Modeling, simulation and experimental investigation of closed loop MPPT based single phase stand alone photo voltaic system using particle swarm optimization technique

  • Authors

    • P V. Thakre
    • V M. Deshmukh
    2018-04-20
    https://doi.org/10.14419/ijet.v7i2.21.11843
  • Controller, converter, filter, inverter.

  • Standalone photovoltaic (PV) systems are implemented to perform independently from the utility grid. Such system are beneficial for certain AC as well as DC loads; that too especially where conventional energy cannot reach. To make such system more efficient and independent, a closed loop control could be employed. This research paper presents a novel approach to model and simulate a closed loop maximum peak power tracking (MPPT) based single phase stand alone system using particle swarm optimization (PSO) technique. Based on the simulation results, an experimental investigation has been successfully carried out.

     

  • References

    1. [1] Kapumpa KH & Virdi AS, “A review paper on solar photovoltaic systemâ€, International Journal of Control Theory and Application, (2016), pp.43-52.

      [2] Abdul Rahaman NH & Omar AM, “Modeling of a maximum power point tracker for a standalone photovoltaic system using MATLAB/Simulinkâ€, International Journal of Low Carbon Technologies, Vol.9, (2014), pp.195-201.

      [3] Padmanaban S, Kabalci E, Iqbal A, Abu-Rub H & Ojo O, “Control strategy and hardware implementation for DC–DC boost power circuit based on proportional–integral compensator for high voltage applicationâ€, Engineering Science and Technology, an International Journal, Vol.18, No.2, (2015), pp.163-170.

      [4] Thakre PV & Rangnekar S, “Implementation of Digital Controller TMS320C28027 to MPPT Based Single Phase Bidirectional High Frequency Link Inverter for Photovoltaic Applicationsâ€, International Journal of Renewable Energy Research, Vol.4, No.1, (2014), pp.103-108.

      [5] Piegari L & Rizzo R, “Adaptive perturb and observe algorithm for photovoltaic maximum power point trackingâ€, Journal for Renewable Power Generation (IET), Vol.4, No.4, (2014), pp.317-328.

      [6] Deshmukh VM & Patil AJ, “Comparison and performance analysis of closed loop controlled nonlinear system connected PWM inverter based on hybrid techniqueâ€, Journal of Electrical System and Information Technology ,Science Direct, Vol.2, No.1, (2015), pp.86-98.

      [7] Deshmukh VM, Patil AJ & Thakre PV, “Development of MATLAB/Simulink model for three phase PWM inverter and hardware implementation and testing using DSP with nonlinear loadâ€, International Journal of Control Science and Engineering, Vol.5, No.1, (2015), pp.1-9.

      [8] Pierquet BJ & Pereault DJ, “A single phase photovoltaic inverter topology with a series connected energy bufferâ€, IEEE Transaction on Power Electronics, Vol.25, No.10, (2013), pp.4603-4611.

      [9] Arofa OM, Mansoun AA & Sakkoury KS, “Realisation of single phase single stage grid connected PV systemâ€, Journal of Electrical System and Information Technology, Science Direct, (2016), pp. 1-9,

      [10] Debnath D & Chatterjee K, “Two-stage solar photovoltaic-based stand-alone scheme having battery as energy storage element for rural deploymentâ€, IEEE Transactions on Industrial Electronics, Vol.62, No.7, (2015), pp.4148-4157.

      [11] Badoud AE & Khemliche M, “Modeling, Design and Simulation of Stand-Alone Photovoltaic Power Systems with Battery Storageâ€, Leonardo Journal of Sciences, Vol.22, (2013), pp.123-142.

      [12] Lai CM & You HP, “A High-Efficiency Single-Stage Low-Power Photovoltaic Inverter System with Maximum Power Point Tracking Controlâ€, Energy and Power Engineering, Vol.6, No.09,(2014), pp.222-234.

  • Downloads

  • How to Cite

    V. Thakre, P., & M. Deshmukh, V. (2018). Modeling, simulation and experimental investigation of closed loop MPPT based single phase stand alone photo voltaic system using particle swarm optimization technique. International Journal of Engineering & Technology, 7(2.21), 94-98. https://doi.org/10.14419/ijet.v7i2.21.11843