In this research study, the performance in battery running and charging of an original circuit design is compared with the performance between the developed DC–DC boost converter running and charging replication circuit design. Bedini generators are a kind of magnetic generator designed by John Bedini on the basis of zero point technology. The generator serves as a self-battery charger. In this study, the two types of circuit design, namely, the original and the replication, are examined in terms of performance in battery running and charging. The DC–DC boost converter offers greater voltage boost capabilities and hence has the potential to enhance step-up power conversions. The novel design was a prototype of the six-pole eight-neodymium magnet generator, which potentially offers free energy and could therefore serve as an alternative means of addressing energy needs when the current nonrenewable fuel sources have been wholly depleted in the future. The coefficient of performance (COP) for the battery performance of both designs is calculated in this study in order to allow comparisons to be drawn. Upon analysis, it is discovered that the DC–DC boost converter circuit is both practical and efficient, offering a high level of step-up power conversion capacity for battery running and charging. The COP of the new system provides a significant increase in COP when compared to the original design.
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November 2018
Research-Article
Coefficient of Performance of Battery Running and Charging by Magnet Generator Bedini
Uthai Sriphan,
Uthai Sriphan
Rattanakosin College for Sustainable
Energy and Environment (RCSEE),
Rajamangala University
of Technology Rattanakosin,
96 M 3 Puthamonthon Sai 5,
Salaya, Puthamonthon,
Nakhon Pathom 73170, Thailand
Energy and Environment (RCSEE),
Rajamangala University
of Technology Rattanakosin,
96 M 3 Puthamonthon Sai 5,
Salaya, Puthamonthon,
Nakhon Pathom 73170, Thailand
Search for other works by this author on:
Pongsakorn Kerdchang,
Pongsakorn Kerdchang
Rattanakosin College for Sustainable
Energy and Environment (RCSEE),
Rajamangala University
of Technology Rattanakosin,
96 M 3 Puthamonthon Sai 5,
Salaya, Puthamonthon,
Nakhon Pathom 73170, Thailand
Energy and Environment (RCSEE),
Rajamangala University
of Technology Rattanakosin,
96 M 3 Puthamonthon Sai 5,
Salaya, Puthamonthon,
Nakhon Pathom 73170, Thailand
Search for other works by this author on:
Ratthasak Prommas,
Ratthasak Prommas
Rattanakosin College for Sustainable
Energy and Environment (RCSEE),
Rajamangala University
of Technology Rattanakosin,
Salaya, Puthamonthon,
Nakhon Pathom 73170, Thailand
e-mail: ratthasak.pro@rmutr.ac.th
Energy and Environment (RCSEE),
Rajamangala University
of Technology Rattanakosin,
96 M 3 Puthamonthon Sai 5
,Salaya, Puthamonthon,
Nakhon Pathom 73170, Thailand
e-mail: ratthasak.pro@rmutr.ac.th
Search for other works by this author on:
Tika Bunnang
Tika Bunnang
Integrate Solution 98 Co., Ltd.,
998/27 On-nuch
30-32 St. Sukhumvit 77 Road,
Suanluang,
Bangkok 10230, Thailand
998/27 On-nuch
30-32 St. Sukhumvit 77 Road,
Suanluang,
Bangkok 10230, Thailand
Search for other works by this author on:
Uthai Sriphan
Rattanakosin College for Sustainable
Energy and Environment (RCSEE),
Rajamangala University
of Technology Rattanakosin,
96 M 3 Puthamonthon Sai 5,
Salaya, Puthamonthon,
Nakhon Pathom 73170, Thailand
Energy and Environment (RCSEE),
Rajamangala University
of Technology Rattanakosin,
96 M 3 Puthamonthon Sai 5,
Salaya, Puthamonthon,
Nakhon Pathom 73170, Thailand
Pongsakorn Kerdchang
Rattanakosin College for Sustainable
Energy and Environment (RCSEE),
Rajamangala University
of Technology Rattanakosin,
96 M 3 Puthamonthon Sai 5,
Salaya, Puthamonthon,
Nakhon Pathom 73170, Thailand
Energy and Environment (RCSEE),
Rajamangala University
of Technology Rattanakosin,
96 M 3 Puthamonthon Sai 5,
Salaya, Puthamonthon,
Nakhon Pathom 73170, Thailand
Ratthasak Prommas
Rattanakosin College for Sustainable
Energy and Environment (RCSEE),
Rajamangala University
of Technology Rattanakosin,
Salaya, Puthamonthon,
Nakhon Pathom 73170, Thailand
e-mail: ratthasak.pro@rmutr.ac.th
Energy and Environment (RCSEE),
Rajamangala University
of Technology Rattanakosin,
96 M 3 Puthamonthon Sai 5
,Salaya, Puthamonthon,
Nakhon Pathom 73170, Thailand
e-mail: ratthasak.pro@rmutr.ac.th
Tika Bunnang
Integrate Solution 98 Co., Ltd.,
998/27 On-nuch
30-32 St. Sukhumvit 77 Road,
Suanluang,
Bangkok 10230, Thailand
998/27 On-nuch
30-32 St. Sukhumvit 77 Road,
Suanluang,
Bangkok 10230, Thailand
1Corresponding author.
Manuscript received November 9, 2017; final manuscript received January 17, 2018; published online April 12, 2018. Assoc. Editor: Partha P. Mukherjee.
J. Electrochem. En. Conv. Stor. Nov 2018, 15(4): 041002 (9 pages)
Published Online: April 12, 2018
Article history
Received:
November 9, 2017
Revised:
January 17, 2018
Citation
Sriphan, U., Kerdchang, P., Prommas, R., and Bunnang, T. (April 12, 2018). "Coefficient of Performance of Battery Running and Charging by Magnet Generator Bedini." ASME. J. Electrochem. En. Conv. Stor. November 2018; 15(4): 041002. https://doi.org/10.1115/1.4039504
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