It was on July 23, 1900, that R. Hopkins’ battery-powered car rolled into Seattle, says HistoryLink.
Hopkins got a lot of mileage out of his three-horsepower, battery-powered Woods Electric. He bought it in Chicago, drove it to San Francisco–that took five months–then traveled up to the Northwest, through Portland and Tacoma, on his way to Seattle. (The photo above was taken in 1916, so he got his money’s worth.)
He may well have been the trendsetter who introduced the Northwest to the joys of driving on unspoiled beaches. (In Washington, per Wikipedia: “ocean beaches are legally state highways with a general speed limit of 25 mph.” The more you know.)
Did you know that around 1899 to 1900, electric cars were the top-selling variety, beating out gas and steam? They were quiet and didn’t require you to mess with a gear shift (unlike gas) and you didn’t have to wait around for the steam pressure to build up on cold mornings.
Sure they only went about 20 miles on a charge, but for heaven’s sake, who would need to go farther than that? (If you did want to, you’d do what Hopkins did, and put your car on the train.) Woods Electric was in business for about 20 years.
MOHAI has a few different photos of Seattle’s electric car past–the electrics were popular with women drivers. Here’s an advertising image from 1917, illustrating how the discerning Capitol Hill resident got around.
If an alternate Rip Van Winkle woke up a century later in Seattle, he might be surprised by many things, but not necessarily that we’re overrun with hybrids, or by the Tesla showroom, along with a growing number of recharging stations. What might make him scratch his head is learning about how everyone switched to gasoline.
What was that all about?
It just goes to show that you never know. Yes, electrics are seeing a resurgence, but thanks to the U.S.’s success with fracking natural gas, so are natural-gas-powered vehicles. There are 130,000 or so driving around, says the New York Times. Notes The Economist approvingly, “Gas at $2.50 mBtu is the equivalent of a barrel of oil at $15 rather than $100.” That’s why it’s been suggested that the ferry system convert to natural gas.
Move over, Nissan Leaf! Mitsubishi’s all-electric “i” is going on a test-drive tour to flaunt its lower cost: after your federal tax credit of $7,500, just $21,625 for the ES model ($23,625 for the SE). That makes it “most affordable 100% electric-powered mass-market production vehicle available in North America,” say the bean counters at Mitsubishi. See the locations and times of its local “appearances” at the end of this post.
If for some reason you didn’t collect a federal tax credit, you’d shell out $29,125 for the base model. (Less the tax credit, Tesla’s Model S, by contrast, rings up for about $50,000.) How does the i compare to the Leaf? Well, don’t visit the Leaf’s site to find out. It’s a hideously useless “online experience“–I clicked around it for five minutes unable to find estimated charging times. Go to Wikipedia for better information.
That said, the Leaf’s sound system seems superior. The i’s interior styling is “Euro-classic”–with the dials dialing back on computer animation. The rear seats fold down to create more cargo room (as does the Leaf’s). It uses regenerative braking to add power back. For the doubters, there’s an 8-year / 100,000-mile limited battery warranty.
As of tomorrow, when it will be in Redmond, until this Sunday, when it will be in Issaquah, the i is visiting the Seattle area, and ready for your hands-on inspection. You can even take it for a test drive–but not for more than 62 miles presumably, because that’s about how far it’s rated to go on a charge in “real world” conditions (also similar to the Leaf).
What makes it go, you ask. And how fast? Well, the people at Mitsubishi are happy to tell you.
[T]he rear-wheel drive vehicle’s drive system includes a 49 kW (66 bhp) AC synchronous electric motor; an 88 cell, 330V lithium-ion battery pack for a peak storage of 16 kWh; and a single fixed-reduction gear transmission. This electric motor is capable of producing its peak torque of 145 lb.-ft. almost instantaneously when accelerating from a standstill; the vehicle has a top speed of approximately 80 mph.
The i can be recharged three different ways, though one option is for the most patient among us. Plugging it into a standard 120-volt wall outlet at your home takes some 22 hours to get from E to F. More likely, you’d purchase a 240V/15A Level 2 home EVSE Eaton charging system (estimated max. charge time: 7 hours), which by the way, comes with a $1,000 tax credit.
In and around Seattle, of course, you have your choice of public charging stations. Mitsubishi says a CHAdeMO Level 3 public quick charging station will take just 30 minutes to go from very low battery to 80 percent full (you’d also need an optional DC charging port for your i), but you’re more likely to find 240-volt Level 2s along the highway at this point.
At Seattle City Light residential electricity rates, it should cost you about $220 to drive 10,000 miles, or a little more than 2 cents a mile. Charging rates at city-owned facilities, says Seattlepi.com, have been set by the City Council at $1.50 to $4 per charge.
You should be able to find a Mitsubishi i at local Mitsubishi dealers (and in California, Oregon, and Hawaii) this November.
WED 12-Oct
Redmond Town Center
11am – 7pm
7525 166th Ave. NE Redmond, WA 98052
THURS 13-Oct
Best Buy Everett
10am – 2pm
1130 SE Everett Mall Way Ste A, Everett, WA 98208
THURS 13-Oct
Younker Mitsubishi
4pm – 8pm
3820 E. Valley Road, Renton, WA 98057
FRI 14-Oct
Whole Foods, Roosevelt Square
11am – 7pm
1026 NE 64th Street, Seattle, WA
SAT 15-Oct
Z-Homes
10am – 5pm
Highland Drive NE & NE High Street, Issaquah, WA 98029
SUN 16-Oct
Z-Homes
11am – 5pm
Highland Drive NE & NE High Street, Issaquah, WA 98029
Two Tesla Motors stories surfaced this morning: GeekWire reports that Tesla will be opening a “store” at the Bellevue Square Mall, “on the second level, just north of Center Court.” That will double Tesla’s Seattle-area tireprint–they opened their South Lake Union show room in late 2009.
In contrast, Fortune‘s Alex Taylor III wonders whether Tesla isn’t simply running on fumes at this point. This weekend, Tesla Motors will test drive its all-electric four-door Model S flavors for an eager audience of “reservation holders.” While the price tag for the Roadster ranged from $110,000 to $155,000, the Model S is designed for the masses of less-well-to-do tech titans. The Model S base is supposed to be $57,400 (less a $7,500 tax credit).
Taylor is critical of Tesla’s business plan because of the car maker’s relatively tiny sales goals (20,000 Model S per year), the losses the company has incurred (over $300 million from 2009 to mid-2011), and the challenge it has set itself in producing cars built from the ground up at a faster pace than when Lotus was supplying the chassis.
Still, the “running on fumes” comment displays a mindset that isn’t asking in what ways Tesla isn’t like Detroit. When I picked up my iPad 2, I had a choice between 16GB, 22GB, and 64GB, just as Tesla buyers can choose between batteries with driving ranges of 160, 230, and 300 miles.
Did I really think it cost Apple $100 to add each 16GB of flash memory? Do Tesla buyers really think the extended-range batteries cost Tesla $10,000 or $20,000 to insert? Tesla’s Elon Musk points to the battery options as one of the areas that he hopes to make the Model S profit margin rise to about 25 percent.
Tesla remains a gamble, of course, but when driving range is akin to RAM, this is not your father’s Oldsmobile. Imagine taking your car into the shop and driving back out with a car that goes 60 or 120 miles more per “tank.” That’s fairly disruptive technology.
Down at 435 Westlake Avenue North, there’s an old brick building with big windows that frame a gleaming black Tesla Roadster. Seattle’s Tesla showroom is not particularly conspicuous, but then people with $109,000 to spend on a high-performance electric car probably don’t just pop in off the street.
Up close, the Tesla Roadster resembles nothing so much as your childhood electric race car come to Lotus-inspired life. Low-slung, it accelerates from 0-60 in 4 seconds, says Car & Driver, thanks to a single-speed gear reduction transmission, carbon fiber, and a motor that (in the even pricier Sport model) achieves 288 horsepower.
In EPA theory, you can also drive 248 miles on a single charge, though as with any car, mileage may vary, even if you’re the co-founder. Then, C&D says, “Using Tesla’s special $3000 70-amp, high-capacity charger, the car will tank up in fewer than four hours. On our $19 Home Depot do-it-yourself kludged-up 240-volt, 40-amp garage charging circuit, the Tesla needed eight hours for a full zero-to-hero charge-up.”
If you’re asking yourself who drops $110,00 (Roadster, base) to $155,000 (Sport, loaded) on an electric car, Genny Carter, Tesla’s Seattle store coordinator, says car collectors, technologists (from Microsoft), and sports car aficionados are among that group. But also, she says, “we’ve had environmentalists, people who have never paid more than $40,000 for a car in their lives, walk in to order one.”
That last demographic may be more interested in the Tesla Model S, a sedan that’s supposed to arrive on showroom floors in 2012. After a tax rebate, the Model S should sell for around $50,000. It’s still very fast–reaching 60 mph in under six seconds, and topping out at 120–and it will come with three battery packs that allow different driving ranges (160, 230, or 300 miles), and recharge in as little as 45 minutes.
UPDATE: Tesla says it’ll be ceasing production of the Roadster to focus on the Model S.
Still, since Tesla has sold some 1,650 Roadsters through March 2011, you could fairly say that the company has been far more successful in creating publicity than cars. In the Revenge of the Electric Car documentary, a thrilling inside-the-conference-room follow-up to the more pissed-off Who Killed the Electric Car?, Tesla and its charismatic founder Elon Musk get equal time with GM and Nissan, but the investment and market-share of the latter two are worlds away.
GM’s Volt sold 1,200 units in the first quarter of 2011. Nissan Leaf sales are expected to reach 10,000 in the U.S. alone, by the end of 2011. That’s with price tags of $40,000 and $33,000, respectively, after tax rebates. And this just in: “Ford Motor Co. plans to add 220 jobs at plants in Michigan as it triples production of electric vehicles to 100,000 annually by 2013.”
Seattle residents driving electric cars can “fill up” away from home at a growing number of recharge stations: Vulcan just opened 24 at eight locations in South Lake Union this June. (The DOE map of recharging stations needs a big update.)
In Seattle, recharging is mostly guilt-free, ecologically speaking, since so much of our electricity comes from hydropower. Over at Sightline, Clark Williams-Derry recently compared the Leaf with hybrids, to see how the fuel economy and carbon emissions fared:
Personally, I think that the “right” way to think about the Leaf in the Northwest is the bar in the green: the marginal carbon emissions. And on that measure, the Leaf is a lower-carbon vehicle than the Prius. In fact—and purely coincidentally—the Leaf’s emissions work out to be just about the same as its EPA rating: the equivalent of a gas-powered car that gets about 99 miles per gallon.
But, elsewhere, a major caveat: “coal-fired power negates all of the climate benefits of electric cars.” You might as well drive a good mileage gas-powered car, concludes Williams-Derry, if you’re getting your electricity from coal.
That’s in reference to the current state of things, I imagine. It is possible to capture more CO2 from burning coal than we do. A point that both Revenge of the Electric Car and the Seattle Electric Vehicles Association‘s Steven Lough make is that, all things being equal, rather than have 250 million passenger-vehicle CO2-emission points, it’s a lot easier to corral the CO2 at the substantially fewer generation points. It’s probably safe to say that for many electric vehicle owners, this car will be the first that pollutes less the longer they drive it.
Lough advocates not waiting for the major car manufacturers to lure you into the electric vehicle you’ve been waiting for: The cost to convert your existing gas-powered car to pure electric (replacing motors) is less than $13,000, while your annual electricity costs could be something less than $280. (A back of the envelope calculation for $3.50/gal. gas is $1,400 per year.) If you’re a real environmentalist, he points out, you can’t overlook the benefits of recycling your existing car, can you?
There’s another benefit to electric car purchase, too: The money you spend on electricity in Seattle tends to stay in Seattle, which is not what happens when you fill up with gas. Around here, the more people switch to electric cars, the more money they save, and the more money Seattle City Light gets to fund its investment in alternate energy sources. Add solar power to your home’s roof, and the virtuous circle improves in strength.