Ezzel az azonosítóval hivatkozhat erre a dokumentumra forrásmegjelölésben vagy hiperhivatkozás esetén:
http://elartu.tntu.edu.ua/handle/lib/36926
Title: | The increasing of photovoltaic power supply system efficiency for the mobile unit of polymer waste processing into an alternative type of fuel |
Authors: | Martynyuk, Valeriy Fedula, Mykola Makaryshkin, Denys Kałaczyński, Tomasz |
Affiliation: | Khmelnytskyi National University, Khmelnytsky, Ukraine, 11 Institutska street UTP University of Science and Technology, Bydgoszcz, Poland, Al. Prof. S.Kaliskiego 7 |
Bibliographic description (Ukraine): | The increasing of photovoltaic power supply system efficiency for the mobile unit of polymer waste processing into an alternative type of fuel / Valeriy Martynyuk, Mykola Fedula, Denys Makaryshkin, Tomasz Kałaczyński // ICAAEIT 2021, 15-17 December 2021. — Tern. : TNTU, Zhytomyr «Publishing house „Book-Druk“» LLC, 2021. — P. 53–58. — (Electrical engineering and power electronics). |
Bibliographic description (International): | Martynyuk V., Fedula M., Makaryshkin D., Kałaczyński T. (2021) The increasing of photovoltaic power supply system efficiency for the mobile unit of polymer waste processing into an alternative type of fuel. ICAAEIT 2021 (Tern., 15-17 December 2021), pp. 53-58. |
Is part of: | Proceedings of the International Conference „Advanced applied energy and information technologies 2021”, 2021 |
Issue Date: | 15-dec-2021 |
Date of entry: | 28-dec-2021 |
Publisher: | TNTU, Zhytomyr «Publishing house „Book-Druk“» LLC |
Place of the edition/event: | Ternopil |
Temporal Coverage: | 15-17 December 2021 |
Keywords: | Photovoltaic power supply system Mobile polymer waste processing unit Alternative type of fuel Rechargeable batteries Supercapacitor batteries |
Number of pages: | 6 |
Page range: | 53-58 |
Start page: | 53 |
End page: | 58 |
URI: | http://elartu.tntu.edu.ua/handle/lib/36926 |
ISBN: | 978-617-8079-60-4 |
Copyright owner: | © Ternopil Ivan Puluj National Technical University, Ukraine, 2021 |
URL for reference material: | https://innovoucher.com.ua/portfolio-items/obolon-oil-and-its-poly-euro-diesel-made-of-waste/?lang=en |
References (International): | 1. Hahladakis, J.N. (2020). Delineating and preventing plastic waste leakage in the marine and terrestrial environment. Environ Sci Pollut Res, 27(11), doi:10.1007/s11356-020-08139-y 2. Thahir, R., Altway, A., Juliastuti, S.R., Susianto, (2019). Production of liquid fuel from plastic waste using integrated pyrolysis method with refinery distillation bubble cap plate column. Energy Reports, 5, 70-77. doi:10.1016/j.egyr.2018.11.004 3. https://innovoucher.com.ua/portfolio-items/obolon-oil-and-its-poly-euro-diesel-made-of-waste/?lang=en 4. Martynyuk, V., Radelchuk, G., Kashtalyan, A., Verjbyckyi, Y. (2020). System analysis and simulation of electric power processes of automated mobile plastic bottle processing plant in diesel fuel. Measuring and computing devices in technological processes, 1, 111-115. 5. Berbaoui, B. (2019). Performance investigation of a hybrid PV‐diesel power system for remote areas. International Journal of Energy Research, 43(2), 1019-1031. 6. Akbar, M.A. (2018). Modeling and optimum design of an off-grid PV/WT/FC/diesel hybrid system considering different fuel prices. Low-Carbon Technologies, 13(2), 140–147. 7. Nayak, A., Kasturi, K., Nayak, M.R. (2018). Cycle-charging dispatch strategy based performance analysis for standalone PV system with DG & BESS, Technologies for Smart-City Energy Security and Power (ICSESP), Proceedings of the Conference. Bhubaneswar, India. 8. Tsai, C.T., Shen, T.W., Chen, Y.P., Hsu, P.H. (2018). Control Strategy of PV/Diesel/Battery Hybrid System for Island-based Microgrid, International Symposium on Computer, Consumer and Control (IS3C), Proceedings of the International Symposium. Taichung, Taiwan. 9. Tripathi, P., Momtaj A.M., Khan M.J., Yadav, S. (2018). Modelling of Energy Efficient PV-Diesel-Battery Hybrid system, Computational and Characterization Techniques in Engineering & Sciences (CCTES), Proceedings of the International Conference, Lucknow, India. 10. Tiwari, G.N. (2016). Handbook of solar energy. Theory, analysis and applications. Springer. 11. Subudhi, B. (2013). A comparative study on maximum power point tracking techniques for photovoltaic power systems. IEEE transactions on sustainable energy, 4, 89–98. 12. Roy, C.P., Naick, B. K., Shankar, G. (2014). Comparative study of photovoltaic mppt algorithms. Recent trends in engineering and technology, 11, 191–201. 13. Ramu, G., Nagesh Kumar, G. V., Dharma Raj, C. H. (2016). Performance analysis of boost fed DC drive under load uncertainties. Indian Journal of Science and Technology, 9(45), 1–11. doi:10.17485/ijst/2016/v9i45/103878 14. Martynyuk, V., Ortigueira, M., Fedula, M., Savenko, O. (2018). Methodology of electrochemical capacitor quality control with fractional order model. AEU - International journal of electronics and communications. |
Content type: | Conference Abstract |
Ebben a gyűjteményben: | International conference „Advanced Applied Energy and Information Technologies 2021“, (ICAAEIT 2021) |
Fájlok a dokumentumban:
Fájl | Leírás | Méret | Formátum | |
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ICAAEIT_2021_Martynyuk_V-The_increasing_of_photovoltaic_53-58.pdf | 1,66 MB | Adobe PDF | Megtekintés/Megnyitás | |
ICAAEIT_2021_Martynyuk_V-The_increasing_of_photovoltaic_53-58.djvu | 407,69 kB | DjVu | Megtekintés/Megnyitás | |
ICAAEIT_2021_Martynyuk_V-The_increasing_of_photovoltaic_53-58__COVER.png | 452,97 kB | image/png | Megtekintés/Megnyitás |
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