Buy A 2012 Ford Focus Electric, Get A Deal On Solar Panels

By Kurt Ernst

From: http://www.greencarreports.com/

Kurt has been fascinated by anything with wheels and a motor for a long time. Growing up, he spent his spare time turning wrenches and pumping gas in... More

All-new 2012 Ford Focus Electric

One of the biggest draws to electric cars, aside from their positive environmental impact, is their relatively low cost of operation.

In many areas, the cost of recharging an electric car is substantially cheaper than the cost of refueling a gasoline-powered car. If you could produce your own electricity, the cost advantages of an electric car would be even more apparent.

Now, thanks to a partnership between Ford and SunPower called “Drive Green For Life,” you can do just that.

Buyers of the 2012 Ford Focus Electric will get special pricing on a SunPower 2.5-kilowatt rooftop solar panel system, capable of generating an estimated 3,000 kilowatt-hours of electricity each year. That’s enough to drive approximately 1,000 miles per month in your Focus Electric free of charge.

We say “free of charge,” but the SunPower solar system is anything but. The 2.5-kilowatt system sized for 2012 Ford Focus Electric buyers has a base price of $10,000, and that’s factoring in federal tax credits. (State and local credits may also be available.)

That price also assumes that modifications to your house or electric service aren’t required. On the plus side, SunPower offers financing on their solar panel systems.

If that kind of money is too much for you, Ford is quick to point out that conventional, 240-volt Level 2 charging stations for the Focus Electric and future Ford electric vehicles can be purchased through Best Buy. They don’t provide free electricity, but they cost substantially less to install.

[Ford]

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VW Unveils its Electric Car: Test Driving the Golf Blue E-Motion

by Brian Merchant

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Photos: Brian Merchant

You probably haven't heard much about Volkswagen's forays into the electric car realm -- frankly, until recently, there hasn't been much to talk about. But that's finally changing, as the world's second largest carmaker just unveiled its Golf Blue E-motion electric car. Slated for a 2014 release, the e-motion will essentially be an electrified version of the popular Golf ("the most successful car Europe has ever seen"). VW invited TreeHugger out to its HQ in Wolfsburg, Germany to take an early model of the Golf E-motion for a spin:

Until earlier this year, Volkswagen's electric strategy was vague, always seeming far off on the horizon. But earlier this year, it announced that it planned to roll out a hybrid Jetta in 2012, an electric version of its Up in Europe in 2013, and the electric Golf in the US by 2014. By 2018, VW is aiming to have electric cars comprise 3-5% of its fleet.

The electric Golf will appear generally similar to the standard model that crowds European roadways everywhere (According to my unofficial calculations, about 83% of all cars in Europe are Golfs). The car we drove, in fact, was built with a standard Golf body. Essentially, the aim is to create an electric Golf that looks and feels like the version that the (non-US) world knows and welcomes. And I throw in that caveat because the Golf isn't terribly popular in the United States; it's far less present in the states than cousin Jetta.

As with just about all electric cars, the e-Golf is loaded with torque. It's full of pep, and quick off the line. It handled reasonably well, and was genuinely fun to drive, though it was prone to seize up a bit with too much acceleration. Braking is also a work in progress, as the current brakes displayed too much of that all-too-familiar stickiness that often plagues regenerative systems.

However, that stickiness comes with an upside in this case -- by shifting between D and D3 (and in between) the driver can choose how active the regenerative brakes are, and decide how much kinetic energy will be recovered. In D3, the brakes are extremely sensitive, but you'll send the maximum amount of energy back to the battery. It's a cool innovation (and a technology that's hopefully explored further in the future), and the most revolutionary feature of the electric Golf.

Driving the electric Golf looked and felt something like this:

The Golf gets around 150 kilometers (93 miles) on a charge, and uses a battery consisting of 180 lithium ion cells (holding a charge of 26.5 kWh). As for the rest of the stats, they look something like this:

An interface on the dash intuitively relays how much charge is left, and in the test drive model, all other features remained intact. A VW engineer explained how the instruments work, and outlined how to drive the electric Golf:

The no-frills experience of driving the e-Golf likely stemmed from the early version of the concept, yes, but also certainly from VW's approach to the electric car. Driving the Golf felt a lot like driving a comfortable, utilitarian sedan that you'd driven a million times before. VW isn't trying to create the most exciting, eyeball-grabbing EV on the market -- it's simply providing consumers with a solid, reliable option for its customers demanding electrification.

Complaints aside, it was already a pleasure to drive the Golf, though it was certainly less polished than, say, the Volt, which provided a thoroughly smooth ride. Which makes sense -- the e-Golf has 3 or 4 years to go before its scheduled for production, and the VW engineer said they're still ironing out many of the kinks, the braking among them. But it's a very promising start, and come 2014, folks interested in electric cars can expect another highly practical (and likely reasonably priced) option to be on the market.

The Motorcycle of the Future Has Arrived

• By Chuck Squatriglia
• From: http://www.wired.com/
  

This is the MotoCzysz E1PC. It is electric. It is almost certainly the most advanced motorcycle on the planet. And it is the future.

We told you moto-genius Michael Czysz — pronounced sizz — was building another contender for the TT Zero electric motorcycle race on the Isle of Man. But we caught up with him early in the build and he wasn’t providing details or pics. Now that the bike’s hit the track, Wes Siler of Hell For Leather has all the details on the MotoCzysz E1PC in a piece posted over at Popular Science.

This bike is bad-ass, no two ways about it. It has a custom-built 12.5-kilowatt-hour lithium polymer battery that can be swapped in seconds. The custom-built, oil-cooled motor generates 100 horsepower (continuous) and 250 pound-feet of torque. It all hangs from a custom frame. Of course, it’s got the usual top-shelf hardware. Ohlins. Brembo. You know the drill.

Czyzs and his crew in Portland, Oregon, were literally buttoning the bike up before the first practice session on the Isle of Man, having just gotten the body panels through customs. No one had tested the bike before, but rider Mark Miller smoked the field during practice, finishing more than three minutes ahead of the competition. The bike hit a top speed of 140 mph and lapped the 37.7-mile course at an average speed of 94.66 mph.

For all the high-tech componentry, the E1PC is designed first and foremost as a motorcycle, so it’s meant to be hammered. Many bikes racing in the TTXGP series suffer ground-clearance issues when leaning into a turn, but the E1PC has no such trouble. Siler says riders accustomed to a conventional sportbike will feel right at home on the E1PC.

Take a close look at the pics. You’re looking at the future of motorcycling.

Photos: Amadeus Photography. More after the jump and over at PopSci.

Early EVs Won't Need Many Public Charge Points, Says NYC

By John Voelcker Car Expert

From: http://www.greencarreports.com

January 21st, 2010 New York City often startles people, and it stayed true to form in a recent analysis done by McKinsey & Company for the city's PlaNYC planning group, "Exploring Electric Vehicle Adoption in New York City." In particular, one of the report's conclusions may come as a shock to many electric-vehicle advocates: It turns out you really don't need very many public charging points to get people to use EVs. Over the next five years, the likely early adopters will simply adapt their behavior to the limitations of the EVs: Early adopters do not appear to need a high-density public charging network. While the availability of charging at retail and curbside locations may be reassuring to the average driver concerned about range limitations, the study suggests that the earliest consumers will be willing to change their driving behavior and parking location, given their strong desire to purchase EVs. Thus, a dense public charging network will not be a strong priority for early adopters. Needed: easier installation Instead, it makes more sense to help those early adopters by streamlining the process for installing charging equipment in their homes, apartment buildings, or local garages: Given the likely strong demand among early adopters and the limited short-term supply of vehicles, initial actions would be most effective if they focused on helping early adopters enter the EV market. Survey respondents ... voiced a desire to have a convenient and easy-to-understand process to install necessary charging equipment, at home or in a commercial garage. "Range anxiety" This counterintuitive conclusion flies in the face of the received wisdom, which says drivers will avoid using electric cars unless they can be sure there are public quick-charge stations available wherever they may need them, because "range anxiety" makes them nervous that they'll run out of juice and be left stranded. But at least some EV advocates and urban planners who are now sketching out local and regional networks of EV infrastructure think the report is right on target. People quickly learn their electric car's range, they say, and pick the appropriate vehicle for the day's travel. In multi-car households, many drivers will take a compact car to deliver a kid to school or commute to work. But if there's sports practice after school that requires hauling six teenagers, they'll take the family minivan instead. For "compact car," substitute "electric vehicle," and you see how it works. 100 miles enough Sure, things come up unexpectedly. But in cities and suburbs, it's very rare that short local hops suddenly change to trips of more than 100 miles--the stated range of the upcoming all-electric 2012 Nissan Leaf, to pick one example. And the "range anxiety" concern is only relevant for battery-electric vehicles; both extended-range EVs like the 2011 Chevrolet Volt and plug-in hybrids like the 2012 Toyota Prius Plug-In offer hundreds of miles of range, using their gasoline engines for longer distances. Demand exceeds supply 'til 2015 Among the report's other conclusions: A large group of early adopters will change their behavior to accommodate the limits of early electric vehicles; The number of those early adopters is greater than the likely supply of EVs until at least 2015; It won't be necessary to provide tax incentives or other subsidies to these early adopters, but they would like to be recognized; Charging electric vehicles poses no threat to the stability of the electric grid as long as it's mostly done off-peak (at night); and Collaboration among the City of New York, electric utilities, and automakers will be required to make it all happen. The full 24-page report, prepared under the auspices of the Mayor's Office of Long-Term Planning & Sustainabilityi, can be downloaded from the PlaNYC 2030 section of New York City's website. [NYC.gov]

 Public Charging Station for electric cars, courtesy Mitsubishi Motors
Enlarge Photo

New York City often startles people, and it stayed true to form in a recent analysis done by McKinsey & Company for the city's PlaNYC planning group, "Exploring Electric Vehicle Adoption in New York City."
In particular, one of the report's conclusions may come as a shock to many electric-vehicle advocates: It turns out you really don't need very many public charging points to get people to use EVs.
Over the next five years, the likely early adopters will simply adapt their behavior to the limitations of the EVs:
Early adopters do not appear to need a high-density public charging network. While the availability of charging at retail and curbside locations may be reassuring to the average driver concerned about range limitations, the study suggests that the earliest consumers will be willing to change their driving behavior and parking location, given their strong desire to purchase EVs.
Thus, a dense public charging network will not be a strong priority for early adopters.

 2012 Nissan Leaf, Electric Avenue, 2010 Detroit Auto Show
Enlarge Photo

 Nissan LEAF Charging Port
Enlarge Photo

 Mitsubishi i-MiEV electric car at quick charging station
Enlarge Photo

 PlaNYC: Exploring Electric Vehicle Adoption in New York City, January 2010, report cover
Enlarge Photo

Needed: easier installation
Instead, it makes more sense to help those early adopters by streamlining the process for installing charging equipment in their homes, apartment buildings, or local garages:
Given the likely strong demand among early adopters and the limited short-term supply of vehicles, initial actions would be most effective if they focused on helping early adopters enter the EV market.
Survey respondents ... voiced a desire to have a convenient and easy-to-understand process to install necessary charging equipment, at home or in a commercial garage.
"Range anxiety"
This counterintuitive conclusion flies in the face of the received wisdom, which says drivers will avoid using electric cars unless they can be sure there are public quick-charge stations available wherever they may need them, because "range anxiety" makes them nervous that they'll run out of juice and be left stranded.
But at least some EV advocates and urban planners who are now sketching out local and regional networks of EV infrastructure think the report is right on target. People quickly learn their electric car's range, they say, and pick the appropriate vehicle for the day's travel.
In multi-car households, many drivers will take a compact car to deliver a kid to school or commute to work. But if there's sports practice after school that requires hauling six teenagers, they'll take the family minivan instead.
For "compact car," substitute "electric vehicle," and you see how it works.
100 miles enough
Sure, things come up unexpectedly. But in cities and suburbs, it's very rare that short local hops suddenly change to trips of more than 100 miles--the stated range of the upcoming all-electric 2012 Nissan Leaf, to pick one example.
And the "range anxiety" concern is only relevant for battery-electric vehicles; both extended-range EVs like the 2011 Chevrolet Volt and plug-in hybrids like the 2012 Toyota Prius Plug-In offer hundreds of miles of range, using their gasoline engines for longer distances.
Demand exceeds supply 'til 2015
Among the report's other conclusions:

• A large group of early adopters will change their behavior to accommodate the limits of early electric vehicles;
• The number of those early adopters is greater than the likely supply of EVs until at least 2015;
• It won't be necessary to provide tax incentives or other subsidies to these early adopters, but they would like to be recognized;
• Charging electric vehicles poses no threat to the stability of the electric grid as long as it's mostly done off-peak (at night); and
• Collaboration among the City of New York, electric utilities, and automakers will be required to make it all happen.

The full 24-page report, prepared under the auspices of the Mayor's Office of Long-Term Planning & Sustainabilityi, can be downloaded from the PlaNYC 2030 section of New York City's website.
[NYC.gov]

Forget the Tata Nano, Oklahomans can get a new electric car for $865!

by Jeremy Korzeniewski

When automotive talk turns cheap, the most common vehicle that comes up is the Tata Nano, which currently holds the title as the Cheapest New Car in the World and is only available in India. So, Americans, how would you like to snag a brand-new electric car for the low, low price of just $865 right here in the United States? If you happen to live in Oklahoma, you can do just that... sort of.

There's plenty of fine print, naturally. For instance, the electric car in question, the Kandi Coco, is really a Low Speed Vehicle (or LSV) that is capped by law to a top speed of 25 miles per hour and restricted to roads with speed limits of 35 mph or less. And yes, it's made in China and looks something like half a Smart Fortwo. Still, the Coco carries an MSRP of $10,599 and you may be able to score one dirt cheap thanks to a couple of available state and federal rebates.

The first deduction comes from the federal government and cuts the price by $4,435. Next, the State of Oklahoma deducts another $5,299 from the starting price for a total rebate of $9,734. Do the math, and that equals one Kandi Coco for $865 – but only if you live in Oklahoma, and only if you make the purchase before the end of the year. Now... go out and get that giant red bow before it's too late. And don't forget about the free EV option.


[Source: Kandi via Automobile Magazine]

Brazil’s First Network of Electric Charging Stations Will Be Solar-Powered

Written by Bryan Nelson

The first of many roadside electric charging stations in Brazil is set to be installed in the Barra de Tijuca neighborhood in Rio de Janeiro, and it’ll be solar-powered.

The neighborhood was chosen because it has the highest number of electric motorcycles certainly in circulation. The battery charging point will serve a mainly symbolic purpose at first, “awakening environmental awareness by showing people that it is possible to use energy without harming the environment,” said spokesperson Edimar Machado.

Brazil has been a worldwide leader in reducing the impact of the transportation sector on the environment, with 90% of new cars sold in the country being flex-fuel– capable of running on ethanol or gasoline in any proportion. Now the hope is that they can also lead the world in infrastructure for electric vehicles. Once they become more financially viable, Machado hopes to have an electric charging station positioned every 30km across the country.

That could soon allow every electric motorcyclist the capability to travel the entire length of Brazil’s major roadways if they wanted, even if their battery length is only around 40km, like most of the bikes currently in circulation there. Machado also suggested that used batteries could be exchanged for already-charged ones at the stations for the same price as a full charge, in case roadsters can’t wait around for the standard 4 hours it takes to charge the batteries. That would make the time it takes to “fill up” your electric vehicle no longer than it would take to fill up a gas tank.

Even better, the charging stations will generate their electricity from solar energy. The charging point captures solar energy by means of an array of 28 photovoltaic panels that generate 184 volts of direct current, which is transformed into triphasic alternating current. Output is at 110 or 220 volts [1]. And on days when there isn’t much sunlight, or at night, the stations could still derive electricity from the grid system.

The Brazilian Electric Vehicle Association says the market for electric vehicles is already growing by about 50 percent a year, and with new charging stations located conveniently around town that number is expected to increase dramatically. They also project that electric vehicles will consume barely three to five percent of the country’s total energy in 2030, meaning as the system expands it shouldn’t be a significant strain on the country’s electricity. Meanwhile, car fuel consumption will be reduced by 10 percent.

Although that nationwide system of stations is still far from practical, the implementation of this first station is symbolic of what can be envisioned with the right political will and incentive.

Source: IPS News

Image Credit: Diego_3336 on Flickr under a Creative Commons License

Hummer H3 Plugin Hybrid Gets 100 MPG, Kicks Prius Butt

Written by Jerry James Stone

11
votesBuzz up!

While we wait to see if General Motors will go banko come June 1, Raser Technologies is hoping to change our minds about one of GM’s most iconic offerings: the Humvee.

During the upcoming 2009 SAE World Congress (Detroit, April 20 - 24) the company plans to unveil a Hummer H3 Range-Extended Electric Vehicle (ReEV) prototype. The vehicle is designed, first and foremost, as a purely electric vehicle with a drive train similar to the Voltec system in the Chevrolet Volt.

“We are resurrecting the Hummer,” David West, vice president of marketing for Raser Technologies said, adding that “It’s like a Volt on steroids.”

• » See also: Holy Honda Mod, Batman! Hawk 3-Wheeler looks like Batmobile Meets Rocket
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So far, this zombie Hummer pretty sweet. The modded Hummer gets 268 hp, has a 40 mile all-electric range, and a fuel-efficiency of over 100 mpg.

“We’ve taken the worst environmental offender on the road and made it greener than a Prius,” West told Wired.com.

Seriously, can it really out-green the Toyota Prius?

“Yes,” explains West. “We took the challenge and here it is. The average driver starts off with a full charged battery with a 40 mile battery range. 75-percent of consumers live within that range and drive less than 40 a miles a day. So most people will never hear the gas engine come on.”

GM probably hopes so. GM was topdog for over 70 years until 2007 when they were surpassed by Toyota as the world’s No. 1 automaker.

“We are excited to be able to demonstrate an electric powertrain for larger vehicles such as trucks and SUVs,” said James Spellman, Vice President, of Transportation for Raser Technologies. “These are the best selling vehicles in America and can benefit the most from increased fuel economy and reduced emissions.” He went on to say, “Unlike the Prius, which is a mild hybrid vehicle, an eco-friendly SUV will get people’s attention.”

The vehicle is propelled by a 200 kW Symetron Enhanced AC induction motor hooked directly to the transmission, which is still connected to the all-wheel-drive system. According to Raser, it’s one of the most powerful passenger vehicle electric motors offered today and the whole system has near zero emissions. Also, the traction motor will support regenerative braking.

“If we put this powertrain in smaller vehicles down the road,” West said, “you could expect about 400 miles per gallon for the average (city) consumer.”

The V-8 combustion engine has been replaced by a small stand-alone 4 cylinder 2.0L engine which is only connected to the 100 kW Symetron PM Synchronous generator, and not the drive system. The engine is used only generate electricity and recharge the batteries when the vehicle drives beyond its 40 mile battery range and the lithium ion batteries are spent.

Three liquid cooled lithium ion battery packs are mounted between the frame rails and can be charged with a standard 110-volt household outlet. For a quicker charging 220-volt outlets are also supported. A full charge will take between 3 and 10 hours.

This plugin hybrid drive-system was designed by Raser Technologies, but developed by FEV, Inc. But is a 100 mpg Hummer enough to change the minds of the 30,000 industry specialists, engineers and business leaders who will be attending SAE?

No gas is used up to 40 miles. At 50 miles a day, the vehicle would still get 185 miles to the gallon. For 60 it’s 100 miles per gallon and over 200 miles the miles per gallon goes down to 33.

“Our goal in exhibiting this particular vehicle is to demonstrate that electric vehicle technology is a viable solution for a variety of vehicle platforms,” said Gary Rogers, FEV, Inc. president and CEO. “Needs of consumers will continue to vary, and the Hummer range-extended electric vehicle shows that fuel economy does not necessarily mean sacrificing power and utility.”

As of yet, there has been no talk of funding but I suspect that will come up during SAE. Raser hopes to have 2,000 of these things on the road by the end of 2010. Wired.com reports that Pacific Gas & Electric has already requested two of them.

Hey, only 1,998 more to go!

The Nano, The World's Cheapest Car, Debuts in India

By JYOTI THOTTAM / PUNE Tuesday, Mar. 24, 2009

The Nano is tested at Tata's factory in Pune, India on March 15, 2009

Michael Rubenstein / Redux for TIME

In New Delhi in the early 1970s, my family traveled by scooter in the classic, death-defying Indian fashion. My father would drive, with me, a toddler, standing in front gripping the handlebars and my mother seated pillion, my infant sister in her arms. My father was a civil engineer and my mother a nurse, and in India at that time, cars for a young family were far out of reach.

More than 30 years later, I recently listened to Ratan Tata, chairman of one of India's largest companies, describe a family just like mine as the inspiration for the Nano, the ultra-cheap "people's car" that Tata Motors officially launches today. "What sparked it off was riding in a car and looking at them and saying, 'surely there's a safer way that these people can be transported,'" Tata recalls. (See the dozen most important cars of all time.)

That incident was the beginning of a six-year quest by Tata Motors, India's largest automaker, to develop a car for the common man costing less than Rs 100,000 (about $2,000), roughly the same price as a motorcycle. Many thought Tata was bound to fail, that a car so cheap wouldn't be much of a car at all. The Maruti 800, India's best-selling sub-compact, costs almost twice as much. The chairman of Suzuki Motor, Osaka Suzuki, once said: "Tata will not be able to make a one-lakh car." (Lakh is an Indian word for 100,000.)

The company has proven the doubters wrong. The Nano is going on sale at Tata's 470 outlets in India; the base model does indeed carry a sticker price of Rs 100,000. Now, with global car sales in the worst slump in decades — Tata Motors itself is experiencing financial difficulties — the battered automotive industry is looking to the debut of the world's cheapest car for clues to a future that could revolve around smaller, more fuel-efficient and more cheaply produced vehicles. (See the 50 worst cars of all time.)

In an exclusive March 5 interview with TIME, Tata downplayed the tough market conditions and the impact that sagging consumer demand could have on Nano sales. Although car loans are harder to come by in India due to the credit crisis, the country's economy is still growing. "If I had conceived a million-dollar supercar today, I think you'd have every reason to question whether that's the right product at the right time in the planet that we are living in today," Tata says. The Nano, he argues, is the right car for this difficult time. "What has happened in the changing economic situation globally reinforces, if nothing else, the fact that a low-cost car has a place."

Tata Motors engineers developed the Nano by redesigning every component to minimize cost and weight, while trying to maintain performance and comfort. To see how well they accomplished their mission, I was offered the chance to drive a Nano on a test track at Tata Motors' main plant in the western Indian city of Pune. (See pictures of the Nano.)

The first thing you notice is that the dashboard holds just two gauges: speedometer and fuel level. This is the basic model, and it's stripped down to the bare essentials. But driving the car is surprisingly easy. The gearshift is smooth, the car accelerates adequately and you never feel cramped or low to the ground. The Nano doesn't feel like a cheap, lightweight car that's going to tip over with the first sudden turn.

Outside the Tata Motors facility, our photographer got to drive a fully equipped, bright yellow Nano along the highways, cobbled avenues and side streets of Pune. This car had air conditioning, worth the extra money in India (optional-equipment costs had not been released at the time this was written), but running the aircon sapped some of the power of the tiny, two-cylinder engine. Other drawbacks of the car: The storage space is hard to access because the hatchback doesn't open, the brakes aren't progressive, and the car we drove pulled slightly to the left even though there were just 40 km on its odometer.

Those quibbles are unlikely to make a difference to potential buyers. The Nano's target customers are people riding two-wheelers, and for most of them, this is the only car they could hope to buy. Even without spending anything on marketing so far, Tata executives expect demand to far exceed their initial annual production capacity of 45,000 Nanos. Tata Motors had planned to build about 250,000 cars a year, but the company was forced to shut down its original Nano factory last fall after protests by people displaced by its construction turned violent. That disruption forced Tata Motors to relocate its main Nano production line and delayed the launch. Because plants in Pune and Pantnagar are now producing the car in reduced numbers, the company is bracing for long waiting lists and disappointed customers.

The lower volume means the Nano will do little for Tata Motors' revenue and profits, at least initially. Vaishali Jajoo, a senior automotive research analyst at Angel Broking, an investment firm in Mumbai, says that even at projected output of about 250,000 cars a year, she expects the Nano will add just 3% to annual sales. Because the profit margin on Nano sales is small, "It will take at least four to five years to break even" by recouping development costs, Jajoo says. Fully equipped Nanos have higher margins, but the company has not yet decided how many of those it will produce. A company spokesman declined to comment on analyst reports regarding the Nano's launch, calling them "speculative."

Initially, the Nano will be sold only in India. The company plans to begin selling a European version in 2011. It has no plans yet to export the Nano to the U.S., although that has not been ruled out.

The Nano's slow start comes at a time when Tata Motors is struggling financially due to slumping demand. The company in the quarter ending Dec. 31 reported a $58.5 million loss, its first loss in seven years. Loans for Tata Motor's $2.3 billion purchase of loss-making luxury car brands Jaguar and Land Rover from Ford Motor are coming due. "That's a major cash-flow crunch for them," Jajoo says. Jaguar and Land Rover sales have tanked. The company is pursuing several options to meet its obligations, including getting a bailout from the British government. (Vote for the 2009 TIME 100 Finalists.)

The Nano certainly won't solve Tata Motors' immediate problems. But Tata says he hopes the groundbreaking vehicle will in the long run help redefine not only how much cars cost, but also how they are made. The future of the car industry, he says, lies in design and marketing — not manufacturing, which involves high costs and increasingly can be farmed out to other companies. If the Nano really takes off, Tata Motors may try "distributed manufacturing" — selling Nano kits to be assembled and sold by independent dealers. This, says Tata, would be a step toward fully outsourced manufacturing. "What I tried to describe on the Nano is an attempt to look at that as a business model," Tata says. A new way of doing business may be something the beleaguered auto industry needs even more than a cheap new car.

President Obama Announces $2.4 Billion in Funding for Electric Vehicles

Written by Clayton B. Cornell

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President Obama announced today that $2.4 billion will be made available for the US-based development of plug-in hybrids and electric vehicles.

The fund is intended to spur growth in research and manufacturing of next-generation plug-in hybrid vehicles and advanced battery componenents for electric cars, while creating tens of thousands of US jobs and reducing US petroleum dependence. It should also help meet the President’s goal of putting one million plug-in hybrid vehicles on the road by 2015.

The President made the announcement while visiting Southern California Edison’s Electric Vehicle Center. SCE is one of the largest electric utilities in the country and researches battery-powered and hybrid engines, along with potential impacts of having massive numbers of electric vehicles taking power from conventional utility networks.

This investment will not only reduce our dependence on foreign oil, it will put Americans back to work. It positions American manufacturers on the cutting edge of innovation and solving our energy challenges.

-President Obama

The plan was partially outlined on the Department of Energy’s website:

• The Department of Energy is offering up to $1.5 billion in grants to U.S. based manufacturers to produce these highly efficient batteries and their components.
• The Department of Energy is offering up to $500 million in grants to U.S. based manufacturers to produce other components needed for electric vehicles, such as electric motors and other components.
• The Department of Energy is offering up to $400 million to demonstrate and evaluate Plug-In Hybrids and other electric infrastructure concepts — like truck stop charging station, electric rail, and training for technicians to build and repair electric vehicles.

The money is being made available under the American Recovery and Reinvestment Act of 2009.

Electric Motorcycle Promises 150 MPH

By Ben Mack

A San Francisco startup led by a former Tesla Motors engineer is developing an electric motorcycle capable of 150 mph, a claim that, if true, would make it the fastest production electric vehicle in the world.

Mission Motors unveiled the bike, dubbed Mission One, at the TED conference and said it will begin selling them next year for $69,000 apiece. Although several electric motorcycles have been announced in recent weeks, Mission Motors sticks out because its 12 employees have worked for Tesla, Ducati North America and Intel, and the bike they're building could set a new benchmark for EVs of all kinds.

"As a motorcycle enthusiast and engineer, I knew I could combine my passion for motorcycles with my passion for innovation and create a motorcycle that truly sets a new standard in the perception of electric vehicles," company founder and CEO Forrest North said at the Mission One's launch.

The prototype, wearing bodywork designed by Yves Behar, is based on a Ducati 900 was designed entirely in-house by Mission Motors. Power comes from a 3-phase AC induction motor and a liquid-cooled lithium-ion battery the company claims delivers 150 miles and recharges in just two hours at 240 volts. That climbs to eight hours at 120 volts.

Top-shelf hardware includes Ohlins suspension at both ends, four-piston Brembo brakes and Marchesini forged wheels. The components - and the claimed 150 horsepower - put the bike on par with hardcore sportbikes like the Ducati 1198. That's exactly what North had in mind.

"With Mission One, we're writing the next chapter in motorcycle design, delivering a new riding experience without sacrificing performance or design in a zero emissions vehicle," he said in a statement.

Mission Motors was called Hum Cycles when North launched the company in 2007 after spending a year at Tesla, where he worked on the battery pack that powers the Roadster. Since then he's assembled an impressive team drawn from Silicon Valley and Ducati North America. Vice president of engineering Mason Cabot spent 10 years at Intel. VP of finance Dan Kaplan was CFO of Ducati North America and director of finance at Tesla. Product manager Jeremy Cleland is a motorcycle racer who also has worked for both Ducati and Tesla.

So far the company has raised $1.5 million from investors and capital venture firms like One Earth Capital. As Forbes notes, that won't last long, and Tesla's shown that building a high-dollar, high-performance EV is a tricky proposition. And in addition to going up against startups like Zero Motors and Brammo, Mission Motors will be competing with major manufacturers like Honda and KTM as they develop electric motorcycles.

North says production will begin next year and he's already sold five bikes. The first run is limited to 50 hand-built bikes, which will be followed by a bigger run of 250 before the company introduces a more affordable model.

The company plans to race the bike in the TTXGP, a zero-emissions motorcycle grand prix slated for the Isle of Man, on June 14th.

Photos: Mission Motors

Eliica - 230 mph, 8-Wheeled Electric Car May be On Sale Soon

Elliica is driven by eight 80 hp electric motors and has range of 200 miles.

Eliica Rising

Source: EV Worldwire
Class: PRESS RELEASE

SYNOPSIS: Eight-wheeled electric car continues to pursue speed record and production.

Dr. Hiroshi Shimizu built his first electric car more than 20 years ago, converting a gasoline-powered sedan to electric drive.

An environmental engineer by training, he became increasingly interested in pushing the boundaries of electric car technology; the most recent manifestation being the Eliica, a powerful, eight-wheeled super car with a 230 mph (370 km/h) top speed. Each of the eight wheels is driven by a 60kW (80 hp) electric motor.

First conceived in 2003, Shimizu and his engineering students built a pair of Eliicas for an estimated $320,000. One version is considered a "speed" model; the second, the "acceleration" model. The goal of the Keio University team is to set the world speed record of 400 km/h (250 mph).

Both models utilize lithium ion batteries and have a working range of 200 miles (320 km).

Interest in Dr. Shimizu's efforts apparently has been recently rekindled as the government of Japan recognizes the importance of electric vehicles. The team would like to receive corporate sponsorship to build 200 of the four-passenger vehicles for an estimated price of 30 million Yen or approximately $255,000.

4,000 Electric Vehicles To Be Leased by US Army

by Matthew McDermott, Brooklyn, NY on 12. 1.08

photo: Native American Biofuels

Considering that many of its higher profile vehicles really suck fuel like there’s no tomorrow, you may not think that the US military concerned itself much with reducing fuel usage, but based on a recent announcement that’s apparently not the case.

According to Army Times, the Army will be deploying 800 Neighborhood Electric Vehicles next year for on-base transportation. That will be expanded to 4,000 over the next three years with “at least 10,000 vehicles overall” to be deployed eventually. So, just how much fuel will this save? Read on:

11.5 Million Gallons of Fuel Saved
According to deputy assistant Army secretary for energy and partnerships Paul Bollinger, the 4,000 35 mph electric NEVs will save some 11.5 million gallons of fuel annually. And instead of spending on average $2400 per year on fuel for the vehicles the NEV will be replacing, it will have to spend only $400 for the electricity to power the NEVs.

The electric NEVs will be supplied by E-Z-Go, Native American Biofuels International , and other unspecified sources. The first of the vehicles will be leased on an annual basis from Native American Biofuels. At some point the Army may purchase the vehicles outright. The first of the vehicles are expected to be deployed at Fort Belvoir in Virginia by December 15th of this year.

That’s Less Than a Day’s Fuel Consumption
Good on the Army for thinking about electric vehicles, but to put some perspective on the amount of fuel saved by this move consider this: The yearly savings of all these electric vehicles is less than one day’s overall fuel consumption of 340,000 barrels of oil.

via: Army Times

Neil Young's Lincvolt: An All-Electric 1959 Lincoln Continental Mark IV Convertible

Neil Young has decided to make himself an example of how hybrid electric cars can be produced with existing technology and without the loss of style with his Lincvolt, an all-electric version of the awesome 1959 Lincoln Continental Mark IV Convertible. He's been working with noted alternative energy nerd Johnathan Goodwin and his company, H-Line Conversions, to develop the car, in current form an electric with an on-board compressed natural gas generator. Young wants the 5,000 pound, 19.5 foot long convertible to be an example to everyone that you can convert any car to run cleaner.

LincVolt Makes You Go Hummm

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The Lincvolt will be entered into the Progressive Automotive X-Prize competition and make an attempt at 100 MPG equivalent fuel economy - a far, far cry from the original mileage. You can learn more about the car and see it's live unveil over at the project website: Lincvolt.com. [Telegraph.co.uk]