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. Design of
experimental models of ETWG and PVT (23.12.2016)
Activity I.1. Design of
experimental model of ETWG
Activity I.2. Design of
experimental model of PVT system
Phase II. Completion of
design and execution of components (22.12.2017)
Activity II.1. Design of
energy management system
Activity II.2.
Elaboration of technical documentation for protecting the intellectual
property rights on the innovative elements
Activity II.3. Execution
of experimental model of ETWG
Activity II.4. Execution
of experimental model of PVT system
Activity II.5. Execution
of energy management system
Activity II.6. Dissemination
of research results by publishing papers at conferences, symposiums and
scientific journals
Phase III. Assembling and
testing the experimental model of the HWPVT system. Elaboration of
technical documentation (31.03.2018)
Activity III.1. Assembling
and testing of experimental model of HWPVT system
Activity III.2.
Elaboration of technical documentation of HWPVT system
Results obtained:
Patent demands submitted at OSIM:
[1] Patent demand A00061/06.02.2017: Permanent Magnet Axial Flux Electrothermal Generator, Authors:
Tiberiu Tudorache (UPB), Mihail Predescu (AEOLUS).
[2] Patent demand A00169/21.03.2017: Permanent Magnet Radial Flux Rotating Electrothermal Generator,
Authors: Tiberiu Tudorache (UPB), Mihail Predescu (AEOLUS). This patent was
presented at the Invention and
Innovation Exhibition organized on 12 March, 2018, in Bucharest, with
the occasion of the event 100 Years
of Romanian Invention.
Papers:
[1] Bostan V., Tudorache T., Colt G.: Improvement of Solar Radiation Absorption of a PV Panel Using a
Plane Low Concentration System, Advanced Topics in Electrical
Engineering (ATEE 2017), Bucharest, Romania (ISI Thomson indexed paper).
[2] Oancea C.D., Tudorache T., Conditioning circuit for assessing the performance of renewable
energy sources, 22nd IMEKO TC4 International Symposium & 20th
International Workshop on ADC Modelling and Testing, Iasi, Romania, 2017.
[3] Tudorache T., Trifu I., Finite Element Analysis of an Axial Flux Hybrid Wind Generator,
Revue Roumaine des Sciences Techniques - Serie Electrotechnique et
Energetique, Vol. 62, Issue 3, 2017 (ISI Thomson indexed paper).
[4] Craiu O., Tudorache T., Heat Transfer Analysis of an Axial Flux Synchronous Wind Generator
Using 3D Finite Element Models, Revue Roumaine des Sciences Techniques
- Serie Electrotechnique et Energetique, Vol. 62, Issue 4, 2017 (ISI
Thomson indexed paper).
[5] Tudorache T., Melcescu L., Bostan V., Colt G., Popescu
M., Predescu M., Electromagnetic
Analysis of a Hybrid Permanent Magnet Generator, Revue Roumaine des
Sciences Techniques - Serie Electrotechnique et Energetique, Vol. 63, Issue
1, 2018 (ISI Thomson indexed paper).
[6] Tudorache T., Bostan V.: Analysis of a Grid Tie Dual Rotor Counter Rotating Wind System,
Revue Roumaine des Sciences Techniques - Serie Electrotechnique et
Energetique, Vol. 63, Issue 2, 2018 (ISI Thomson indexed paper).
Improved products/technologies:
[1] Electrothermal
wind generator
[2] PV-thermal
system equipped with components for solar radiation concentration
[3] HWPVT system
Scientific and
Technical Reports:
Scientific and Technical
Report - Phase I
Scientific and Technical
Report - Phase II
Scientific and Technical
Report - Phase III
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