Weiman Yang scite author profile

Weiman Yang

5Publications

11Citation Statements Received

87Citation Statements Given

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Affiliations

Lanzhou University of Technology

Publications

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A 24‐hour operational single‐phase quasi‐Z‐source photovoltaic power system

Wei

Liu

Wang

et al. 2021

Circuit Theory & Apps

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Summary Battery energy stored single‐phase quasi‐Z‐source inverter photovoltaic (BES‐qZSI‐PV) power system shows many advantages in comparison with other tri‐port inverter‐based PV power systems. However, the existing BES‐qZSI‐PV power system does not work at night or cloudy day because of its circuit limitation. This paper proposes a 24‐h operational BES‐qZS‐PV system by the following approaches: (1) the main power circuit is proposed for the day and night operation; (2) the detailed circuit models including the DC model and the second‐harmonics ripple model are built by considering scenarios of day and night operations; (3) the design method of quasi‐Z‐source network parameters is proposed to meet the requirement of day and night operations; and (4) the control strategy is proposed to achieve the high‐performance system operation all the time and seamless transition between day and night operation. After theoretical modeling and analysis, the built models are verified by comparing their calculation results with the circuit‐based simulation and experimental results. The proposed single‐phase BES‐qZSI‐PV power system is tested; experimental and simulation results are captured when the system operates in day, night, and transition to validate the proposed 24‐h operational BES‐qZSI‐PV system.

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MPC-based three-phase unbalanced power coordination control method for microgrid clusters

et al. 2023

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An Active Power Sharing Method among Distributed Energy Sources in an Islanded Series Micro-Grid

Yang

Wang

et al. 2014

Energies

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Active power-sharing among distributed energy sources (DESs) is not only an important way to realize optimal operation of micro-grids, but also the key to maintaining stability for islanded operation. Due to the unique configuration of series micro-grids (SMGs), the power-sharing method adopted in an ordinary AC, DC, and hybrid AC/DC system cannot be directly applied into SMGs. Power-sharing in one SMG with multiple DESs involves two aspects. On the one hand, capacitor voltage stability based on an energy storage system (ESS) in the DC link must be complemented. Actually, this is a problem of power allocation between the generating unit and the ESS in the DES; an extensively researched, similar problem has been grid-off distributed power generation, for which there are good solutions. On the other hand, power-sharing among DESs should be considered to optimize the operation of a series micro-grid. In this paper, a novel method combining master control with auxiliary control is proposed. Master action of a quasi-proportional resonant controller is responsible for stability of the islanded SMG; auxiliary action based on state of charge (SOC) realizes coordinated allocation of load power among the source. At the same time, it is important to ensure that the auxiliary control does not influence the master action.

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SPSO-DBN based compensation algorithm for lackness of electric energy metering in micro-grid

Gao

Wang

Yang

2022

Alexandria Engineering Journal

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Grid Current Control of Microgrid with Cascaded Micro Source Inverters Based on Dynamic Phasors Model

Wang

Zhang

Yang

2018

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Weiman Yang

A 24‐hour operational single‐phase quasi‐Z‐source photovoltaic power system

MPC-based three-phase unbalanced power coordination control method for microgrid clusters

An Active Power Sharing Method among Distributed Energy Sources in an Islanded Series Micro-Grid

SPSO-DBN based compensation algorithm for lackness of electric energy metering in micro-grid

Grid Current Control of Microgrid with Cascaded Micro Source Inverters Based on Dynamic Phasors Model

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