IMPROVING THE ENERGY EFFICIENCY OF SHIP ELECTRIC INSTALLATIONS BY USING ASYNCHRONOUS GENERATORS
st8

Keywords

electric power generation
synchronous and asynchronous generators
comparative energy efficiency analysis

How to Cite

Vishnevsky, L.V., et al. “IMPROVING THE ENERGY EFFICIENCY OF SHIP ELECTRIC INSTALLATIONS BY USING ASYNCHRONOUS GENERATORS”. Proceedings of the Institute of Electrodynamics of the National Academy of Sciences of Ukraine, no. 56, Aug. 2020, p. 040, doi:10.15407/publishing2020.56.040.

Abstract

The article considers one of the ways to increase the energy efficiency of marine autonomous power plants by using asynchronous generators with capacitor excitation instead of traditional generator sets with synchronous generators. A comparative analysis of transients of synchronous and asynchronous electrical installations for typical operating conditions, which showed the advantages of asynchronous generator sets (structural, energy, economic) and due to which they can be the main sources of electricity on board in the future. The graphs of the corresponding transients are given.  References 10, figures 6.

https://doi.org/10.15407/publishing2020.56.040
st8

References

Mukha M. Dynamic compensation of reactive power in ship-based autonomous electric power systems: Dr. tech. sci. diss: 05.09.03. Lviv Polytechnic National University. Lviv. 2018. 404 p. (Ukr)

MJB. Data Sheets Three-phase Synchronous Generators. Power generation, 160 – 630 frame sizes Industrial application. Arzignano (VI), Italy: Marelli Motori S.p.A., 2013. 348 p.

Synchronous Alternators Sincro. SKM Brushless marine alternators. Terrey Hills, Australia, 2013. URL: http://www.sincro.com.au (Accessed: 03.02.2020)

Three-phase Asynchronous Generators. G11R - G22R. Langenhagen, Germany: VEM motors GmbH, 2015. 17 p.

Alyushin G.N., Toroptsev N.D. High frequency asynchronous generators. Fundamentals of theory and design. Moskva: Mashynostroenye, 1974. 352 p. (Rus)

Lishchenko A.I., Lesnik V.A., Farenyuk A.P. The mathematical model of an autonomous electrical installation with an asynchronous generator and an adjustable excitation system. Tekhnicheskaia Electrodynamika. Kiev, 1989. No 6. Pp. 81-88. (Rus)

Radin V., Vinokurov V. The use of asynchronous generators as autonomous alternating current sources. Electrical Engineering. 1967. Vol. 8. Pp. 17–20. (Rus)

Vishnevsky L. Theory, methods of calculation of control systems and operational modes of ship electrical installations with asynchronous generators: Dr. tech. sci. diss.: 05.09.03. Higher Marine Engineering Institute. St. Petersburg, Russia, 1991. 400 p. (Rus)

Vishnevsky L., Mukha M., Dao Min Kuan Voltage control of autonomous asynchronous generators. Odessa, Ukraine: NU OMA, 2016. 96 p. (Rus)

Vishnevsky L.V., Veretennik A.M., Mukha N.Y., Kozyrev I.P. Modelling the connection of synchronous generators to the ship network. Electromashynobuduvannya ta electroobladnannya. Kiev: Teshnika. 2006. No 66. Pp. 201-204. (Rus)

Creative Commons License

This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.

Copyright (c) 2023 Л.В. Вишневський , М.Й. Муха, А.О. Дранкова

Downloads

Download data is not yet available.