Daniel R. Jagessar Data-verified
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Researcher
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Biography and Research Information
OverviewAI-generated summary
Daniel R. Jagessar's research focuses on power system stability and the integration of renewable energy sources, particularly wind power. His work investigates methods for stabilizing power grids with high penetrations of variable-speed wind farms, utilizing technologies such as Static Synchronous Compensators (STATCOM) and Series Synchronous Compensators (SSSC).
His publications explore the techno-economic assessments of voltage stability improvements and grid strength evaluations through modal analysis in wind-dominated power systems. Jagessar also examines the security of power systems under contingencies and stability margin considerations. Additionally, his research extends to the design of controllers, such as linear optimal quadratic regulators, for frequency control in deregulated power markets, and the performance of photovoltaic (PV) systems for community energy needs. Jagessar has collaborated with researchers at the University of Arkansas at Fayetteville, including Roy McCann and Lizbeth Guardado.
Metrics
- h-index: 3
- Publications: 9
- Citations: 34
Selected Publications
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Mathematical Modeling of the Energy Conversion System for DFIG Based Wind Turbines (2021)
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Mathematical Dynamic Representation of the Energy Conversion System for DFIG Wind Turbines (2021)
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Security of a Power System Under High Penetration of Wind Energy Considering Contingencies and Stability Margins (2021)
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Design of a Linear Optimal Quadratic Regulator for Frequency Control in a Two-Area Deregulated Power Market (2021)
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Grid Strength Assessment and Maximum Loadability of a Wind-Dominated Power System Through QV Modal Analysis (2021)
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Power System Stabilization of a Grid Highly Penetrated from a Variable-Speed Wind Based Farm Through Robust Means of STATCOM and SSSC (2021)
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Techno-Economic Assessment of Voltage Stability Improvement Using SSSC and STATCOM in a Wind-Dominated Power System (2021)
Collaboration Network
Top Collaborators
- Techno-Economic Assessment of Voltage Stability Improvement Using SSSC and STATCOM in a Wind-Dominated Power System
- Power System Stabilization of a Grid Highly Penetrated from a Variable-Speed Wind Based Farm Through Robust Means of STATCOM and SSSC
- Grid Strength Assessment and Maximum Loadability of a Wind-Dominated Power System Through QV Modal Analysis
- Security of a Power System Under High Penetration of Wind Energy Considering Contingencies and Stability Margins
- Power Quality Performance on a Feasible Design of a Photovoltaic (PV) System for a Local Community
Showing 5 of 8 shared publications
- Techno-Economic Assessment of Voltage Stability Improvement Using SSSC and STATCOM in a Wind-Dominated Power System
- Power System Stabilization of a Grid Highly Penetrated from a Variable-Speed Wind Based Farm Through Robust Means of STATCOM and SSSC
- Grid Strength Assessment and Maximum Loadability of a Wind-Dominated Power System Through QV Modal Analysis
- Security of a Power System Under High Penetration of Wind Energy Considering Contingencies and Stability Margins
- Design of a Linear Optimal Quadratic Regulator for Frequency Control in a Two-Area Deregulated Power Market
- Power System Stabilization of a Grid Highly Penetrated from a Variable-Speed Wind Based Farm Through Robust Means of STATCOM and SSSC
- Grid Strength Assessment and Maximum Loadability of a Wind-Dominated Power System Through QV Modal Analysis
- Power Quality Performance on a Feasible Design of a Photovoltaic (PV) System for a Local Community
- Mathematical Dynamic Representation of the Energy Conversion System for DFIG Wind Turbines
- Mathematical Modeling of the Energy Conversion System for DFIG Based Wind Turbines
- Power System Stabilization of a Grid Highly Penetrated from a Variable-Speed Wind Based Farm Through Robust Means of STATCOM and SSSC
- Grid Strength Assessment and Maximum Loadability of a Wind-Dominated Power System Through QV Modal Analysis
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