Araştırma Makalesi
BibTex RIS Kaynak Göster
Yıl 2021, Cilt: 9 Sayı: 2, 201 - 206, 30.04.2021
https://doi.org/10.17694/bajece.855262

Öz

Kaynakça

  • Siemens® Databook, “Ferrites and Accessories”, www.epcos.com.
  • Ferroxcube® Databook, “Soft Ferrites and Accessories”, www.ferroxcube.com.
  • Magnetics® Databook, 2004 Magnetics Catalog, www.mag-inc.com.
  • D. Dujić, F. Kieferndorf, and F. Canales, “Power electronic transformer technology for traction applications-An overview,” Electronics. 2012.
  • Y. J. Lee, A. Khaligh, and A. Emadi, “Advanced integrated bidirectional AC/DC and DC/DC converter for plug-in hybrid electric vehicles,” IEEE Trans. Veh. Technol., 2009.
  • Y. Du, S. Lukic, B. Jacobson, and A. Huang, “Review of high power isolated bi-directional DC-DC converters for PHEV/EV DC charging infrastructure,” 2011.
  • J. Rocabert, A. Luna, F. Blaabjerg, and P. Rodríguez, “Control of power converters in AC microgrids,” IEEE Trans. Power Electron., 2012.
  • F. Wang, J. L. Duarte, and M. A. M. Hendrix, “Grid-interfacing converter systems with enhanced voltage quality for microgrid applicationconcept and implementation,” IEEE Trans. Power Electron., 2011.
  • Z. Zhao, M. Xu, Q. Chen, J. S. J. Lai, and Y. Cho, “Derivation, analysis, and implementation of a boost-buck converter-based high-efficiency PV inverter,” IEEE Trans. Power Electron., 2012.
  • B. Sri Revathi and M. Prabhakar, “Non isolated high gain DC-DC converter topologies for PV applications – A comprehensive review,” Renewable and Sustainable Energy Reviews. 2016.
  • D. Burmester, R. Rayudu, W. Seah, and D. Akinyele, “A review of nanogrid topologies and technologies,” Renewable and Sustainable Energy Reviews. 2017.
  • Buning, E. A. (2010). Electric drives in agricultural machinery-approach from the tractor side. Journal of Agricultural Engineering, 47(3), 30-35.
  • Hemetsberger F. A. (2003). An Investigation Of Power Quality Problems In A Remote Mine Site, M.S. Thesis, The University of Queensland.
  • Mcmurray, W. (1970). U.S. Patent No. 3,517,300. Washington, DC: U.S. Patent and Trademark Office.
  • J. L. Brooks, “Solid State Transformer Concept Development,” 1980.
  • E. R. Ronan, S. D. Sudhoff, S. F. Glover, and D. L. Galloway, “Application of power electronics to the distribution transformer,” 2000.
  • L. Yang, T. Zhao, J. Wang, and A. Q. Huang, “Design and analysis of a 270kW five-level DC/DC converter for solid state transformer using 10kV SiC power devices,” 2007.
  • A. W. Lotfi and M. A. Wilkowski, “Issues and Advances in High-Frequency Magneticsfor Switching Power Supplies,” Proc. IEEE, 2001.
  • M. Davari, S. M. Ale-Emran, H. Yazdanpanahi, and G. B. Gharehpetian, “Modeling the combination of UPQC and photovoltaic arrays with multi-input single-output DC-DC converter,” 2009.
  • R. Noroozian, M. Abedi, G. B. Gharehpetian, and A. Bayat, “On-grid and off-grid operation of multi-input single-output DC/DC converter based fuel cell generation system,” 2010.
  • Yalamanchili K. P., Ferdowsi M., Lu S., Xiao P. and Corzine K., “Derivation of Double-input DC-DC Power Electronic Converters”, Electric Power Components and Systems, vol.39, no.5, 478-490, 2011.
  • Archana N. and Anupamma K. I., “Multi-input Inverter for Hybrid Wind-Photovoltaic Standalone System”, Second International Conference on Computing Methodogies and Communication, ICCMC 2018.
  • L. Kumar and S. Jain, “A novel multiple input DC-DC converter for electric vehicular applications,” 2012.
  • L. Kumar and S. Jain, “A multiple input DC-DC converter for interfacing of battery/ultracapacitor in EVs/HEVs/FCVs,” 2012.
  • F. Akar, Y. Tavlasoglu, E. Ugur, B. Vural, and I. Aksoy, “A Bidirectional Nonisolated Multi-Input DC-DC Converter for Hybrid Energy Storage Systems in Electric Vehicles,” IEEE Trans. Veh. Technol., 2016.
  • Shetty S. N. and Raheman Md. A., “Design and Simulation of Dual Input DC/DC Converter”, International Journal of Innovative Research in Electrical, Electronics, Instrumentation and Control Engineering (IJIREEICE), National Conference on Advances in Electrical Engineering NCAEE, 2017.
  • Shetty S. N. and Raheman Md. A., “Modelling of Dual Input DC/DC Converter for Hybrid Energy System”, 2th IEEE International Conference on Recent Trends in Electronics Information & Communication Technology RTEICT, 2017.

The Topologies of Multi-Input Single-Output Isolation-Free DC-DC Convertor for Hybrid Power Plants

Yıl 2021, Cilt: 9 Sayı: 2, 201 - 206, 30.04.2021
https://doi.org/10.17694/bajece.855262

Öz

Today it is an obvious fact that energy consumption tends to increase due to technological developments, population growth, and increasing living standards. In last two decades, renewable energy sources are accepted the most convenient way. However, most of these alternative systems are not considered sufficient to supply whole demand alone. But hybrid systems with some of alternative energy sources, such as solar, wind and biomass appear to be a solution to supply the energy needs in the future. In hybrid systems, the DC-DC converter structure is the main device when converting energy for the proper loads. Single / multiple input, single / multiple output DC-DC converter topologies vary in design according to the energy demand of the load. Particularly, topologies with bi-directional power flow and less circuit elements come to the fore. In this study, the simulation of multi-input single output (MISO) DC-DC converter topologies was performed in Matlab / Simulink software. Induction current and voltage, output current and voltage, as well as output power used in the determined topologies were analyzed. The mathematical equations given in the topologies were confirmed by simulation studies.

Kaynakça

  • Siemens® Databook, “Ferrites and Accessories”, www.epcos.com.
  • Ferroxcube® Databook, “Soft Ferrites and Accessories”, www.ferroxcube.com.
  • Magnetics® Databook, 2004 Magnetics Catalog, www.mag-inc.com.
  • D. Dujić, F. Kieferndorf, and F. Canales, “Power electronic transformer technology for traction applications-An overview,” Electronics. 2012.
  • Y. J. Lee, A. Khaligh, and A. Emadi, “Advanced integrated bidirectional AC/DC and DC/DC converter for plug-in hybrid electric vehicles,” IEEE Trans. Veh. Technol., 2009.
  • Y. Du, S. Lukic, B. Jacobson, and A. Huang, “Review of high power isolated bi-directional DC-DC converters for PHEV/EV DC charging infrastructure,” 2011.
  • J. Rocabert, A. Luna, F. Blaabjerg, and P. Rodríguez, “Control of power converters in AC microgrids,” IEEE Trans. Power Electron., 2012.
  • F. Wang, J. L. Duarte, and M. A. M. Hendrix, “Grid-interfacing converter systems with enhanced voltage quality for microgrid applicationconcept and implementation,” IEEE Trans. Power Electron., 2011.
  • Z. Zhao, M. Xu, Q. Chen, J. S. J. Lai, and Y. Cho, “Derivation, analysis, and implementation of a boost-buck converter-based high-efficiency PV inverter,” IEEE Trans. Power Electron., 2012.
  • B. Sri Revathi and M. Prabhakar, “Non isolated high gain DC-DC converter topologies for PV applications – A comprehensive review,” Renewable and Sustainable Energy Reviews. 2016.
  • D. Burmester, R. Rayudu, W. Seah, and D. Akinyele, “A review of nanogrid topologies and technologies,” Renewable and Sustainable Energy Reviews. 2017.
  • Buning, E. A. (2010). Electric drives in agricultural machinery-approach from the tractor side. Journal of Agricultural Engineering, 47(3), 30-35.
  • Hemetsberger F. A. (2003). An Investigation Of Power Quality Problems In A Remote Mine Site, M.S. Thesis, The University of Queensland.
  • Mcmurray, W. (1970). U.S. Patent No. 3,517,300. Washington, DC: U.S. Patent and Trademark Office.
  • J. L. Brooks, “Solid State Transformer Concept Development,” 1980.
  • E. R. Ronan, S. D. Sudhoff, S. F. Glover, and D. L. Galloway, “Application of power electronics to the distribution transformer,” 2000.
  • L. Yang, T. Zhao, J. Wang, and A. Q. Huang, “Design and analysis of a 270kW five-level DC/DC converter for solid state transformer using 10kV SiC power devices,” 2007.
  • A. W. Lotfi and M. A. Wilkowski, “Issues and Advances in High-Frequency Magneticsfor Switching Power Supplies,” Proc. IEEE, 2001.
  • M. Davari, S. M. Ale-Emran, H. Yazdanpanahi, and G. B. Gharehpetian, “Modeling the combination of UPQC and photovoltaic arrays with multi-input single-output DC-DC converter,” 2009.
  • R. Noroozian, M. Abedi, G. B. Gharehpetian, and A. Bayat, “On-grid and off-grid operation of multi-input single-output DC/DC converter based fuel cell generation system,” 2010.
  • Yalamanchili K. P., Ferdowsi M., Lu S., Xiao P. and Corzine K., “Derivation of Double-input DC-DC Power Electronic Converters”, Electric Power Components and Systems, vol.39, no.5, 478-490, 2011.
  • Archana N. and Anupamma K. I., “Multi-input Inverter for Hybrid Wind-Photovoltaic Standalone System”, Second International Conference on Computing Methodogies and Communication, ICCMC 2018.
  • L. Kumar and S. Jain, “A novel multiple input DC-DC converter for electric vehicular applications,” 2012.
  • L. Kumar and S. Jain, “A multiple input DC-DC converter for interfacing of battery/ultracapacitor in EVs/HEVs/FCVs,” 2012.
  • F. Akar, Y. Tavlasoglu, E. Ugur, B. Vural, and I. Aksoy, “A Bidirectional Nonisolated Multi-Input DC-DC Converter for Hybrid Energy Storage Systems in Electric Vehicles,” IEEE Trans. Veh. Technol., 2016.
  • Shetty S. N. and Raheman Md. A., “Design and Simulation of Dual Input DC/DC Converter”, International Journal of Innovative Research in Electrical, Electronics, Instrumentation and Control Engineering (IJIREEICE), National Conference on Advances in Electrical Engineering NCAEE, 2017.
  • Shetty S. N. and Raheman Md. A., “Modelling of Dual Input DC/DC Converter for Hybrid Energy System”, 2th IEEE International Conference on Recent Trends in Electronics Information & Communication Technology RTEICT, 2017.
Toplam 27 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Elektrik Mühendisliği
Bölüm Araştırma Makalesi
Yazarlar

Cihat Şeker 0000-0002-9680-4622

Muhammet Tahir Guneser 0000-0003-3502-2034

Şakir Kuzey 0000-0003-3680-0862

Yayımlanma Tarihi 30 Nisan 2021
Yayımlandığı Sayı Yıl 2021 Cilt: 9 Sayı: 2

Kaynak Göster

APA Şeker, C., Guneser, M. T., & Kuzey, Ş. (2021). The Topologies of Multi-Input Single-Output Isolation-Free DC-DC Convertor for Hybrid Power Plants. Balkan Journal of Electrical and Computer Engineering, 9(2), 201-206. https://doi.org/10.17694/bajece.855262

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