New Analysis Framework of Lyapunov-Based Stability for Hybrid Wind Farm Equipped With FRT: A Case Study of Egyptian Grid Code

Salem, Ahmed A.; ElDesouky, Azza A.; Farahat, Ahmed; Abdelsalam, Abdelazeem A.

doi:10.1109/access.2021.3085173

Cited by 10 publications

(2 citation statements)

References 33 publications

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“…The ability of wind turbine generators to continue running rather than stop during disruptions was investigated in order to properly stabilize grid-connected large-scale SCIG and DFIG in Zafarana, the Suez Gulf area, and Egypt with fault ride-through parameter settings based on the Egyptian grid code [15]. A multi-objective optimization problem was formulated to achieve optimal penetration of RES and SOP in the distribution network of 59 buses in Egypt [16].…”

Section: Related Workmentioning

confidence: 99%

Modified Analytical Technique for Multi-Objective Optimal Placement of High-Level Renewable Energy Penetration Connected to Egyptian Power System

et al. 2023

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The 2022 United Nations Climate Change Conference (COP27) recommended that Egypt be converted to green energy, in addition to increasing the demand for annual energy consumption, which will lead to an increase in the use of renewable energy sources (RES) in Egypt. The Egyptian Ministry of Energy and Electricity plans to build RES (photovoltaic systems and wind farms) connected to the Egyptian power system (EPS). It is a defect to choose the position and size of the RES based on only power calculations because the RES is an intermittent source. This paper presents a modified analytical energy technique for locating RES in IEEE 33-bus and 69-bus distribution networks and a realistic 25-bus 500 kV EPS. An analytical multi-objective function has been developed to determine the optimal locations of DGs or RESs based on power losses and annual energy loss calculations of the system depending on weather conditions. The efficiency and feasibility of the proposed algorithm based on the IEEE 33-bus and 69-bus distribution networks and the realistic 25-bus 500 kV EPS have been tested and compared with PSO and GA. The impact of RESs on the performance of the 25-bus 500 kV EPS has been investigated based on annual energy losses and operation stability depending on weather conditions. The results showed that the proposed technique used these effective values to obtain optimal weather-adjusted locations. The optimal locations of PV systems or wind systems based on energy calculation improved the voltage profile better than power calculation by about 2%, and the annual energy losses decreased by about 7%. The performance of the 25-bus 500 kV EPS, due to the addition of RES, resulted in a decrease in the annual energy losses of 47% and an improvement in the voltage profile and system stability.

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Section: Related Workmentioning

confidence: 99%

Modified Analytical Technique for Multi-Objective Optimal Placement of High-Level Renewable Energy Penetration Connected to Egyptian Power System

et al. 2023

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“…The proposed MG is located in the Zafarana area of the Suez Gulf on Egypt's Eastern Red Sea coast, at 29′ 112′′ and 32′6′′ latitude and longitude angles, respectively. Monthly averaged sun irradiance, wind speed, and temperature data from NASA's Modern-Era Retrospective Analysis for Research and Applications (MERRA) [25] are gathered and summarized in Table I for a five-year period (2018-2022). The connected load to the thoroughly tested MG is provided based on the Suez Canal Company for Electrical Distribution (CCED) as addressed in [26] with considerably reduced scaled values.…”

Section: System Descriptionmentioning

confidence: 99%

Improving Power Quality Problems of Isolated MG Based on ANN Under Different Operating Conditions Through PMS and ASSC Integration

Elmetwaly,

ElDesouky,

Fekry

et al. 2023

IEEE Access

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Microgrid (MG) technologies assist the power grid in evolving to become more efficient, less polluting, and more resilient by addressing the requirements of energy users. However, several technological issues arise as a result of the unpredictability and difficulty in estimating the efficacy and regulation of the many renewable energy resources (RERs) incorporated in MGs. Two of the most significant of these issues are maintaining system stability and power quality, which necessitate to get better the performance of the MGs. The most difficult challenge, system stability, can be achieved with successful Power Management System (PMS). This paper proposes an effective PMS for an AC MG equipped with a diesel generator (DG), a permanent magnet wind generator (PMWG), and a solar photovoltaic (PV) panel Based on an adaptable Artificial Neural Network (ANN). The ANN weights are properly tuned via the Enhanced Bald Eagle Search (EBES) optimization algorithm to produce a stable system during the whole training period, achieve MG energy balance, reduce the usage of fossil fuel DG and maintain MG voltage stability. In addition, for keeping power quality, an adaptive series shunt compensator (ASSC) is described in this work, along with a developed integrative PID controller, where the latter's controller gains are ideally set utilizing the EBES optimization algorithm to perform adaptably with self-tuning when the operational circumstances of an MG change. various cases are displayed to test the strong of offered ASSC on harmonic mitigation, dynamic voltage stabilization, reactive power control and power factor correction. Moreover, comprehensive case study based on realistic on-site location for Zafarana region, Suez Gulf region of Egypt is proposed. Taking into account The changing nature of weather-related renewable energy, actual loads states and transient faults.INDEX TERMS Photovoltaic (PV), Power Management System (PMS), permanent magnet wind generator (PMWG), Artificial Neural Network (ANN), renewable energy resources (RERs)

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Techno-economic multi-objective reactive power planning in integrated wind power system with improving voltage stability

Eladl

Basha²,

ElDesouky³

2023

Electric Power Systems Research

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New Analysis Framework of Lyapunov-Based Stability for Hybrid Wind Farm Equipped With FRT: A Case Study of Egyptian Grid Code

Cited by 10 publications

References 33 publications

Modified Analytical Technique for Multi-Objective Optimal Placement of High-Level Renewable Energy Penetration Connected to Egyptian Power System

Modified Analytical Technique for Multi-Objective Optimal Placement of High-Level Renewable Energy Penetration Connected to Egyptian Power System

Improving Power Quality Problems of Isolated MG Based on ANN Under Different Operating Conditions Through PMS and ASSC Integration

Techno-economic multi-objective reactive power planning in integrated wind power system with improving voltage stability

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