RESEARCH OF POWER GENERATOR PROTOTYPE DEVELOPMENT AND INTEGRATION INTO AUTONOMOUS ROBOTIC SYSTEMS

Authors

  • Matutis Vaidotas Faculty of Electronics and Informatics, Vilniaus Kolegija University of Applied Sciences
  • Loreta Savulioniene Faculty of Electronics and Informatics, Vilniaus Kolegija University of Applied Sciences
  • Paulius Sakalys Faculty of Electronics and Informatics, Vilniaus Kolegija University of Applied Sciences
  • Simonas Cesnauskas Faculty of Electronics and Informatics, Vilniaus Kolegija University of Applied Sciences

DOI:

https://doi.org/10.17770/etr2021vol3.6594

Keywords:

robotic system, electricity generator, regeneration, electric car

Abstract

The aim of the research is to perform experimental research based on patented technology to study the efficiency and applicability of it in the power supply circuits of autonomous robotic systems. Ensuring longer autonomous operation of the robotic system, was chosen electric car as the object of practical application at this stage of investigations to improve a process generation, utilization and regeneration of electricity. The article reviews the difficulties of technologies and aspects of their practical application. Described research methodology and a stand of investigations. Presented the results and conclusions of the performed simulation tests and practical measurements of the prototype electrodynamic parameters.

Downloads

Download data is not yet available.

References

Augulis, L., Jotautis, A., & Ruktuniene, D. (2012). Fizika: mechanika, termodinamika, elektromagnetizmas: mokomoji knyga. Kaunas: Technologija. DOI: https://www.ebooks.ktu.lt/eb/656/fizika_mechanika_termodinamika_elektromagnetizmas/.

Autodesk (2021). Autodesk fusion abilities. Retrieved from https://academy.autodesk.com/getting-started-fusion-360#:~:text=Fusion%20360%20helps%20students%20and,turn%20your%20ideas%20into%20reality

Autodesk (2021). What is Autodesk CFD. Retrieved from https://www.autodesk.com/products/cfd/overview#:~:text=Autodesk%20CFD%20is%20a%20computational,into%20fluid%20flow%20design%20performance.

Betz, A. (1920) Das Maximum der theoretisch möglichen Ausnützung des Windes durch Windmotoren. Zeitschrift für das gesamte Turbinenwesen, 26, 307-309. (In German)

Boyle, G. (2012). Renewable energy: power for a sustainable future. Oxford: Oxford University Press.

Kytra, S. (2006). Atsinaujinantys energijos saltiniai: vadovėlis aukstosioms mokykloms. Kaunas: Technologija

Matutis, V. (2008). Political idea and national security. Vadybos šiuolaikinės tendencijos = Modern tendencies of management : mokslo darbų rinkinys, 219. ISSN: 978-9955-423-69-0. DOI: www.lka.lt/download/1393/vadyba_makstutis.pdf

Matutis, V. & Matutis, M. (2020). Generator for electric cars. Vilnius: Official Bulletin of the State Patent Bureau of the Republic of Lithuania, 28. ISSN: 2029-2309,

Patent No.: LT-6714. https://vpb.lrv.lt/uploads/vpb/documents/files/VPB-OB-Nr06-2020-03-25-1d.pdf

Mukund, R.P. (2006). Wind and solar power systems: design, analysis, and operation. Boca Raton: Taylor & Francis.

Downloads

Published

2021-06-16

How to Cite

[1]
M. Vaidotas, L. Savulioniene, P. Sakalys, and S. Cesnauskas, “RESEARCH OF POWER GENERATOR PROTOTYPE DEVELOPMENT AND INTEGRATION INTO AUTONOMOUS ROBOTIC SYSTEMS”, ETR, vol. 3, pp. 372–377, Jun. 2021, doi: 10.17770/etr2021vol3.6594.