Hasan Zidan scite author profile

Hasan Zidan

5Publications

27Citation Statements Received

31Citation Statements Given

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Affiliations

Ajman University, Kyushu Institute of Technology, Al-Ahliyya Amman University

Publications

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Sensor-less Speed Control of Cylindrical Type PMSM Using Estimated Flux Linkages

et al. 2000

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Recently, many methods of sensor-less control of PMSM (Permanent Magnet Synchronous Motor) are proposed. One of the methods is based on an induced voltage estimation using a disturbance observer. Though this method has a simple structure and it is convenient to realize the system, it has some disadvantages, for example, the estimation error occurs in a high speed operation area.In this paper, we propose a new sensor-less control of a cylindrical type PMSM based on the estimation of the induced voltage. We combine the induced voltage with the flux linkage by integrating the induced voltage to estimate the motor angular speed.As our proposed method does not need the induced voltage constant to estimate the motor speed, the estimation error is small even if the induced voltage constant is changed.Finally, the effectiveness of the proposed method has been verified by experiments.

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Sensor-less vector control of induction motor at low-speed operation using modular multilevel converter

Zidan

Bashir

2019

Australian Journal of Electrical and Electronics Engineering

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Power balancing of grid connected PV system based on MMC under different irradiation conditions

Bashir

Zidan

Memon

2020

International Journal of Electrical Power & Energy Systems

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Feasibility Assessment of Rural Hybrid Microgrid Using Canal-Based Microhydel Resources: A Case Study of Renala Khurd Pakistan

et al. 2022

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Water canal networks that are widely used for irrigation are an equally good source of micropower generation to be fed to the nearby areas. A practical example of such a system is the micro-hydro generation at Renala Khurd Pakistan integrated with the national grid known as hydro–grid configuration. Apart from the rare Renala Khurd hydro generation example, solar photovoltaic generation integrated with a mainstream network, i.e., solar PV-Grid configuration, is widely used. The integrated operation of combinations of primary distributed generation sources has different operational attributes in terms of economics and reliability that are needed to be quantified before installation. So far, various combinations of primary distributed generation sources have been simulated and their accumulative impact on project economics and reliability have been reported. A detailed economic and reliability assessment of various configurations is needed for sustainable and cost-effective configuration selection. This study proposes a trigeneration combination of solar–hydro–grid with an optimal sizing scheme to reduce the solar system sizing and grid operational cost. A genetic algorithm based optimal sizing formulation is developed using fixed hydro and variable solar and grid systems with a number of pre-defined constraints. The hydro–grid, solar–grid, and grid–hydro–solar configurations are simulated in HOMER Pro software to analyze the economic impact, and to undertake reliability assessments under various configurations of the project. Finally, optimal values of the genetic algorithm are provided to the HOMER Pro software search space for simulating the grid–hydro–solar configuration. It was revealed that the net present cost (NPC) of hydro-to-grid configuration was 23% lower than the grid–hydro–solar configuration, whereas the NPC of grid–hydro–solar without optimal sizing was 40% lower than the solar–grid configuration, and the NPC of grid–solar–hydro with the genetic algorithm was 36% lower than the hydro–grid configuration, 50.90% lower than solar–grid–hydro without the genetic algorithm, and 17.1% lower than the grid–solar configuration, thus proving utilization of trigeneration sources integration to be a feasible solution for areas where canal hydropower is available.

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A modified CPS-PWM for capacitor voltage reduction of MMC based variable speed drive

Bashir

Zidan

Memon

2022

IJPEDS

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<span>In recent years, modular multilevel converters (MMC) have become one of the most popular multilevel converter topologies. Despite its growing popularity, MMC is still less widespread in variable speed drives (VSDs) applications. The reason for this is that the voltage ripple of the MMC submodules (SM) increases during the low-speed constant torque operation. In this paper, carrier phase shift-pulse width modulation (CPS-PWM) is modified to reduce the average voltage of SM and thus accommodate more ripples without exceeding the maximum SM voltage. The proposed method does not involve the injection of circulating current components, thereby resulting in less power loss. In addition to that, the necessity for increasing the SM capacitor rating during low-speed operation is not required. Extensive simulation has been conducted under various speed commands to validate the effectiveness of this method.</span>

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Hasan Zidan

Sensor-less Speed Control of Cylindrical Type PMSM Using Estimated Flux Linkages

Sensor-less vector control of induction motor at low-speed operation using modular multilevel converter

Power balancing of grid connected PV system based on MMC under different irradiation conditions

Feasibility Assessment of Rural Hybrid Microgrid Using Canal-Based Microhydel Resources: A Case Study of Renala Khurd Pakistan

A modified CPS-PWM for capacitor voltage reduction of MMC based variable speed drive

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