Discrete laws of capacitor control of asynchronous generator voltage

• Autorzy: Vyshnevskyi Leonid , Mukha Mykola , Vyshnevskyi Dmitro , Drankova Alla

Identyfikatory

DOI

10.12716/1001.18.03.24

• Języki publikacji: EN

Abstrakty

EN

In this article, the authors analysed the voltage stabilization system of an electrical installation with an asynchronous generator and capacitor excitation. The properties and tuning parameters of the discrete-pulse switching laws of three-phase sections of excitation capacitors of an asynchronous generator are considered. The analysis is carried out and recommendations for the use of the described digital controllers are given.

Słowa kluczowe

EN

control system; electrical; electronic and control engineering; marine fuel; energy efficiency; marine power plant; generator set control system; ship's power plant; asynchronous generator; AG

• Wydawca: Faculty of Navigation, Gdynia Maritime University
• Czasopismo: TransNav : International Journal on Marine Navigation and Safety of Sea Transportation
• Rocznik: 2024
• Tom: Vol. 18 No. 3
• Strony: 689--693
• Opis fizyczny: Bibliogr. 11 poz., rys.

Twórcy

autor

Vyshnevskyi Leonid

• National University "Odessa Maritime Academy", Odessa, Ukraine

autor

Mukha Mykola

• National University "Odessa Maritime Academy", Odessa, Ukraine

autor

Vyshnevskyi Dmitro

• National University "Odessa Maritime Academy", Odessa, Ukraine

autor

Drankova Alla

• National University "Odessa Maritime Academy", Odessa, Ukraine

Bibliografia

• [1] Energy efficiency handbook. Toward zero emission ship operations. Helsinki: ABB Marine & Ports, 9AKK107680A8255.(2020). https://new.abb.com/marine/energy-efficiency-handbook
• [2] White paper - ABB Marine and Cranes. Using Variable Frequency Drives (VFD) to save energy and reduce emissions in newbuilds and existing ships. Energy efficient solutions. – ABB (2012).
• [3] Miikka Jaurolaa, Anders Hedinb, Seppo Tikkanenaand and Kalevi Huhtala “Optimising design and power management in energy-efficient marine vesselpower systems: a literature review”. JOURNAL OF MARINE ENGINEERING & TECHNOLOGY, vol. 18, No. 2, p.p. 92–101. (2019). https://doi.org/10.1080/20464177.2018.1505584.
• [4] Veretennik A.M. Self-oscillatory processes in the frequency stabilization system of a marine diesel generator // Ship power plants: scientific and technical. Sat. - Odessa: ONMA. - No. 12. – p.p. 30-36.(2005).
• [5] Vishnevsky, M. Mukha, A. Drankova "Improving the energy efficiency of ship electrical installations by using asynchronous generators". Proceedings of the Institute of Electrodynamics of the National Academy of Sciences of Ukraine. - Kyiv, Vol. 56. pp. 40-46. doi: 10.15407/publishing 2020.56.040 (2020).
• [6] Kitsis S.I. Asynchronous self-excited generators. - M.: Energoatomizdat, - 328 p. (2003).
• [7] Toroptsev N.D. Asynchronous generators for autonomous electric power plants. - M.: NTF "Energoprogress", - 87 p. (2004).
• [8] Patent No. 113039 C2, UA, H02P9/46, "Method of controlling the voltage of an asynchronous generator" / L.V. Vishnevskyi, D.L. Vishnevskyi, Publ. in Bull. No. 22, 25.11. (2016).
• [9] Vishnevsky L.V., Mukha M.Y, Dao Ming Quan. Voltage control of autonomous asynchronous generator sets / // Monograph - Odessa: NU "OMA". - 196 p. (2016).
• [10] Vishnevsky, L., Mukha, M., Vishnevsky, O., Vishnevsky, D.: Voltage Sensor of the Autonomous Generating Set. In: 2020 IEEE 15th International Conference on Advanced Trends in Radioelectronics, Telecommunications and Computer Engineering (TCSET). pp. 712–715 (2020). https://doi.org/10.1109/TCSET49122.2020.235525.
• [11] ISO 8528-1:2005. Alternating current generator sets driven by reciprocating internal combustion engines.

Uwagi

1. Pełne imiona podano na stronie internetowej czasopisma w "Author Index."

2. Opracowanie rekordu ze środków MNiSW, umowa nr POPUL/SP/0154/2024/02 w ramach programu "Społeczna odpowiedzialność nauki II" - moduł: Popularyzacja nauki (2025).