Unconventional Energy from an Electric Impulse Heater Combined with a Wind Turbine

Volodimir Holovko, Volodimir Kohanevich, Mikola Shikhailov, Artem Donets, Mihailo Maksymeniuk, Olena Sukmaniuk, Savelii Kukharets, Ryszard Konieczny, Adam Koniuszy, Barbara Dybek and Grzegorz Wałowski ()
Additional contact information
Volodimir Holovko: Renewable Energy Institute of NAS of Ukraine, Hnat Khotkevich Street, 20A, 02094 Kyiv, Ukraine
Volodimir Kohanevich: Renewable Energy Institute of NAS of Ukraine, Hnat Khotkevich Street, 20A, 02094 Kyiv, Ukraine
Mikola Shikhailov: Renewable Energy Institute of NAS of Ukraine, Hnat Khotkevich Street, 20A, 02094 Kyiv, Ukraine
Artem Donets: Renewable Energy Institute of NAS of Ukraine, Hnat Khotkevich Street, 20A, 02094 Kyiv, Ukraine
Mihailo Maksymeniuk: Renewable Energy Institute of NAS of Ukraine, Hnat Khotkevich Street, 20A, 02094 Kyiv, Ukraine
Olena Sukmaniuk: Department of Mechanical and Engineering Agroecosystems, Polissia National University, Staryi Blvd., 7, 10008 Zhytomyr, Ukraine
Savelii Kukharets: Department of Mechanical and Engineering Agroecosystems, Polissia National University, Staryi Blvd., 7, 10008 Zhytomyr, Ukraine
Ryszard Konieczny: Department of Technology, Institute of Energy and Technical Safety, Jacob of Paradyz University, 52 Chopina Street, 66-400 Gorzow Wielkopolski, Poland
Adam Koniuszy: Department of Renewable Energy Engineering, West Pomeranian University of Technology in Szczecin, 1 Papieza Pawla VI Street, 71-459 Szczecin, Poland
Barbara Dybek: Institute of Technology and Life Sciences—National Research Institute, Falenty, Al. Hrabska 3, 05-090 Raszyn, Poland
Grzegorz Wałowski: Institute of Technology and Life Sciences—National Research Institute, Falenty, Al. Hrabska 3, 05-090 Raszyn, Poland

Energies, 2022, vol. 15, issue 23, 1-12

Abstract: The widespread use of wind power plants can provide full or partial energy supply to the consumer, taking into account certain investments and the instability of energy production. Modern wind energy technology involves the conversion of mechanical energy of the wind flow into electrical energy with subsequent conversion, at the request of the consumer, into thermal energy. In addition, the unprocessed use of the low-potential part of the wind flow, characterized by non-uniformity and randomness of its reception for the purpose of supplying heat to the recipient, requires new approaches to solving this problem. Bench experimental studies of this heater confirmed the adequacy of the mathematical model: within an hour, the temperature increase of the heater core changed from 22 °C to 36 °C at a voltage of 66 V and the number of pulses entering the heater coil was (15–17) discharges, which corresponds to the values of the mathematical expectation of the wind speed of (4–5.2) m∙s −1 in the range of wind speed (4–8) m∙s −1 . The scientific novelty of this work consists in the development of a mathematical model for the operation of an electric pulse heater, which made it possible to develop methodological provisions for determining its mode parameters and to estimate the temperature change of its elements at random wind speed.

Keywords: wind energy; wind power plant; electric pulse heater; capacitive storage (search for similar items in EconPapers)
JEL-codes: Q Q0 Q4 Q40 Q41 Q42 Q43 Q47 Q48 Q49 (search for similar items in EconPapers)
Date: 2022
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