Editor’s Note: This is a guest contribution by Nancy Gioia, Ford’s Director of Sustainable Mobility Technologies and Hybrid Vehicle Programs.
It’s clear electric vehicles (EVs) will be part of the transportation mix of the future.
President Obama has set ambitious goals for wide-scale adoption of EV technology. Advances in battery technology will help bring more electrified vehicles to market for consumers and the desire to reduce CO2 emissions has increased attention on transportation alternatives like electric vehicles and plug-in hybrids.
Setting its sights on the burgeoning US market for car batteries, cutting-edge Swiss zinc-air battery company, ReVolt, has decided to take advantage of Oregon’s generous business tax credits for development of next generation car technologies.
With $99.8 million from the Federal Government, ECOtality is on a mission to make America plug-in ready.
There’s been a tremendous flurry of activity in recent weeks with President Obama’s announcement of $2.4 billion in grants to accelerate the manufacturing and deployment of the next generation of U.S. batteries and electric vehicles. We at ECOtality and our subsidiary Electric Transportation Engineering Corporation (eTec) are thrilled to be a part of that activity as the recipients of $99.8 million grant for the largest electrification transportation project in history.
Our history in electric transportation dates back to 1989 and we have worked on every EV initiative in North America since then. Today, through our grant from the federal government, we’re embarking on an exciting project to truly make America plug-in ready: we are partnering with Nissan to deploy 5,000 zero-emission battery electric vehicles and 12,750 charging stations in five markets across the United States.
Entrepreneurs have begun to retrofit ordinary combustion vehicles into all-electrics or plug-in hybrids. Here’s why this could be the “big fix” that the auto-industry needs.
Are we stuck with our oil addiction? What if millions of our middle-aged vehicles could be reincarnated as superior versions of their youthful selves, while developing new revenue streams for Detroit? What if that “fix” could start reducing the billion a day we spend on imported oil, while creating tens of thousands of local jobs in communities and cutting greenhouse gases from fossil fuels?
Automakers could do all this—by thinking of vehicles as upgradable high-tech products. For example: A pioneering Chicago startup makes a prototype Ford F-150 pickup with an all-electric range of 30 miles per charge. After that it’s a hybrid, boosting the best-selling truck’s 15 city miles per gallon to 21.
Editor’s Note: This is a guest contribution by Elaina Medina of Portland General Electric.
This week Portland General Electric welcomed news it was named a strategic participant and Oregon was named one of five test markets for the largest rollout of EVs and an associated charging station network in U.S. history.
For a city with so many amazing trees, Portland is getting ready to add a bunch of new LEAFs to our streets.
No, that’s not a typo. I’m talking about the LEAF, Nissan’s just-unveiled electric vehicle, which is set to hit dealerships in the fall of 2010. In our quest to be the nation’s leader in electric vehicle infrastructure, usage and development, the Portland region took a big step forward today with the announcement that Nissan and eTec selected Oregon as one of five test markets for the largest deployment of EV’s and the associated charging station network in American history.
While San Francisco and Portland are each publicly claiming they’ll have the best electric vehicle networks in place in their cities, San Jose may be have made the most progress.
The city of San Jose has installed 7 charging stations so far, including spots at City Hall and a public parking garage. At the charging locations vehicle owners don’t pay for the power; instead they are charged based on the time in the parking spot. To simplify payment, EV owners get a keychain fob that’s connected to their credit card.
Last month, our city council adopted Berkeley’s bold Climate Action Plan. This plan calls for systemic action, by all Berkeley residents and agencies to reduce our city’s greenhouse gas (GHG) consumption by 80% below 2000 levels by the year 2050, and the investment in electric vehicle infrastructure will be a key method for achieving these larger goals.
When it comes to electric transportation, Seattle has a significant advantage.
Our city-owned utility, Seattle City Light, was the first large electric utility in the country to become carbon-neutral using hydropower, innovative energy efficiency solutions, and carbon offsets. When you are driving on City Light electricity, you are truly driving a zero emission vehicle.
As a new generation of electric vehicles prepare to enter the market, cities along the West Coast from Vancouver B.C. to San Diego are taking steps to get plug-in ready. Because of Seattle’s partnership with Nissan, we will be leading the way and expect to be one of the first markets in the country to see Nissan’s highway-capable EV for sale in fall 2010.
“Remarkably Unremarkable” has been the phrase of choice when describing how the Chevy Volt prototype drives.
And that’s really a compliment, since the car was engineered for consumers who won’t accept compromise, even for a an electric car.
I got a chance to drive the Chevy Volt prototype on June 8th, and although the test model was still housed under a Chevrolet Cruze skin, it gave me a good feeling for what the final version will be like.
Chevy Volt Test Drive
The interior of the Cruze doesn’t do the car justice, at least in terms of space and aesthetics. The center divider seemed poorly fitted for the Volt’s T-shaped battery pack that runs the length of the car (which also precludes a 5th seat in the prototype and final versions). Frank Weber, who accompanied me on the the 45-minute drive, said that everything about the interior would change for production.
