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Practical Applications of Smart Grid Technologies. David J. Dolezilek Schweitzer Engineering Laboratories, Inc. . Improve diversity, availability, and efficiency with information, computation, and communications. Improve Renewables. Increase Storage. Decrease Emissions.
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Practical Applications of Smart Grid Technologies David J. Dolezilek Schweitzer Engineering Laboratories, Inc.
Improve diversity, availability, and efficiency with information, computation, and communications Improve Renewables Increase Storage Decrease Emissions
Improve reliability, stability, and economy with information, computation, and communications Improve Safety Decrease Costs Increase Reliability
Intelligent, Local Observation, Decision, and Action Local Decision Making
Decentralized Communications Via Peer to Peer Shared Decision Making
Automatic Network Reconfiguration (ANR) Includes Isolation, Sectionalization, and Restoration
Isolate Faulted Sections, Restore Unfaulted Sections From Alternate Sources
Finding Faults Faster With Wireless Underground Fault Indication
ComEd Chicago Uses Visual and Wireless Faulted Circuit Indicators
Meters Calculate Line Loss, Control Transfer Switches, Monitor Power Quality
Distributed Energy Resources (DER) Include Wind, Solar, and Waste
Solar Generation Includes Photovoltaic and Steam Turbines PV – Photovoltaic CSP – Concentrating Solar Power
Landfill, Coal Mine, and Dairy Farm Methane Becomes Fuel CH4
Fiber Process Bus • Publish / subscribe SV and GOOSE • Hybrid Process Bus • Publish / subscribe GOOSE • Analogs via CCs
No Building Needed Faster Installation
