ЕЛЕКТРОМЕХАНІЧНІ ПЕРЕТВОРЮВАЧІ ЕНЕРГІЇ ДЛЯ СИСТЕМ ЕЛЕКТРОГЕНЕРАЦІЇ ТА ЕЛЕКТРОПРИВОДА

ЕЛЕКТРОМЕХАНІЧНІ ПЕРЕТВОРЮВАЧІ ЕНЕРГІЇ ДЛЯ СИСТЕМ ЕЛЕКТРОГЕНЕРАЦІЇ ТА ЕЛЕКТРОПРИВОДА

The main scientific and practical results that are obtained when performing research and development robots are presented.   A comparative analysis of the modification of the magnetic system of an electric generator with permanent magnets is carried out.  According to the results of mathematical mod...

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Bibliographic Details
Date:2019
Main Authors: Мазуренко, Л.І., Гребеніков, В.В., Джура, О.В., Бібік, О.В., Гамалія, Р.В., Шихненко, М.О.
Format: Article
Language:Ukrainian
Published: Інститут електродинаміки Національної академії наук України 2019
Subjects:
електрогенератор з постійними магнітами
вентильно-індукторний двигун
імітаційна модель
асинхронний генератор
автономний електроагрегат
пуско-зарядний пристрій
розподілена генерація
вітроелектричні установки
Online Access:https://prc.ied.org.ua/index.php/proceedings/article/view/121
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Journal Title:Proceedings of the Institute of Electrodynamics of the National Academy of Sciences of Ukraine

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Proceedings of the Institute of Electrodynamics of the National Academy of Sciences of Ukraine
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Summary:The main scientific and practical results that are obtained when performing research and development robots are presented.   A comparative analysis of the modification of the magnetic system of an electric generator with permanent magnets is carried out.  According to the results of mathematical modeling  a mechanical characteristic of the switched reluctance motor of the traction drive has been formed with the maximum value of the efficiency. The possibility of stabilization of the rotational speed of the experimental model SRM is substantiated. Recommendations for  choosing the moment of inertia of the  еlectric drive of single cylinder compressors on its basis with the provision of a regulated level of pulsations of the rotational speed of the rotor for the regulation range of 1: 4 have been developed. The models and algorithms for controlling the distributed generation system with wind power plants on the basis of asynchronous generators during parallel operation with the network were developed, the influence of distributed generation units on losses in the deadlock of the network was investigated. A technical solution was proposed, calculations were made, working design documentation was created, a prototype of a multifunctional autonomous electro-aggregate of single-phase current of high quality of electric power was manufactured. References 16, figures 10, table.

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