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The current stage
of the research activities carried out in the frame of the project respects
correspond to the proposed work plan. The activities carried out so far are
the following:
Phase I. Analysis of feasible constructive solutions of
components for vertical axis HWT (15.12.2014)
Activity I.1. Analysis of constructive solutions of
components for vertical axis HWT
Activity I.2. Elaboration of necessary documentation for
intellectual protection of patentable elements and concepts
Activity I.3.
Analysis for choosing the HWG design variant
Phase II. Partial design of the experimental
models of HWG and of energy management system (15.12.2015)
Activity II.1.
Design and optimization of experimental model of HWG - Part I
Activity II.2.
Design of energy management system - Part I
Activity II.3.
Dissemination of results by attending technical events and by publication
of scientific articles
Etapa III. Partial design of the experimental
models of HWG and of energy management system (15.12.2016)
Activity III.1.
Design and constructive optimization of the experimental model of HWG -
Part II
Activity III.2. Design
of energy management system - Part II
Activity III.3.
Execution of the experimental model of HWG - Part I
Etapa IV. Execution of experimental models,
their testing and monitoring (30.09.2017)
Activity IV.1.
Design of energy management system - Part III
Activity IV.2.
Execution of the experimental model of HWG - Part II
Activity IV.3.
Testing of experimental model of HWG
Activity IV.4.
Testing and monitoring of the experimental model of HWG along with the
energy management system
Activity IV.5. Elaboration
of technical documentation of the studied system
Activity IV.6.
Dissemination of the results by attending technical and scientific events
and by publishing scientific articles and papers
Results obtained:
Patent demands submitted at OSIM:
[1] Patent demand
A/00838/10.11.2014: Hybrid wind
generator with radial magnetic flux and exterior rotor.
[2] Patent demand
A/00839/10.11.2014: Hybrid wind
generator with radial magnetic flux and interior rotor.
[3] Patent demand
A/00840/10.11.2014: Hybrid wind generator
with axial magnetic flux.
[4] Patent demand
A/00299/18.05.2017: Electric
generator for wind conversion systems with two counter-rotating turbines.
Papers:
[1] Floricau D. and
Kreindler L.: Generalized Multilevel
Inverter Topology with Stacked Coupled Inductors, Proceedings of the
17th European Conference on Power Electronics and Applications, EPE’15-ECCE
Europe, Geneva, Switzerland (ISI Thomson indexed).
[2] Floricau D. and
Tudorache T.: A Novel Generalization
Of Boost-type Pfc Topologies With Multiple Switching Cells Connected In
Series And Parallel, Proceedings of the 9th International Symposium on
Advanced Topics in Electrical Engineering ATEE 2015, Bucharest, Romania
(ISI Thomson indexed).
[3] Tudorache T.,
Melcescu L. and Floricau D.: Design And
Performance Analysis of a Permanent Magnet Synchronous Generator Equipped
With AC-DC Converter, Proceedings of the 9th International Symposium on
Advanced Topics in Electrical Engineering ATEE 2015, Bucharest, Romania
(ISI Thomson indexed).
[4] Tudorache T. and
Melcescu L.: Outer Rotor Eddy Current
Heater for Wind Turbines, Proceedings of World Renewable Energy
Congress, WREC 2015, University Politehnica of Bucharest, Romania.
[5] Predescu M.: Economic evaluation of small wind
turbines and hybrid systems for residential use, Proceedings of World
Renewable Energy Congress, WREC 2015, University Politehnica of Bucharest,
Romania.
[6] Tudorache T.,
Melcescu L. and M. Predescu: Analysis
of a Permanent Magnet Eddy Current Heater Driven by a Wind Turbine, Advances
in Electrical and Computer Engineering (AECE), Vol. 15, No. 3, pp. 53 - 58,
2015 (ISI Thomson indexed).
[7] Floricau D.,
Tudorache T. and Kreindler L.: New
Boost-Type PFC MF-Vienna PWM Rectifiers with Multiplied Switching Frequency,
Advances in Electrical and Computer Engineering (AECE), Vol. 15, No. 4, pp.
81 - 86, 2015 (ISI Thomson indexed).
[8] Tudorache T., Trifu
I., Popescu M.: Analiza numerica 3D a
unui generator cu magneti permanenti cu flux axial, Vol. de lucrari al
Simpozionului Actualitati si Perspective in Domeniul Masinilor Electrice
(SME 2016), Bucuresti, Romania.
[9] Melcescu L.,
Tudorache T., Popescu M.: Analiza
numerica a unei masini sincrone cu magneti permanenti cu flux axial fara
jug statoric, Vol. de lucrari al Simpozionului Actualitati si
Perspective in Domeniul Masinilor Electrice (SME 2016), Bucuresti, Romania.
[10] Melcescu L.,
Tudorache T., Craiu O., Popescu M.: Finite
Element Analysis of a Wind Generator with Two Counter-Rotating Rotors,
Proceedings of Joint International Conference on Optimization of Electrical
& Electronic Equipment and Aegean Conference on Electrical Machines
& Power Electronics (OPTIM - ACEMP,), May 25-27, 2017, Brasov, Romania.
[11] Tudorache T., Trifu
I., Melcescu L., Floricau D.: Numerical
Analysis of an Electro-Thermal Wind Generator, Proceedings of
International Conference on Electronics, Computers and Artificial
Intelligence (ECAI 2017), 29 June - 01 July, 2017, Targoviste, Romania.
Products:
[1] Hybrid wind generator
[2] System for converting
the wind energy into electrical and thermal energy
Scientific and Technical Report:
[1] Scientific
and Technical Report - Phase I
[2] Scientific
and Technical Report - Phase II
[3] Scientific
and Technical Report - Phase III
[4] Scientific
and Technical Report - Phase IV
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