20 / 24
Page 49
Notes:
Research & Reviews: Journal of Material Sciences | ISSN: 2321-6212 | Volulme 6
November 07-08, 2018 | Atlanta, USA
Materials Science and Engineering
15
th
International Conference and Exhibition on
Applied Crystallography
3
rd
International Conference on
&
The optimized PV-UPFC hybrid network for power quality improvement load by an improved
distribution algorithm: A best performance from combination of the proposed PV systems and
unified power quality controllers
Milissa Kate
University of Bejaia, Algeria
C
ombining active filters and renewable sources, in particular photovoltaic systems, allows us to take advantage of power
enhancers in delivering high quality pollution free power to consumers. Due to the numerous applications of the solar
system, the present study has taken into consideration a different type of its applications, so that by combining UPQC and PV
systems in areas nearby loads, which have high potential of radiation, one can improve the quality of electrical energy delivered
to consumers. Therefore, the present study aimed to design a proposed system (UPQC-PV) considering control of the active
filter, the photovoltaic system’s maximum power point tracking and DC-link voltage control strategy. The results obtained from
the present study indicated that compensating the parallel active filter leads to remove the unwanted current at the end of the
network and also compensating the series active filter leads to compensated voltage drop in the network.
Biography
Milissa Kate is a young and now PhD candidate in Department of Automatics, electronics and Telecommunications, University of Bejaia and received her PhD
degree in September, 2016 at the age of 25 years. Her current research interests include Robotics, Automatics, adaptive and robust control, Photovoltaic and
its Controls, Artificial Neural Network and Fuzzy Logic Theory. She is author of many research papers published at both International and National journals,
Conference proceedings.
milissa.kate@yahoo.frMilissa Kate, Res. Rev. J Mat. Sci. 2018, Volume 6
DOI: 10.4172/2321-6212-C8-035