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D. H. Baker
Also published under:
Affiliation
GE Energy Services, Schenectady, NY, USA
Topic
Power System,Electric Power,Radio Frequency Heating,Subsynchronous Resonance,Transmission System,Concept Of System,Control System,Distribution System,Electric Resonance,Energy Absorption Capability,Fundamental Frequency,Impedance,Level Of Compensation,Line Current,Machine Model,Mechanical Damping,Mitigation Measures,Mitigation Strategies,Mode Shapes,Operation Mode,Order Modes,Oscillation Of Electrons,Oscillatory Systems,Parallel Lines,Parallel Simulator,Passive Filter,Power Conditions,Power Outages,Power System Dynamics,Power Transfer,Simulation Test,Stability Problem,Step Test,Systemic Conditions,Thyristor-Controlled Series Capacitor,Torsional Mode,Torsional Vibration,Total Voltage,Transient Problems,Transmission Line,Transmission Network,Vibrational Modes,Power Delivery,Power Factor,Eigenvalue Analysis,Equivalent Circuit,Point Load,Test Data,Turbine Generator,Voltage Regulation,
Biography
Dr. Daniel H. Baker is Principle Consultant with GE Energy in Schenectady, NY. His areas of work include the analysis and control of subsynchronous resonance phenomena associated with capacitive compensation of transmission lines and controls of HVDC lines, analysis of torsional duty due to line switchings, system faults and high speed reclosing, the analysis of excitation system performance, and the analysis of HVDC converters and other power conversion equipment.
Dr. Baker is a member of the IEEE Power Engineering Society and has been an active member of several subcommittees and working groups on synchronous machine modeling, excitation systems and subsynchronous resonance.
Dr. Baker is a member of the IEEE Power Engineering Society and has been an active member of several subcommittees and working groups on synchronous machine modeling, excitation systems and subsynchronous resonance.