Innovative and Co-Generating of Pedal Based Power Generation for Remote Area
Keywords:
Pedal Generator, PV Array, IGBT, MOSFET, MATLAB, PCS, Converter Topology, Plug-in Hybrid Electric Vehicles (PHEVs)Abstract
The main objective of this research work is to investigate the development of a new hybrid design layout and its performance by simulating it in MATLAB through the application of load. This paper presents the establishment of a comparative study of photovoltaic applications with low DC input voltage and pedal generation techniques. The concept of achieving high efficiency through the reduction of voltage stresses on switches and compactness in size is a key paradigm in present-day power electronic industries. The main feature of the proposed converter is its ability to transfer capacitive and inductive energy simultaneously, thereby increasing the total power delivered to the load by reducing system losses. Since the use of IGBT in DC–DC converters provides better performance and lower output distortion—resulting in reduced harmonic injection into the power system—the overall efficiency of the converter is improved. In this research, IGBT is used in place of MOSFET. With the improved performance, the converter can maintain high efficiency under low power and low input voltage conditions.
References
K. M. Ahsan-uz-Zaman, Kafi Mohammad Ullah, Md. Mishir, Mahafujul Alam, “Generation of Electrical Power Using Gymnasium Bicycle,” ISBN: 978-1-5386-2175-2/17/$31.00 © 2017 IEEE.
S. Ganchanasopa Warangkidih, “An Exercise Bikes Assisted Main Energy Source in DC Distributed Power System,” ISBN: 978-1-5090-6477-9/17/$31.00 © 2017 IEEE.
S. K. Jitendra Kumar Prasad, Dr. Anupratimishra, “Comparative Study of MOSFET and IGBT as a Switch in SMES System for High Power DC Application,” in IEEE-ECCMC, Jan. 2018.
Anyanwu, S. Ikechukwu, Ashinze E. Anthony, “Design and Fabrication of a Pedal Operated Power Generator,” Innovative Systems Design and Engineering, ISSN 2222-1727 (Paper), ISSN 2222-2871 (Online), Vol. 7, No. 3, 2016.
Alimul Haque Khan, Md. Moniruzzaman, Md. Muhibbullah, “Empowering Remote Area of Bangladesh Using Pedal Generator,” ISBN: 978-1-5090-0169-9/15/$31.00 © 2015 IEEE.
Rajneesh Shukala, Mahesh Chand Khandelwal, Krishna Kant Sharma, Abhishek Sanghi, “Generation of Electrical Power Using Bicycle Pedal,” International Journal of Recent Research and Review, Vol. VII, Issue 2, June 2014, ISSN 2277-8322.
Swati M. Mundalir, Anagha R. Soman, “Electrical Power Generation Harnessing Human Energy and Its Analysis,” ISBN: 978-1-4673-6817-9/15/$31.00 © 2015 IEEE.
https://en.wikipedia.org/wiki/Rotational_energy
http://www.web-formulas.com/Physic_Formulas/Electric_Power.aspx
https://en.wikipedia.org/wiki/Electric_generator
Nuno Brito, Luis Ribeiro, Joao Sena Esteves, “Electronic Power Generating Bicycle,” 3rd International Conference on Hand-on Science, 2006, Hsic ISBN.
Chetan Khemraj, Jitendra Kumar, Sumit Kumar and Vibhav Kausik, “Energy Generation and Storage Using Bicycle Pedal System,” Special Issue of International Journal of Sustainable Development and Green Economics (IJSDGE), ISSN No: 2315-4721, Vol. 2, No. 1, 2013.
Rajesh Kannan Melagani, Pranav Sreedharan Veliyara, Raghavendra Murali Prabhu, Rocky Katoch, “Pedal Power Generation,” ResearchGate/publication/259980152/Jan2012.
R. Podmore, Ray Larsen, Henry Louie, Brian Waldron, “Affordable Energy Solutions for Developing Communities,” ISBN: 978-1-4577-1002-5/11/$26.00 © 2011 IEEE.
Downloads
How to Cite
Issue
Section
License
This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.
