By John Addison (8/20/09).
The new freeway-speed electric cars will also be intelligent. They will be smart about using energy inside the vehicle so that it can go 100 miles between charges. The plug-in electric vehicles (PEV) will be smart about navigation options that consider your preference for getting somewhere fast or traveling with minimal energy use. PEVs will be full of electronics to entertain passengers, like kids in the back seat.
They will be smart about charging to meet driver preferences for saving money or charging more quickly. Smart electric vehicles ideally use a smart grid for charging. The electric utilities see the electric vehicle as part of the new smart grid which uses information technology to make the electric grid efficient, reliable, distributed, and interoperable. Years ago, mainframe computers with dumb terminals gave way to network computing. Similar improvements are now underway with the electric grid.
At the Plug-in 2009 Conference and Exposition in Long Beach, I joined thousands in seeing new electric vehicles, new smart charging stations, and joining presentations by leading auto makers, utilities, early fleet users, and sustainable city leaders from Southern California Edison, SDGE, AQMD, EPRI, and many others.
At the Plug-in Conference, the new Nissan Leaf got a lot of deserved attention. By the end of 2011, Nissan may deliver as many as 10,000 of these. Most will be delivered where utility and other partners have committed to complete programs to install garage, employer, and other public charging stations.
The new 2010 Nissan Leaf is a comfortable compact hatchback that seats five. Smarticd’s test drives of Nissan EV prototypes demonstrated plenty of acceleration. The Nissan Leaf is powered by 24kWh of lithium-ion batteries. The Leaf has a range of about 100 miles. In 8 hours you are good for another 100 miles with a Level 2 AC200V home-use charger; in 26 minutes you can be 80 percent charged with a Level 3 DC 50kW quick charger.
Transportation expert, Antonio Benecchi a Partner with Roland Berger forecasts that plug-in hybrids and electric vehicles will capture 10 to 20 percent of the auto market by 2030. The speed of adoption will depend on cost and early customer experience. If the lifetime cost of owning and operating an electric vehicle is less than a comparable gasoline powered one, 20 percent could be low by 2030.
When you get an iPhone, Nokia, or Blackberry, the cost of the smartphone depends on the type of subscription plan you have with the wireless carrier. Similarly, over the next few years, automakers and their partners may explore different business models such as:
· Vehicle purchased with battery leased
· Vehicle, battery, and energy for charging are all subscribed
· EV and charging are part of carsharing plans
· Integrated mobility offerings will include an EV
For example, the Nissan Leaf might be offered by a dealer for under $30,000 with battery and charging offered on a subscription plan by Better Place or various electric utilities.
If charging and subscription plans are kept simple, consumers will love it. If consumers must sign for different plans as they go to different cities, EVs will be a turn-off. Early cell phone users rebelled against complicated plans and big surprise “roaming” charges.
Standards are being put in place so that auto makers, charging station providers, and electric utilities will be compatible. A key standard is automotive SAE J1772, which standardizes the electrical connection, current flow, and some communication between smart vehicle and smart charger. This standard is compatible with important advanced metering smart home electric standards such as Smart Energy 2.0.
EV customers will be able to check on how much their EV batteries are charged through a web browser, their smart phone, or by looking at their vehicle dash. The networking and software is there, so that they could look at monthly vehicle use and charges.
Electric utility operators will be able to track, manage, and forecast EV electricity use thanks to smart charging stations with electric utility meter chips built in such as and ETEC, who has already installed over 5,500 charging stations. ETEC will be installing over 12,500 new charging stations thanks to a matching grant of almost $100 million from DOE.
I am on the wait list to buy the Nissan Leaf. When I get a new EV or PHEV, I would be glad to agree to a subscription plan that would save me $100 per month if I would agree to have my vehicle not charge during peak-demand hours. We’ll see if I am given that kind of option. Thanks to software services from and others, the technology is there to plug-in and having charging managed by user preferences and subscription agreements.
Utilities could shape demand to off-peak. Utilities could use EVs for spinning reserves and peak power using vehicle-to-grid (V2G). Dr. Jasna Tomic with CALSTART estimates that the national grid would only need 7 percent additional capacity to off-peak charge 100 million electric vehicles. Those same vehicles could provide 70 percent of the national grid’s needed peak power. Smart grid upgrades, customer price signals and subscription agreements could enable growing use of V2G in the coming decade.
Smart vehicles and smart grids create a trillion dollar opportunity for incumbents and innovators. The opportunity has attracted GM, Ford, Toyota, Nissan, and hundreds of other auto makers. It has attracted the world’s largest electric utilities and grid operators. This smart grid “Internet” for electricity now has devoted teams inside IBM, Google, Cisco, Microsoft, and other information technology giants.
Intelligent electric cars are symbiotic with the smart grid. The communication technology is here. It is the business models and customer experience that count. Get ready for the most comfortable and intelligent ride of your life.