Citations (32)
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Ali
M. Yousef & Ahmed
M. Kassem. (2012) Stand Alone Wind Energy Conversion System Based on Functional Predictive Control. International Journal of Green Energy 0:0.
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Mahmoud A. Mossa, Mahmoud K. Abdelhamid, Ahmed A. Hassan & Nicola Bianchi. (2022) Improving the Dynamic Performance of a Variable Speed DFIG for Energy Conversion Purposes Using an Effective Control System. Processes 10:3, pages 456.
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S. Sonar & T. Maity. (2013) Wind power conversion based on quasi-z source inverter. Wind power conversion based on quasi-z source inverter.
Yahia Saoudi, Nizar Derbel & Hsan Hadj Abdallah. (2013) Influence of capacity variation to regulate voltage quality for Doubly Fed Induction Generator. Influence of capacity variation to regulate voltage quality for Doubly Fed Induction Generator.
Ahmed M. Kassem. (2012) Robust voltage control of a stand alone wind energy conversion system based on functional model predictive approach. International Journal of Electrical Power & Energy Systems 41:1, pages 124-132.
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Ahmed M. Kassem. (2012) Modeling and control design of a stand alone wind energy conversion system based on functional model predictive control. Energy Systems 3:3, pages 303-323.
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Santosh Sonar & Tanmoy Maity. (2012) Design and simulation of a novel single phase to three phase wind power converter. Design and simulation of a novel single phase to three phase wind power converter.
Santosh Sonar & Tanmoy Maity. (2011) Z-source inverter based control of wind power. Z-source inverter based control of wind power.
Gaurav Kumar Kasal & Bhim Singh. (2011) Voltage and Frequency Controllers for an Asynchronous Generator-Based Isolated Wind Energy Conversion System. IEEE Transactions on Energy Conversion 26:2, pages 402-416.
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Vishal Verma, Peeyush Pant & Bhim Singh. (2010) Indirect current controlled VSC for reactive power and load control support to self-excited induction generator feeding 3-phase 4-wire isolated power system. Indirect current controlled VSC for reactive power and load control support to self-excited induction generator feeding 3-phase 4-wire isolated power system.
Shailendra Sharma & Bhim Singh. (2010) Isolated Asynchronous Generator in Wind Generation Feeding Dynamic Loads. Isolated Asynchronous Generator in Wind Generation Feeding Dynamic Loads.
Gaurav Kumar Kasal & Bhim Singh. (2009) Three-Phase 4-Wire Isolated Wind Energy Conversion System Employing VSC with a T-Connected Transformer for Neutral Current Compensation. Journal of Electrical Engineering and Technology 4:2, pages 211-218.
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Bhim Singh & Gaurav Kumar Kasal. (2008) Voltage and Frequency Controller for a Three-Phase Four-Wire Autonomous Wind Energy Conversion System. IEEE Transactions on Energy Conversion 23:2, pages 509-518.
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Lotfi Krichen, Bruno Francois & Abderrazak Ouali. (2008) A fuzzy logic supervisor for active and reactive power control of a fixed speed wind energy conversion system. Electric Power Systems Research 78:3, pages 418-424.
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Tarek Ahmed, Katsumi Nishida & Mutsuo Nakaoka. (2007) A Novel Stand-Alone Induction Generator System for AC and DC Power Applications. IEEE Transactions on Industry Applications 43:6, pages 1465-1474.
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Katsumi Nishida, Tarek Ahmed & Mutsuo Nakaoka. (2006) High performance control implementation of stand alone induction generator using active power filter. IEEJ Transactions on Electrical and Electronic Engineering 1:1, pages 80-94.
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R.C. Bansal. (2005) Three-Phase Self-Excited Induction Generators: An Overview. IEEE Transactions on Energy Conversion 20:2, pages 292-299.
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T. Ahmed, K. Nishida & M. Nakaoka. (2005) A Novel Induction Generator System for Small-Scale AC and DC Power Applications. A Novel Induction Generator System for Small-Scale AC and DC Power Applications.
T. Ahmed, M. Nakaoka, T. Tanaka & K. Nishida. (2005) Advanced active power filter for renewable energy applications of stand-alone induction generator. Advanced active power filter for renewable energy applications of stand-alone induction generator.
T. Ahmed, K. Nishida & M. Nakaoka. (2005) A novel stand-alone induction generator system for AC and DC power applications. A novel stand-alone induction generator system for AC and DC power applications.
T. Ahmed, K. Nishida, M. Nakaoka & O. Noro. (2005) Self-excited induction generator with regulated dc voltage scheme for wind power applications. Self-excited induction generator with regulated dc voltage scheme for wind power applications.
T. Ahmed, O. Noro, E. Hiraki & M. Nakaoka. (2004) Terminal Voltage Regulation Characteristics by Static Var Compensator for a Three-Phase Self-Excited Induction Generator. IEEE Transactions on Industry Applications 40:4, pages 978-988.
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Tarek Ahmed, Osamu Noro & Mutsuo Nakaoka. (2004) PI Closed-Loop Feedback Terminal Voltage Control Scheme based on Static VAR Compensator for Three-Phase Self-Excited Induction Generator. IEEJ Transactions on Power and Energy 124:4, pages 569-581.
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T. Ahmed, K. Nishida & M. Nakaoka. (2004) Wind energy DC supply-based induction generator with static VAr compensator and AC voltage regulator. Wind energy DC supply-based induction generator with static VAr compensator and AC voltage regulator.
T. Ahmed, K. Nishida, M. Nakaoka & Hyun Woo Lee. (2004) Self-excited induction generator with simple voltage regulation scheme for wind energy. Self-excited induction generator with simple voltage regulation scheme for wind energy.
Maamar Taleb. (2004) Optimal Operation of a Wind Driven System. Journal of King Saud University - Engineering Sciences 16:2, pages 229-251.
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R.C. Bansal, T.S. Bhatti & D.P. Kothari. (2003) Bibliography on the application of induction generators in nonconventional energy systems. IEEE Transactions on Energy Conversion 18:3, pages 433-439.
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A.M. Eltamaly. (2002) New formula to determine the minimum capacitance required for self-excited induction generator. New formula to determine the minimum capacitance required for self-excited induction generator.
S. Wekhande & V. Agarwal. (2001) Simple control for a wind-driven induction generator. IEEE Industry Applications Magazine 7:2, pages 44-53.
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S. Wekhande & V. Agarwal. (1999) A variable speed constant voltage controller for self-excited induction generator with minimum control requirements. A variable speed constant voltage controller for self-excited induction generator with minimum control requirements.
S. Wekhande & V. Agarwal. (1999) A simple wind driven self-excited induction generator with regulated output voltage. A simple wind driven self-excited induction generator with regulated output voltage.
S. Wekhande & V. Agarwal. (1999) Wind driven self-excited induction generator with simple de-coupled excitation control. Wind driven self-excited induction generator with simple de-coupled excitation control.