MPPT Strategy to Improve Photovoltaic Power Generation Efficiency in Partial Shadows

Heo, Cheol-Young;Kim, Yong-Rae;Lee, Young-Kwoun;Lee, Dong-Yun;Choy, Ick;Choi, Ju-Yeop;

doi:10.7836/kses.2019.39.2.001

Journal of the Korean Solar Energy Society (한국태양에너지학회 논문집)

Volume 39 Issue 2
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Pages.1-9
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2019
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1598-6411(pISSN)
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2508-3562(eISSN)

The Korean Solar Energy Society (한국태양에너지학회)

DOI QR Code

MPPT Strategy to Improve Photovoltaic Power Generation Efficiency in Partial Shadows

부분 음영에서의 태양광 발전 효율을 높이기 위한 MPPT 전략

Heo, Cheol-Young (Kwangwoon University) ;
Kim, Yong-Rae (Kwangwoon University) ;
Lee, Young-Kwoun (Keumbee Electronics) ;
Lee, Dong-Yun (Korea Polytechnic Colleges) ;
Choy, Ick (Kwangwoon University) ;
Choi, Ju-Yeop (Kwangwoon University)

허철영 (광운대학교, 대학원) ;
김용래 (광운대학교, 대학원) ;
이영권 (금비전자) ;
이동윤 (한국폴리텍대학) ;
최익 (광운대학교) ;
최주엽 (광운대학교)

Received : 2019.02.18
Accepted : 2019.02.28
Published : 2019.04.30

https://doi.org/10.7836/kses.2019.39.2.001 Citation PDF KSCI HTML

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Abstract

In order to increase the power generation efficiency of the photovoltaic system, a new algorithm that can follow the maximum power point of the photovoltaic power generation system having nonlinear output characteristics is proposed. Conventional maximum power point tracking (MPPT) algorithms such as Perturbation and Observation (P&O) and InCond (Increment and Conductance) schemes can not find the global maximum power point at a plurality of pole points in the unmatched state of unbalanced PV modules. However, even if the global maximum power point is found at a plurality of pole points, the global maximum power that can not be the real maximum power by the photovoltaic generation system. In order to solve this problem, a few PV companies propose installing several small PV inverters instead of if big one. However, since this will require additional costs, we herein propose a Multi-MPPT system using individual 3-point MPPT to track true MPPT at a plurality of pole points in the unmatched state of unbalanced PV modules.

Keywords

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Fig. 1 An example of the mismatched situation caused by partial shadow in PV array

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Fig. 2 The partial shade on a photovoltaic array

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Fig. 3 The power from a total photovoltaic array with shade

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Fig. 4 Graph of high-mid irradiation (EN50530)

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Fig. 5 Algorithm of 3-point MPPT flow chart

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Fig. 6 Power of P&O and 3-Point according to high-mid irradiation

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Fig. 7 Graph of efficiency of MPPT according to high-mid irradiation

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Fig. 8 Multi individual inverters for efficiency

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Fig. 9 One inverter with multi boost converters

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Fig. 10 Simulation of three boost converters

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Fig. 11 Result of Multi-MPPT scheme in mismatched situation

Table 1 Efficiency of MPPT according to high-mid irradiation (Vref Increase)

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Table 2 Efficiency of MPPT according to high-mid irradiation (V_ref decrease)

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Table 3 Comparison of MPPT in simulation

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Table 4 Comparison of MPPT in 12 kW PCS

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References

Jinlei Ding, A New Method to Determine the Optimum Load of a Real Solar Cell Using the Lambert W-function, Journal of Power Electronics, Vol. 92 , No. 12, pp. 1566-1569, 2008.
Kim, D. G., 3-Point MPPT Algorithm Under Dynamic Irradiation for Photovoltaic PCS, Journal of Power Electronics, Vol.2016 , No. 7, pp. 469-470, 2016.
Kim, S. B., A Novel Hybrid MPPT Control for Photovoltaic System, Journal of Power Electronics, Vol. 2014, No. 11, pp. 7-8, 2014.