Marwan Ahmed Abdullah Sufyan scite author profile

Marwan Ahmed Abdullah Sufyan

5Publications

8Citation Statements Received

64Citation Statements Given

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131

Affiliations

Aligarh Muslim University

Publications

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Implementation of PMU-Based Distributed Wide Area Monitoring in Smart Grid

et al. 2021

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Determination of accurate operating states of the power system is one of the most challenging tasks due to integration of large number of solar PVs into the power system. Since these sources of energy are inertialess generations, hence may cause instability issues if highly penetrated. Hence, precise monitoring and control of such systems with higher PV penetration is a critical issue to address both in terms of the total number of PV sources in the system and the percentage of penetration. Phasor Measurement Units (PMUs), with their time synchronizing abilities, have made this task a bit easier. However, traditional centralized data handling architecture at control centers are becoming redundant due to various limitations such as data handling, computational constraints etc. To overcome this, a distributed PMU-PDC architecture approach is utilized in this paper. Since local PDC (Phasor Data Concentrator) in an n-area power system can run separate optimization algorithms, by combining the results of these optimization algorithms of n-area PDCs, we can get a much more accurate global consensus about the current operating state of the system. The presented work is divided into two parts. First, the analysis of power system stability is performed in terms of the total number of Photovoltaic Source (PV) in the system and the percentage of PV penetration. Then, the accuracy of the method is tested both in terms of the number of PMUs in each area along with their channel capacities. Low-frequency oscillations have been simulated on IEEE-68 standard bus system using MATLAB, and the modes of oscillation are estimated using the Alternating Direction Method of Multipliers (ADMM) algorithm. INDEX TERMSWide-Area Measurement System (WAMS), Phasor Measurement Unit (PMU), Phasor Data Concentrator (PDC), Alternating Direction Method of Multipliers (ADMM)

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An investigation on the application and challenges for wide area monitoring and control in smart grid

2021

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The complexity and dynamics of the modern power system are continuously changing due to the penetration of a large number of renewable energy sources and changing load patterns. These growing complexities have caused numerous outages around the world, primarily due to the lack of situational awareness about the grid operating states. Rectification of this problem requires advanced sensing technology to accurately capture the dynamics of the system for better monitoring and control. Measurement of synchrophasors is a potential solution to improve situational awareness in the grid. The synchrophasors technology is now widely accepted throughout the world and has the potential to replace the existing SCADA system in monitoring and control of the power system. Their installation enables efficient resolution to substantially improve transmission system planning, maintenance, operation, and energy trading. This paper reviews the state of the art potential applications that the PMU based WAMC offers to the power system. It also includes technical perspectives, challenges, and future possibilities.

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Analysis of Effectiveness of PMU based Wide Area Monitoring System in Indian Power Grid

Sufyan

Zuhaib

Sefid

et al. 2018

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Optimal PMU Placement for Smart Grid: A Technical Case Study

Sufyan

Zuhaib

Rihan

2020

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Applications of Synchrophasors Technology in Smart Grid

Sufyan

Zuhaib

Rihan

2021

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