Industrial scientific research for improving the energy efficiency of electrical machines using rare-earth permanent magnets

The subject of the project is to do a research and develop a prototype of new generation of energy efficient electrical machines. From a technical point of view the suggested innovative solutions are connected with the research, the synthesis, the developing of a prototype and the testing of the energy efficient electrical machine that is based on a useful model with entry № 2954/23.02.2015;obtained- № 2095u1 and useful model with entry №3116/08.10.2015. An important aspect is the conducting of a research of new magnetic systems using rare-earth permanent magnets including hybrid magnetic systems. The principle of hybridization is in the establishing of magnet system that consists of electromagnet excitation and excitation of the permanent magnets. The innovative solutions will help to increase the energy efficiency and reduce the mass of the electrical machines. The methodology for achieving the project’s goals is based on the methods of the industrial scientific researches. The methodology involves conducting a research with the help of natural patterns of the object or its model. The aim is to: -analyze actions of the object or its model -check the facts and the theoretical conclusions -to reveal consistent patterns, interactions, properties of the factors and the parameters of the objects that have been researched. Planned activities: 1. Project management 2. Systematization of the problems 3. Structuring and synthesizing of energy efficient electrical machines using rare-earth permanent magnets. 4. Mathematical and computer modeling and virtual synthesis of high efficiency electrical machines using rare earth magnets (Computer Simulated Model) 5. Physical modeling 6 .Experimental research of the physical models 7. Developing guidelines for the application of the results of the conducted research.

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Overview

Status Closed (completion date)
Start date 01 Jun, 2018
End date 22 Oct, 2020
Contract date 01 Jun, 2018
View in UMIS

Beneficiary

Financial information

Total cost 585,655.14
Grant 432,511.91
Self finance 153,143.23
Total paid 395,234.56
EU participation percent 85.0%

Location