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Murali Baggu
Also published under:Murali Mohan Baggu, Murali M. Baggu, M. M. Baggu, M. Baggu
Affiliation
National Renewable Energy Laboratory (NREL), Golden, Colorado
Topic
Distributed Energy Resources,Photovoltaic System,Voltage Regulation,Distribution Lines,Bus Voltage,Capacitor Bank,Distribution Network,Distribution System,Set Point,Baseline Scenario,Energy Conservation,Local Control,Photovoltaic Inverter,Photovoltaic Penetration,System Voltage,Voltage Profile,Active Power Output,Autonomic Control,Distribution Grid,Distribution System Operator,High Photovoltaic,High Photovoltaic Penetration,Load Consumption,Management System,Node Voltage,Optimal Power Flow,Output Power,Peak Demand,Peak Load,Power Factor,Pulse Width,Real-time Simulation,Smart Inverters,Solar Photovoltaic,Voltage Limit,Voltage Measurements,Active Power Injection,Actual Distribution System,Advanced Management,Algorithmic Systems,American National Standards Institute,Artificial Neural Network,Average Voltage,Baseline Simulation,Beginning Of The Test,Center For Control,Co-simulation,Commercial Products,Conservation Voltage Reduction,Constant Step Size,
Biography
Murali Baggu (M’04–SM’13) received the B.Tech. degree in electrical and electronics engineering from Kakatiya University, India, the M.S. degree in electrical engineering from the University of Idaho, Moscow, ID, USA, and the Ph.D. degree in electrical engineering from the Missouri University of Science and Technology, Rolla, MO, USA, in 2009. He was a Lead Power Systems Engineer with GE Global Research, Niskayuna, NY, USA, where he developed advanced volt/volt–ampere reactive control and distributed energy resources management algorithms. He holds four patents and several publications in these areas. He is currently the Laboratory Program Manager of Grid Integration with the National Renewable Energy Laboratory, where he is also the Manager of the Energy Systems Optimization and Control Group. He has extensive experience in the advanced grid control and evaluation for future power systems with high penetrations of distributed energy resources. This includes advanced distribution management systems, microgrid applications, and energy storage applications for multiple utilities.