Precise voltage control, power sharing for DC-bus with hybrid energy storage and (Neuro-Fuzzy) controller based MPPT for Hybrid Renewable Energy

Fadhil Abbas  Mahdi Al-Qrimli

doi:10.36371/port.2021.2.4

Authors

Fadhil Abbas Mahdi Al-Qrimli uruk

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The main objective of this work is to design and simulation of the stand-alone Hybrid Renewable Energy system (HRES), separated from the main local network, the effect of super capacitors when connected to the system, and the effect of power source control system on the response and work of super capacitors. It consists of Photovoltaic, Wind turbine, Hybrid Energy Storage System (HESS). The HESS system consist of Batteries, Supper capacitors, with chargers. The proposed system used real record of weather pattern and load conditions for Al-Mahmoudiya Hospital. The variable sources are changing with different weather conditions. Being important energy sources for generating electricity directly from the sun. In order to generate electrical energy that is sustainable and reliable, highly efficient, low cost, and continuous. It can provide maximum power use. The absence of winds in most regions of Iraq permanently led to the use of such a type of renewable energy (RE) system called solar updraft tower (SUT). The wind turbine can be fixed inside the chimney of the SUT, to make the turbine run smoothly and continuously. Each of the HRES parts is controlled by a converter specific to each source due to the nature of the nonlinear source work. In this paper, the main sources of energy are photovoltaic panels and SUT. Finally, MATLAB program using real recorded data, the system work at a high efficiency of 98%. So the simulation results show the HRES system have excellent results and fast tracking to supply the load demand.

Keywords:

Renewable energy, , solar updraft tower, DFIG, PI controller, , vector controller, MATLAB/Simulink

[1] M.Rezkallah Ab.Hamadi and A.Chandra, Bhim Singh, “Hybrid AC-DC Standalone System Based on PV Array and Wind Turbine”,IEEE, IECON 2014 - 40th Annual Conference of the IEEE Industrial Electronics Society, 2014.

[2] X. Tang, W. Deng, and Z. Qi, “Investigation of the Dynamic Stability of Microgrid ” IEEE Transactions on Power Systems, vol. 29, pp. 698- 706, March, 2014.

[3] A. Karabiber, C. Keles, A. Kaygusuz, and B. B. Alagoz, “An approach for the integration of renewable distributed generation in hybrid DC/AC micro grids, ” Renewable Energy, vol. 52, pp. 251-9, April 2013.

[4] S. Sumathi , L. Ashok Kumar, and P. Surekha, “Solar PV and Wind Energy Conversion Systems”, book, © Springer International Publishing Switzerland 2015.

[5] Niilo Mönkkönen, “Energy Storage: Technologies and Trends”, bachelors thesis, Tampere University of Applied Sciences, degree Programme in Energy & Environmental Engineering , December 2020.

[6] Hadyan hafizh, Hiromichi shirata, “Arothrmal simulation and power potential of asolar updraft power plant”, Journal of structural Engineering , march 2015.

[7] Schlaich Bergermann, solar GmbH, “Solar Updraft Tower” Project information. docm, 2011.

[8] Talib K. Murtadha, Hussien M. Salih, Ali D.Salman, “Thermal Efficiency for Passive Solar Chimney with and Without Heat Storage material”, Journal of Engineering, Number 5 Volume 26 May 2020.

[9] N. Mendis, K. M. Muttaqi and S. Perera, “Active Power Management of a Super capacitor-Battery Hybrid Energy Storage System for Standalone Operation of DFIG based Wind Turbines”, IEEE Transactions on Education, 978-1-4673-0332-3/12/2012.

[10] Frede Blaabjerg, Marco Liserre, and Ke Ma, Member, “Power electronics converters for wind turbine systems”, 445 Hoes Lane / P.O. Box 1331, Piscataway, NJ 08855-1331, United States, 2012.

[11] Ghulam Sarwar Kaloi a, Jie Wanga, Mazhar Hussain Baloch, “Active and reactive power control of the doubly fed induction generator based on wind energy conversion system”, Elsevier Ltd, Energy Reports 2, 194–200, 2016.

[12] Jo¨rg Schlaich, Rudolf Bergermann, Wolfgang Schiel, Gerhard Weinrebe, “Design of Commercial Solar Updraft Tower Systems Utilization of Solar Induced Convective Flows for Power Generation”, in Journal of Solar Energy Engineering , February 2005.

[13] Nur Dalilah Nordin, Hasimah Abdul Rahman,” A novel optimization method for designing stand alone photovoltaic system”, Elsevier, Renewable Energy 89 ,706-715, 2016.

[14] Haitham Abu-Rub,Mariusz Malinowski, Kamal Al-Haddad,” Power Electronics For Renewable Energy Systems”, book, A co-publication of IEEE Press and John Wiley & Sons Ltd, Transportation and Industrial Applications, 978-1-118-63403-5, 2014.

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Mahdi Al-Qrimli , F. A. . (2021). Precise voltage control, power sharing for DC-bus with hybrid energy storage and (Neuro-Fuzzy) controller based MPPT for Hybrid Renewable Energy. Journal Port Science Research, 4(2), 77–89. https://doi.org/10.36371/port.2021.2.4