EPRI launched an industry-wide “transmission efficiency” collaborative with a group of utilities and transmission system operators.
- Application of ACSRTW Conductor for a 345-kV Line
- Application of ACSRTW Conductor for a 765-kV Line
- Use of Energy-Efficient Substation Transformers
- Energy Loss Savings with PATH Project
- Switching or Cycling Equipment Not Needed for Current Operation
- Exploring Benchmark Efficiency for Substation Transformers
- Ground Wire Loss Reduction
- Application of Advanced Conductor ACSSTW for 345 kV Transmission Line
- Application of Shield Wire Segmentation for 345 kV Transmission Line
- Application of ACSR Trapezoidal Wire Conductor for a 500-kV Transmission Line
- Incorporation of Efficiency in the Generation Economic Dispatch
- Design and Control of Transmission Network to Reduce Fault Currents and Improve Efficiency
- Improving Energy Efficiency of Substation Auxiliary Systems and Operations
- Evaluation of the Use of Power Flow Controllers to Improve Transmission System Utilization and Energy Efficiency
- Reactive Power Forecasting to Assist in VAR Planning
- Hierarchical, Dynamic Voltage Control to Improve Transmission System and Utilization
- Substation Siting with Transmission System Efficiency Consideration
- Control of Reactive Power Sources for Improving Voltage Profile and Reducing Losses
- Improving Energy Efficiency of Existing Substation Auxiliary Systems
- Improving Energy Efficiency of New Substation Auxiliary Systems
- Dynamic Voltage Compensation to Improve Transmission System Efficiency and Utilization
- Use of Storage Technology for Improving System Utilization and Optimizing Operation of Renewable Resources
- Wind-Integrated, Security-Constrained Economic Dispatch (SCED) to Improve System Utilization and Optimize Renewable Generation Resources
- Application and Evaluation of Advanced Tools and Techniques to Dynamically Monitor Transmission Lines at NYPA
- Hierarchical, Dynamic Voltage Control to Improve Transmission System and Utilization
- PMU-Enabled VoltVAR Control at Devers Substation
- Integrated Resource Planning to Improve System Efficiency—Generation Siting with Efficiency Consideration
- Voltage Control Optimization to Help Reduce Transmission Losses
- Transmission Line Rating Optimization Through Weather and Rating Analysis
- Voltage Control Optimization to Improve Transmission System Efficiency
- Improving Energy Efficiency of New Substation Auxiliary System
- Improving Energy Efficiency of Existing Substation Auxiliary Systems (TVA)
- Improving Energy Efficiency of Existing Substation Auxiliary Systems (We Energies)