireless charging technologies become prominent among other wireless charging technologies. The merits and demerits of WPT technology in sustainable energy applications are also evaluated in this paper. Besides, the design and analysis of inductive power transfer as promising technology are presented in solar energy applications. This paper is also expected to shed light on researchers who are interested in WPT technology based on sustainable energy.

Kaynakça

  • Abou Houran, M., Yang, X., and Chen, W., 2018. Magnetically coupled resonance WPT: Review of compensation topologies, resonator structures with misalignment, and EMI diagnostics. Electronics, 7, 296.
  • Aditya, K., 2016. Design and implementation of an inductive power transfer system for wireless charging of future electric transportation. PhD. Thesis, University of Ontario Institute of Technology, Canada, 190.
  • Anand, M. and Kannan, Y. R., 2014. Wireless power transfer by incorporation of solar energy. International Journal of Recent Development in Engineering and Technology, 3, 85-91.
  • Boys, J. T. and Covic, G. A., 2015. The inductive power transfer story at the University of Auckland. IEEE Circuits and Systems Magazine, 15, 6-27.
  • Brown, W., Mims, J., and Heenan, N., 1966. An experimental microwave-powered helicopter. In 1958 IRE International Convention Record, 13, 225-235.
  • Brown, W. C. and Eves, E. E., 1992. Beamed microwave power transmission and its application to space. IEEE transactions on Microwave Theory and Techniques, 40, 1239-1250.
  • Chaudhary, K. and Kumar, D., 2018. Satellite solar wireless power transfer for baseload ground supply: clean energy for the future. European Journal of Futures Research, 6, 1-9.
  • Chhawchharia, S., Sahoo, S. K., Balamurugan, M., Sukchai, S., and Yanine, F., 2018. Investigation of wireless power transfer applications with a focus on renewable energy. Renewable and Sustainable Energy Reviews, 91, 888-902.
  • Fareq, M., Fitra, M., Irwanto, M., Syafruddin, H. S., Gomesh, N., Rozailan, M., and Zarinatul, J., 2014. Wireless Power Transfer by Using Solar Energy. Telkomnika, 12, 519.
  • Glaser, P. E., Davidson, F. P., and Csigi, K. I., 1998. Solar power satellites: a space energy system for Earth; 2.
  • Glaser, P. E., 1968. Power from the sun: Its future. Science, 162, 857-861.
  • Kurs, A., Karalis, A., Moffatt, R., Joannopoulos, J. D., Fisher, P., and Soljacic, M., 2007. Wireless power transfer via strongly coupled magnetic resonances. science, 317, 83-86.
  • Lohote, G., Patil, P., Palwe, R., Pawar, S., Sathe, V., Jadhav, R., and Akkalwad, M, 2021. Systematic Design and Analysis of Wireless Power Transmission and Energy Distribution. Available at SSRN 3920218.
  • Ludois, D. C., Reed, J. K., and Hanson, K., 2012. Capacitive power transfer for rotor field current in synchronous machines. IEEE Transactions on Power Electronics, 27, 4638-4645.
  • Maqsood, M., and Nasir, M. N., 2013. Wireless electricity (Power) transmission using solar based power satellite technology. In Journal of Physics: Conference Series, 439, 012046
  • Marincic, A. S., 1982. Nikola tesla and the wireless transmission of energy. IEEE Transactions on Power Apparatus and Systems, 10, 4064-4068.
  • Nilsen, H. F., 2021. Wireless charging of offshore wind service vessels, Master's thesis, UiT Norges arktiske universitet, 37.
  • Ojha, Shraddha, Tanuja Panda, Shweta Parab, and Jyoti Dange, 2017. Renewable Energy Based Wireless Power Transfer. International Journal of Engineering Research & Technology (IJERT), 5.
  • Rezaei, F., Esmaeili, S., Rezaei Estakhrouieh, M., and Hu, A., 2012. Application of Wireless Power Transfer in Pitch Angle Control in Wind Turbines.
  • Rim, C. T., & Mi, C., 2017. Wireless power transfer for electric vehicles and mobile devices. John Wiley & Sons, 19-43.
  • Schuler, J. C., 1961. High-level electromagnetic energy transfer through a closed chest wall. IRE International Convention Record, 9, 119-126.
  • Shinohara, N., 2013. Beam control technologies with a high-efficiency phased array for microwave power transmission in Japan. Proceedings of the IEEE, 101, 1448-1463.
  • Tesla, N., & White, W. H., 1999. High frequency oscillators for electro-therapeutic and other purposes. Proceedings of the IEEE, 87, 1282.
  • Visser, H. J., 2017. A brief history of radiative wireless power transfer. In 2017 11th European Conference on Antennas and Propagation (EUCAP) IEEE. 327-330.
  • Wang, C., Li, G., Ali, I., Zhang, H., Tian, H., and Lu, J., 2022. The Management of Energy Transformation through Laser Charging in WPT for 5G Application: Prediction Model of the In0. 3Ga0. 7As Solar Cell. Wireless Communications and Mobile Computing, 2022.
  • Zambari, I. F., Hui, C. Y., and Mohamed, R., 2013. Development of wireless energy transfer module for solar energy harvesting. Procedia Technology, 11, 882-894.
  • Web references 1-https://www.amazon.ca/Trina-Solar-290W-Poly-Panel-TSM-290/dp/B01N7WMWHM (February 2022)

Sürdürülebilir Enerjiye Dayalı Kablosuz Güç Transferi Teknolojisinin Araştırma ve Analizi

Yıl 2022, , 798 - 804, 31.08.2022
https://doi.org/10.35414/akufemubid.1123921

Öz

Kablosuz güç aktarımı (WPT), özellikle son yıllarda sürdürülebilir enerji tabanlı uygulamalarda ilgi çeken bir konu olmuştur. Bunun nedeni hem sosyal hem de politik nedenlerden kaynaklanan enerji talebindeki artıştır. Kablolara ihtiyaç duymadan sağlam ve esnek çözümler sunan WPT teknolojisi, bu makale kapsamında sürdürülebilir enerji uygulamalarında kapsamlı bir şekilde incelenmektedir. Uygulamalar güneş enerjisi ve rüzgâr enerjisi olmak üzere ikiye ayrılmaktadır. Burada, diğer kablosuz şarj teknolojileri arasında endüktif ve mikrodalga kablosuz şarj teknolojileri öne çıkmaktadır. WPT teknolojisinin sürdürülebilir enerji uygulamalarında yararları ve zararları da bu makalede değerlendirilmektedir. Ayrıca, güneş enerjisi uygulamalarında gelecek vaat eden bir teknoloji olarak endüktif güç transferinin tasarımı ve analizi sunulmaktadır. Bu makalenin aynı zamanda sürdürülebilir enerjiye dayalı WPT teknolojisi ile ilgilenen araştırmacılara ışık tutması beklenmektedir.

Kaynakça

  • Abou Houran, M., Yang, X., and Chen, W., 2018. Magnetically coupled resonance WPT: Review of compensation topologies, resonator structures with misalignment, and EMI diagnostics. Electronics, 7, 296.
  • Aditya, K., 2016. Design and implementation of an inductive power transfer system for wireless charging of future electric transportation. PhD. Thesis, University of Ontario Institute of Technology, Canada, 190.
  • Anand, M. and Kannan, Y. R., 2014. Wireless power transfer by incorporation of solar energy. International Journal of Recent Development in Engineering and Technology, 3, 85-91.
  • Boys, J. T. and Covic, G. A., 2015. The inductive power transfer story at the University of Auckland. IEEE Circuits and Systems Magazine, 15, 6-27.
  • Brown, W., Mims, J., and Heenan, N., 1966. An experimental microwave-powered helicopter. In 1958 IRE International Convention Record, 13, 225-235.
  • Brown, W. C. and Eves, E. E., 1992. Beamed microwave power transmission and its application to space. IEEE transactions on Microwave Theory and Techniques, 40, 1239-1250.
  • Chaudhary, K. and Kumar, D., 2018. Satellite solar wireless power transfer for baseload ground supply: clean energy for the future. European Journal of Futures Research, 6, 1-9.
  • Chhawchharia, S., Sahoo, S. K., Balamurugan, M., Sukchai, S., and Yanine, F., 2018. Investigation of wireless power transfer applications with a focus on renewable energy. Renewable and Sustainable Energy Reviews, 91, 888-902.
  • Fareq, M., Fitra, M., Irwanto, M., Syafruddin, H. S., Gomesh, N., Rozailan, M., and Zarinatul, J., 2014. Wireless Power Transfer by Using Solar Energy. Telkomnika, 12, 519.
  • Glaser, P. E., Davidson, F. P., and Csigi, K. I., 1998. Solar power satellites: a space energy system for Earth; 2.
  • Glaser, P. E., 1968. Power from the sun: Its future. Science, 162, 857-861.
  • Kurs, A., Karalis, A., Moffatt, R., Joannopoulos, J. D., Fisher, P., and Soljacic, M., 2007. Wireless power transfer via strongly coupled magnetic resonances. science, 317, 83-86.
  • Lohote, G., Patil, P., Palwe, R., Pawar, S., Sathe, V., Jadhav, R., and Akkalwad, M, 2021. Systematic Design and Analysis of Wireless Power Transmission and Energy Distribution. Available at SSRN 3920218.
  • Ludois, D. C., Reed, J. K., and Hanson, K., 2012. Capacitive power transfer for rotor field current in synchronous machines. IEEE Transactions on Power Electronics, 27, 4638-4645.
  • Maqsood, M., and Nasir, M. N., 2013. Wireless electricity (Power) transmission using solar based power satellite technology. In Journal of Physics: Conference Series, 439, 012046
  • Marincic, A. S., 1982. Nikola tesla and the wireless transmission of energy. IEEE Transactions on Power Apparatus and Systems, 10, 4064-4068.
  • Nilsen, H. F., 2021. Wireless charging of offshore wind service vessels, Master's thesis, UiT Norges arktiske universitet, 37.
  • Ojha, Shraddha, Tanuja Panda, Shweta Parab, and Jyoti Dange, 2017. Renewable Energy Based Wireless Power Transfer. International Journal of Engineering Research & Technology (IJERT), 5.
  • Rezaei, F., Esmaeili, S., Rezaei Estakhrouieh, M., and Hu, A., 2012. Application of Wireless Power Transfer in Pitch Angle Control in Wind Turbines.
  • Rim, C. T., & Mi, C., 2017. Wireless power transfer for electric vehicles and mobile devices. John Wiley & Sons, 19-43.
  • Schuler, J. C., 1961. High-level electromagnetic energy transfer through a closed chest wall. IRE International Convention Record, 9, 119-126.
  • Shinohara, N., 2013. Beam control technologies with a high-efficiency phased array for microwave power transmission in Japan. Proceedings of the IEEE, 101, 1448-1463.
  • Tesla, N., & White, W. H., 1999. High frequency oscillators for electro-therapeutic and other purposes. Proceedings of the IEEE, 87, 1282.
  • Visser, H. J., 2017. A brief history of radiative wireless power transfer. In 2017 11th European Conference on Antennas and Propagation (EUCAP) IEEE. 327-330.
  • Wang, C., Li, G., Ali, I., Zhang, H., Tian, H., and Lu, J., 2022. The Management of Energy Transformation through Laser Charging in WPT for 5G Application: Prediction Model of the In0. 3Ga0. 7As Solar Cell. Wireless Communications and Mobile Computing, 2022.
  • Zambari, I. F., Hui, C. Y., and Mohamed, R., 2013. Development of wireless energy transfer module for solar energy harvesting. Procedia Technology, 11, 882-894.
  • Web references 1-https://www.amazon.ca/Trina-Solar-290W-Poly-Panel-TSM-290/dp/B01N7WMWHM (February 2022)
Toplam 27 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Elektrik Mühendisliği
Bölüm Makaleler
Yazarlar

Mehmet Zahid Erel 0000-0003-1663-8394

Yayımlanma Tarihi 31 Ağustos 2022
Gönderilme Tarihi 31 Mayıs 2022
Yayımlandığı Sayı Yıl 2022

Kaynak Göster

APA Erel, M. Z. (2022). Research and Analysis of Wireless Power Transfer Technology Based on Sustainable Energy. Afyon Kocatepe Üniversitesi Fen Ve Mühendislik Bilimleri Dergisi, 22(4), 798-804. https://doi.org/10.35414/akufemubid.1123921
AMA Erel MZ. Research and Analysis of Wireless Power Transfer Technology Based on Sustainable Energy. Afyon Kocatepe Üniversitesi Fen Ve Mühendislik Bilimleri Dergisi. Ağustos 2022;22(4):798-804. doi:10.35414/akufemubid.1123921
Chicago Erel, Mehmet Zahid. “Research and Analysis of Wireless Power Transfer Technology Based on Sustainable Energy”. Afyon Kocatepe Üniversitesi Fen Ve Mühendislik Bilimleri Dergisi 22, sy. 4 (Ağustos 2022): 798-804. https://doi.org/10.35414/akufemubid.1123921.
EndNote Erel MZ (01 Ağustos 2022) Research and Analysis of Wireless Power Transfer Technology Based on Sustainable Energy. Afyon Kocatepe Üniversitesi Fen Ve Mühendislik Bilimleri Dergisi 22 4 798–804.
IEEE M. Z. Erel, “Research and Analysis of Wireless Power Transfer Technology Based on Sustainable Energy”, Afyon Kocatepe Üniversitesi Fen Ve Mühendislik Bilimleri Dergisi, c. 22, sy. 4, ss. 798–804, 2022, doi: 10.35414/akufemubid.1123921.
ISNAD Erel, Mehmet Zahid. “Research and Analysis of Wireless Power Transfer Technology Based on Sustainable Energy”. Afyon Kocatepe Üniversitesi Fen Ve Mühendislik Bilimleri Dergisi 22/4 (Ağustos 2022), 798-804. https://doi.org/10.35414/akufemubid.1123921.
JAMA Erel MZ. Research and Analysis of Wireless Power Transfer Technology Based on Sustainable Energy. Afyon Kocatepe Üniversitesi Fen Ve Mühendislik Bilimleri Dergisi. 2022;22:798–804.
MLA Erel, Mehmet Zahid. “Research and Analysis of Wireless Power Transfer Technology Based on Sustainable Energy”. Afyon Kocatepe Üniversitesi Fen Ve Mühendislik Bilimleri Dergisi, c. 22, sy. 4, 2022, ss. 798-04, doi:10.35414/akufemubid.1123921.
Vancouver Erel MZ. Research and Analysis of Wireless Power Transfer Technology Based on Sustainable Energy. Afyon Kocatepe Üniversitesi Fen Ve Mühendislik Bilimleri Dergisi. 2022;22(4):798-804.


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