Microgrids and Infrastructure Resiliency

1. Microgrids and Infrastructure Resiliency RPI Microgrid Workshop Stuart Nachmias October 10, 2013

2. Consolidated Edison, Inc. Con Edison Company of New York (CECONY) • 3.3 million electric customers • 1.1 million gas customers • 1,717 steam customers • Peak demand: 13,322 MW (7/19/2013) • Load density • CECONY: 22 MW/sq mi • Manhattan: 146 MW/sq mi CECONY and O&R delivered 43% of NYS 2012 electric peak consumption Orange and Rockland (O&R) • 303,000 electric customers • 131,000 gas customers • Peak demand: 1,617 MW (8/2/2006) 2

3. Avenue D at East 14th Street

4. Battery Park Underpass

5. Overhead Damage in Queens 5

6. Underground Resiliency 6

7. Traditional grid structure Future grid structure The Utility of the Future Solar PV Smart building technology Sensors and monitoring Electric vehicles Sensors and monitoring Customer-sited generation Customer-sited generation • Customers receive electricity • Dedicated networks with limited resources • Grid as a sole source • Real-time data/control • Customers receive/feed electricity • Networks with shared assets and layered customer resources • Grid as a sole source, back-up, and two-way flow • Increased real-time data/control

8. Con Edison Smart Grid Strategy Distribution Automation 82% • Expand T&D Smart Grid technology with proven benefits • DOE Stimulus Smart GridInvestment Grant Projects • Continue to develop / demonstrate emerging Smart Grid technologies with less certain benefits • DOE Stimulus Smart Grid Demonstration Projects 8

9. Smart Grid Investment Grant Flushing Network • Installation of underground autoloop and underground wireless controlled switches • Reduces severityand likelihood of a network event • Increases flexibilityduring contingencies Sub - Network A Sub - Network C Sub - Network B Substation 9

10. Smart Grid Demonstration ProjectInteroperability of Resources • Con Edison Distribution System Status integrated with Customer Resources • Targeted Demand Response from the following • Building Management System (BMS) • Controller Connected to Standby Diesel Generator • Controller Connected to Electric Vehicle Charger with Standby Battery and PV Generation • ThinkEco Modlets Visualization Platform

11. Utilize Latest Technology Harden Components Mitigate Impact Facilitate Restoration Smart Grid and Resiliency Converge Micro-networks

12. Overhead Resiliency 12

13. Overhead Distribution InitiativesPatented Enhanced Autoloop RADIO RADIO FEEDER F1 MIDPOINT STATION BREAKER FEEDER 1 CONTROL CENTER Before RADIO TIE RADIO STATION RADIO RADIO RADIO MIDPOINT FEEDER F2 STATION BREAKER FEEDER 2 EMERGENCY FEEDER F3 BACKUP RADIO RADIO FEEDER F1 MIDPOINT STATION BREAKER FEEDER 1 After RADIO TIE RADIO RADIO RADIO RADIO MIDPOINT FEEDER F2 STATION BREAKER FEEDER 2 Smart Switch EMERGENCY FEEDER F4 BACKUP 13

14. Microgrid Vision • Hybrid utility grid solutions • Micro-networks paired with local generation sources • Spot networks with mobile generator back-up • Benefits • Support customer and community needs during emergencies • Manage customer demand during peak periods • Manage utility investment needs Solar PV Smart building technology Sensors and monitoring Electric vehicles Sensors and monitoring Customer-sited generation

15. Microgrid Challenges • Customer goals • Load density • Developing the business case • Regulatory framework

16. Next Steps for Con Edison • Continue to evolve smart grid investments • Seek funding to develop initial microgrid projects • Identify technical and business issues • Examine regulatory models and experiences • United States • International