Download presentation
Presentation is loading. Please wait.
Published byBrice Ambrose Boyd Modified over 9 years ago
1
Electric Vehicles: Assets on the Grid Modern Engineering & Technology Seminar Taipei, Taiwan Nov 11-14, 2012
2
Plug-in Vehicles
3
Vehicle Electrification Reduce tailpipe pollution Reduce CO2 emissions Reduce petroleum dependence Source: Union of Concerned Scientists, 2010 U.S. data
4
Electrification Technology
5
Fleet Electrification 1.0 mil PEV sales Projection
6
Where are we today? By 2014 most OEMs will be selling EVs People who drive them like them Fleets want them Costs are coming down EV market ready for growth
7
Early Adopter Clusters Demographics State or municipal incentives Climate Geography Transit alternatives In near term, EV market share of 1% nationally may be as high as 10% or 15% locally.
8
Sooner Rather than Later… EVs may burden the grid with new concentrated loads that overlap with peak demand Or they may provide versatile, flexible, distributed, low-cost energy storage and dispatchable power The outcome will depend on how automakers, generators, battery suppliers, utilities, regulators, customers, and innovators meet the challenge of integrating EVs and the power grid.
9
Need for Vehicle-Grid Integration To synergize EVs and the grid using innovative systems for communication and control. EV Grid Mission Statement:
10
Battery Systems
11
Battery Cells – The Elements Li Ion 18650 cellLi Ion pouch cell
12
Battery Monitoring - Key Technology Battery Management monitor each cell voltage temperature control charge control discharge maintain balance record use data
13
Cells in series and parallel Battery monitors Provisions for mounting, interconnection, thermal control Unit of assembly and repair Battery Modules – The Building Blocks
14
Battery Pack – Electricity on Wheels Li Ion pack for vehicles 1 vehicle: 30 kWh 17 kW chg/dischg 1000 vehicles: 30 MWh 17 MW chg/dischg
15
EV Integration With the Grid
16
Renewable Energy for EVs
17
Buffered Renewables on Grid
18
Battery Storage Distributed on Grid
19
Bi-Directional Charger 2-way charger allows power flow from vehicle to grid
20
Battery Storage Distributed in EVs: V2G 100 EVs = 1 MW
21
The Grid - Sept 2012 baseload generation + load-following generation
22
The Grid - Sept 2022 RPS => 33% renewables
23
The Grid - Sept 2022, Net Demand load-following: more variation, steeper slopes
24
The Grid - Sept 2022 + 1 mil EVs load-following: worse with uncontrolled EVs
25
The Grid - Sept 2032 + 25% EVs load-following: impossible with uncontrolled EVs
26
The Grid - Sept 2032 + 25% EVs + V2G load-following: normalized with integrated EVs
27
Vehicle-Grid Integration Today
28
Three concepts for battery on grid: Dedicated stationary battery for grid support Sequential use of EV batteries (1 st use car, 2 nd use grid) Concurrent use of EV batteries (vehicle-to-grid or V2G) Each can provide equivalent value to grid at similar scale All require proof of concept: Aggregation and control Fixed costs Operating economics Consensus: Battery On Grid Has Value
29
1995 Amory Lovins proposes baseload grid power from FCEVs 1997 Kempton (University of Delaware) and Letendre first paper on vehicle-to-grid 2001 AC Propulsion first test bi-directional AC150 Gen 2 2001 DaimlerChrysler - “We can use the energy unit in this car for homes.” 2001 EPRI: “The Car of the Future May Help Power Your Home” 2002 General Motors – Grid connection for fuel cell cars 2002 AC Propulsion demo of grid regulation by EV 2003 AC Propulsion demo of grid-tied and stand-alone power from PHEV 2004 SCE, Austin Energy discuss a 2nd generation of connected cars with V2G 2005 Seattle Electric Vehicle to Grid Forum 2006 GM, Delmarva, UDel, AC Propulsion discuss future of V2G 2007 PHI, UDel demonstrate live grid regulation with eBox at FERC, Washington DC 2008 eBox does V2G at Plug-In 2008 Conference – (July, 2008, San Jose, CA) 2009 fleet of 5 eBoxes operates in revenue generating V2G mode in PJM grid 2010 development of SAE J1772 compliant, V2G-capable EVSE 2011 NRG and UDel launch eV2g 2013 Grid on Wheels: 300 kW V2G fleet in Delaware V2G: A Maturing Concept
30
V2G – Extracting Value from Batteries Battery value is based on – Availability – kWh throughput With V2G, battery generates two value streams 1.Transportation – Range – Readiness 2.Grid support Readiness Response
31
Transportation Driver pays for use of battery for driving Grid support Utilities pay for ancillary services Generators pay for buffering PV and wind Loads pay for peak shaving With V2G, battery generates two value streams Battery Sharing Reduces Cost
32
Battery cost reduction to EV operator creates competitive advantage Battery Dominates Comparative Cost
33
Aggregation Thousands of cars One entity to grid Communication and control Grid to aggregator to car Car to aggregator and car to driver Actions and transactions Infrastructure EVSE (car to grid connection) ISO/RTO markets Local entities – codes, tariffs and regulations V2G Value Capture Depends on Systems
35
Internet Grid Operator Power Command Power Response Aggregator $ $ Vehicles Aggregted for Grid Support Financial benefit to driver Driver Preferences Vehicle Status
36
Grid Regulation Ancillary Service regulation drive
37
Regulation Does Not Drain Battery regulation drive EV provides regulation even while charging Battery SOC % Battery Power kW
38
University of Delaware Prof. Willett Kempton’s pioneering work in V2G makes UDel the nexus of the Grid on Wheels Project - a business/academic collaboration
39
PJM Grid Territiory Grid on Wheels will participate in PJM’s hour-ahead reg-up and reg-down markets. PJM: 164,000 MW peak 60 mil population 214,000 sq mi
40
NRG Energy NRG will provide aggregation services, bundling, scheduling, bidding, and fulfilling up to 300 kW of regulation based on available EVs in the Grid on Wheels program. NRG: 25 MW generation eVGo charging networks eV2g EV aggregation services 9/26/11 FOR IMMEDIATE RELEASE NRG Energy, University of Delaware Announce eV2g Initiative to Develop Electric Vehicle-to-Grid Technology - Harnessing electric vehicles as energy storage offsets electricity costs, promotes grid stability-
41
Electric Cars EV Grid will supply 30 MINI Es modifed for V2G and J1772, to operate in fleet service and provide grid regulation as part of Grid on Wheels.
42
Electric Trucks EV Grid will supply all-electric eVans produced by AutoPort Inc. in Delaware. These EVs will operate in commercial fleets in the PJM territory and participate in Grid on Wheels.
43
300 kW V2G Demo Vehicles in fleets Chargers and battery systems Communications and control Aggregation Grid Regulation Ancillary services markets Infrastructure Fleet management
Similar presentations
© 2025 SlidePlayer.com. Inc.
All rights reserved.