Yin Nie scite author profile

Yin Nie

2Publications

0Citation Statements Received

13Citation Statements Given

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Hubei University for Nationalities, Hubei University

Publications

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Design of On-line Monitoring System for Photovoltaic Power Generation Power Quality Based on Stm32

Nie

Huang

Luo

et al. 2023

J. Phys.: Conf. Ser.

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Monitoring the quality of photovoltaic power generation in remote mountain areas is difficult, so this paper proposes a real-time online monitoring system to solve the problem by using AD7606 high-precision ADC chip and STM32 single-chip microcomputer. AD7606 realizes real-time acquisition and conversion of three-phase power data. STM32 performs wavelet transformation on the collected data to obtain power quality parameters. It stores the power quality parameters in the SD card and then uploads the power quality parameters to the host computer through Lora to display each power quality parameter in real time. Experiments show that the system can reliably realize on-line real-time monitoring of the power quality of photovoltaic power generation.

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MPPT Control Research of Improved Gray Wolf Algorithm According to Levy Flight and Greedy Strategy

Luo

Huo²,

Zhou³

et al. 2023

J. Phys.: Conf. Ser.

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MPPT control study of improved Gray Wolf algorithm (GWO) according to Levy flight and greedy strategy: Solving the problems of maximum power point tracking (MPPT) with traditional Gray Wolf algorithm (GWO) under local shadows of photovoltaic arrays and sudden environmental changes, which is easily trapped in local optimum and has a slow convergence rate, and poor solution accuracy, a improved gray wolf algorithm (LGWO) according to Levy flight and greedy strategy is presented. It is used for the first time for maximum power point tracking under partial shadow and dynamic shadow changes of photovoltaic array. It is based on the traditional Grey Wolf algorithm (GWO), it introduces Levy’s flight search strategy, improve the algorithm of global search ability, expands search range, and filters optimal range through greedy strategy to further accelerate the convergence speed. MPPT simulation model according to Boost circuit is built using MATLAB/Simulink to verify. Experiments in the presence of partial shadows and shadow mutations. The results of simulation experiments show that the ameliorated Gray Wolf algorithm (LGWO) improves the tracking accuracy of MPPT by 0.03%, improves the convergence speed by 1.1 times and is more stable after reaching the maximum number of iterations. This verifies the feasibility and superiority of the ameliorated Grey Wolf algorithm in maximum power point tracking control.

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Yin Nie

Design of On-line Monitoring System for Photovoltaic Power Generation Power Quality Based on Stm32

MPPT Control Research of Improved Gray Wolf Algorithm According to Levy Flight and Greedy Strategy

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