Thursday, March 31, 2011
Kia Naimo electric concept debuts in Seoul [video]
Korean brand Kia has unveiled the new Naimo electric car concept at the 2011 Seoul Motor Show today.
The Naimo's name is derived from the Korean word 'Ne-mo' which means 'square shape'. And this is one concept which isn't running away from its boxy design. It features no B-pillar and rear-hinged doors.
But the design of the Naimo is influenced by Asian Celadon-style pottery, with its asymmetrical shapes reflected in the roof design of this concept as well as in the dot-styled LED headlamps which also provide an off-center feel to the car. Those off-kilter design cues are meant to contrast with the square shape of the car.
On the inside, things get a little more down to earth with the use of Korean oak for the floor and interior door panels. Korean "Han-ji" paper serves as the headlining and these hand-crafted interior touches are complimented by the off lines of that sunroof design.
Powering the Naimo is a PMSM (Permanent Magnet Synchronous Motor) electric motor with an output of 80 kW (109 PS / 109 bhp) and 280 Nm (206 lb-ft) of torque. Juice is supplied by a 27 kWh lithium-ion battery pack positioned under the rear trunk.
The car rolls on low-resistance tires on 20-inch alloy wheels.
Top speed on the Naimo is 150 km/h (93 mph) and the car has a range of around 200 km (124 miles) on a single charge. A quick-charge system (50 kW) allows the battery to reach 80 percent capacity in about 25 minutes.
Nissan announce LEAF pricing for France
Nissan announced today that the Nissan LEAF will be priced at €30,990 in France, after incentives and including the batteries. The French government's incentive for electric vehicles amounts to 5,000 euros.
The announcement was made at the sixth edition of EVER Monaco, an annual automotive show dedicated to ecological vehicles and renewable energies in the Principality of Monaco, which Nissan is sponsoring this year.
In order to make electric motoring even more accessible to individual customers in France, the compact family hatchback, which has been named European Car of the Year 2011, will also be available through a private finance scheme.
Under this scheme, the customer can choose the offer period (from 37 to 49 months), as well as the amount of their first deposit and optional services such as maintenance or credit insurance. For example, with a deposit of €5,339.44 (after the government's incentive), the Nissan LEAF will be available for just 499€ per month for 37 months. After three years, the customer has the option of keeping the car, trading it in for a new one or handing it back to Nissan.
Order books for the five-seater, zero-emission Nissan LEAF in France will open on April 4. To make a reservation, French customers simply need to go to http://www.nissan.fr/, configure their vehicle and place an order. The quick and easy process requires a fully-refundable deposit of €300.
The Nissan LEAF is powered by an in-house developed compact electric motor and inverter in the front of the car driving the front wheels. The AC motor develops 80 kW of power and 280 Nm of torque, enough for a maximum speed of 145 km/h (90 mph). The electric motor is powered by an advanced laminated lithium-ion battery with a power output of more than 90 kW.
The car has range between charges of up to 175 km, as tested over the New European Driving Cycle (NEDC), enough to satisfy the average daily driving requirements of 80% of European drivers, according to Nissan research.
The Nissan LEAF comes fully equipped with features such as air conditioning, Intelligent Key, Bluetooth connection, a parking camera and a quick charge socket.
Matching the advanced electric drive technology is the Nissan LEAF's advanced on-board IT and telematics systems called CARWINGS. The system provides continuous information to the driver via a 7'' color touch screen, including battery capacity and range, and provides the location of the nearest charging station. Navigation information is continuously updated giving drivers the latest accurate traffic conditions en route. Drivers can also use a PC or smartphone to pre-heat or pre-cool the car and check on battery status.
Nissan LEAF offers particularly low running costs: about €1.9 per 100 km in France compared with about €7 for a similarly-equipped diesel family car.
Deliveries of the car have already begun in Japan, the US, Portugal, the UK and the Netherlands.
This is the third year for Nissan to sponsor the EVER Monaco show. In 2009, the Principality signed a comprehensive partnership with the Renault-Nissan Alliance to deliver zero-emission mobility to Monaco.
Since then, Monaco's charging network has grown from 176 normal charging stations to more that 400 today. The Principality is also installing two quick charge stations capable of charging the Nissan LEAF from zero to 80% capacity in about 30 minutes. Additional measures, such as tax incentives, dedicated parking spaces, preferential access and special parking rates for electric car owners have also been introduced.
Arrest in Renault spy fiasco
A further arrest has been made in a spying scandal that has seriously damaged the reputation of Renault.
The move comes after an investigation by French police concluded that three of Renault’s top executives, fired in January after being accused of selling information on the brand’s electric car programme, are completely innocent.
Private investigator Michel Luc has been charged with fraud and criminal conspiracy. According to the police he received more than €300,000 from Renault’s own security unit for information showing that the three executives had been paid to sell secret information about the electric car programme.
Police have concluded that the information was falsified. Earlier this month Renault’s own security agent Dominique Gevrey was charged with fraud, police saying he had taken money intended for the informant and put it in a Swiss bank account.
Renault has fully accepted that its three executives are innocent. They have all been offered their jobs back and the manufacturer is trying to organise compensation.
At one point during the scandal there were suggestions that the information was being passed to China. The clearing of the three executives led to a national outcry particularly amongst the French Government, Renault’s biggest shareholder.
Some have called for Renault head Carlos Ghosn and his deputy Patrick Pelata to go – Pelata offered his resignation but Ghosn refused to accept it.
Both have turned down bonuses due to them, but only last week French ministers were still calling for heads to roll. “We cannot just let this pass – There will have to be consequences for the incredible amateurism,” said Budget Minister Francois Baroin.
Wednesday, March 30, 2011
Newey vows to correct KERS problems
Red Bull design guru Adrian Newey has vowed to crack the issues that led to a "stressful" Australian Grand Prix weekend, despite Sebastian Vettel's stunning start to the new Formula One season.
Vettel cruised to victory by 22 seconds in Sunday's curtain-raiser at Melbourne's Albert Park after crushing his rivals in qualifying for the ideal opening to the defence of his world title. However, in the eyes of perfectionist Newey, behind the scenes it was a different story as Red Bull grappled with an issue they are still struggling to come to terms with.
"It was quite a stressful weekend in Australia. There were a lot of rumours about our KERS system for a start," said Newey.
Vettel's glorious beginning is all the more remarkable because he did not run with the KERS power-boost system all weekend. At present, Newey is hopeful, but cannot say for definite, whether Red Bull will use KERS at the next grand prix in 11 days' time in Malaysia where it will be far more beneficial.
"The intention going into the weekend was actually to run a full KERS, but we had some reliability problems, so we had to take it off. We hope it will be in the car in Malaysia, but first and foremost we need to try and field a car that is reliable, and if we feel it is that then we will try to race it."
Asked if it was required given the way Vettel crushed his rivals, Newey added: "Well it gives you a benefit at the start where you might be outgunned. McLaren also made a huge leap forwards - by copying our exhaust system, it has been said - and I'm sure they'll be pushing, so we can't be complacent."
Newey has described the problem as "relatively trivial," although refused to expand other than to state it was one developed by themselves. Cryptically, he added: "We're not experts in that field, so we're on a steep learning curve, and we'll make a decision on the Friday evening in Malaysia."
Newey was speaking at the Segrave Trophy Awards lunch held at the Royal Automobile Club in London where he collected the honour for 2010. Commemorating the life of Sir Henry Segrave, the trophy is awarded to a British subject with the 'spirit of adventure' for the most outstanding demonstration of transportation by land, air or water.
Newey received the award for being the only Formula One designer to have designed championship-winning cars with three different teams, Williams, McLaren and Red Bull. With the list of winners reading like a who's who of British greats from Newey's hero in Donald Campbell, to Stirling Moss, Sir Jackie Stewart, Nigel Mansell, Damon Hill and Lewis Hamilton, the 52-year-old felt humbled.
"To receive such an illustrious and distinguished trophy like this, it almost sends shivers down my spine when I look at the names who have received it in the past, the history of it," said Newey. "I've tremendously enjoyed my career, and been privileged to work with some great people. I can honestly say I've just about enjoyed every single working day of it. Everything else has been a bonus."
Audi A5 e-tron quattro plug-in hybrid prototype
Audi is going the PSA (Peugeot Citroën) route in developing a hybrid system that doubles as an all-wheel drive conversion kit.
This is the A5 e-tron Quattro plug-in hybrid which matches a 2.0 liter TFSI engine with 211 PS (155 kW / 208 bhp) with two electric motors, one on each axle, that makes this A5 an all-electric capable vehicle.
The electric motor at the front adds another 45 PS (33 kW) to the power going through the front wheels while an 81 PS (60 kW) electric motor at the back powers the rear axle. That rear-mounted motor only kicks in when acceleration requires it to or when sensors detect a loss of rear traction such as in a hard curve. Juice for the electric motors is supplied by a 9.4 kWh lithium-ion battery pack.
With that electrical setup, the A5 e-tron Quattro can travel up to 40 km (25 miles) solely on electric power and is able to reach speeds of up to 100 km/h (62 mph). Overall, fuel-economy is rated at 2.7 liters/100 km with a 0 to 100 km/h sprint time of 5.9 seconds (0.6 seconds faster than the standard 2.0 liter TFSI A5) and a top speed of 228 km/h (142 mph).
But this is just a prototype and Audi engineers have had to make use of carbon fiber and aluminum parts to counteract the weight gain of all that electrical gear to keep the curb weight around the same 1,600 kg (3,527 lbs) mark of the standard 2.0 TFSI A5 Quattro.
We'll see if this prototype ever makes it to the streets but Peugeot is ready to prove the concept's market-viability by bringing the 3008 HYbrid4 all-wheel drive capable diesel-electric hybrid to market later this year.
BBC denies rigging Top Gear Tesla Roadster test
Tesla Motors claims the test set up by Jeremy Clarkson on a 2008 edition of the show was rigged to make it look like the Tesla ran out of power when racing a petrol powered Lotus.
A Top Gear spokesman said the BBC would be "vigorously defending" the claim.
On the programme Jeremy Clarkson claimed: "Although Tesla say it'll do 200 miles, we worked out that on our track it would run out after just 55 miles."
Tesla said the Roadster's miles per charge had been certified at 211 miles by a third party European Union (EU) test.
It argued that because the car was "driven aggressively" on Top Gear the charge didn't last as long, but that if driven "mindfully" charges could last for 313 miles.
A Top Gear spokeswoman said: "We can confirm that we have received notification that Tesla have issued proceedings against the BBC.
"The BBC stands by the programme and will be vigorously defending this claim."
Obama boosts Hybrid and EV sales with federal auto fleet, oil strategy
President Barack Obama announced today that the U.S. government will buy only advanced technology vehicles — such as hybrids and electric plug-ins — by 2015.
The government already has doubled the number of hybrids in the 600,000-vehicle federal fleet.
At a speech at Georgetown University, Obama unveiled his strategy to cut U.S. oil imports by a third by 2025, by stepping up domestic oil production and requiring a major increase in fuel economy for the 2017-25 model years.
"Here's the bottom line — there are no quick fixes. And we will keep on being a victim to shifts in the oil market until we get serious about a long-term policy for secure, affordable energy," Obama told a crowd of several hundred at McDonough Arena. "We cannot keep going from shock to trance on the issue of energy security, rushing to propose action when gas prices rise, then hitting the snooze button when they fall again."
The reduction would be more than the 11 million barrels of oil a day the United States imported in 2008, the White House said today. Obama noted that the U.S. has just 2 percent of the world's proven oil reserves. The U.S. consumes about a quarter of the oil.
In 2010, the government purchased 23,000 more fuel-efficient vehicles for the federal fleet, including almost 9,000 hybrid-electric cars. This year, the government will buy more fuel-efficient vehicles, including its first 100 plug-in electrics.
Last year, the U.S. imported less than half of the oil it used for the first time in more than a decade.
White House aides said the president's plan to reduce imported oil relies on improving efficiency for half of the anticipated reduction, but they said the government hasn't settled on a proposed increase for the 2017-2025 timeframe.
Report predicts 3.8 million electric cars on the road by 2016
A new report from GTM Research offers some interesting insights into where the electric road might lead. The report, “The Networked EV: The Convergence of Smart Grids and Electric Vehicles,” predicts there will be 3.8 million electric cars on the road worldwide by 2016, with about 1.5 million in the United States, 1.5 million in Europe and 760,000 in Asia.
“It is the hope of this industry that just as cellular phones and laptops before them, EVs will begin as luxury products but will eventually become widely affordable,” wrote David J. Leeds, the report’s author.
Leeds notes that it took a decade and three generations of the Toyota Prius hybrid to capture five percent of the California automotive market. He expects it’ll take a third generation of electric cars, likely to be introduced around 2018-2020, for carbon-free driving to break out of Berkeley, Portland, and other early adopter cities.
It’ll come as no shock that Leeds estimates that 20 percent of electric cars will be sold in California, which currently accounts for 11 percent of total auto sales in the U.S. New York will follow with nine percent of electric car sales with Florida, Texas, and Illinois rounding out the top five.
Predicting such numbers is a guessing game, of course, and electric cars sales will be determined by a multitude of factors, including vehicle cost, advancements in battery technology, gasoline prices, government subsidies, and the fickle tastes of car buyers.
The early adopters of electric cars that will like drive the industry aren’t so much all those Prius owners but corporate accountants looking to keep a lid on the cost of company fleets of cars and trucks.
“Electric vehicles make great sense for fleets due to their highly predictable routes, as well as the fact that these groups tend to excel at logistical operations,” wrote Leeds. “More than any other sources, commercial and government fleet purchases have the power to accelerate the adoption curve of this market.”
He noted that fleets account for 15 percent of miles driven in the U.S. and that many of those vehicles travel fewer than 100 miles a day, the range of many current electric vehicles, and can take advantage of centralized parking and charging stations as well as lower electricity rates negotiated by big corporations.
General Electric, which will buy 25,000 electric vehicles over the next four years, is aggressively promoting EVs among its corporate customers.
“We can’t forgot the importance of scale,” Luis Ramirez, chief executive of GE Industrial Solution, told me earlier this month when he came to San Francisco to promote electric vehicles and GE’s various services for them. “An average delivery truck makes 10 deliveries a day in a city like San Francisco. So when you think of electric vehicles, that creates a whole new blueprint that’s more efficient and uses less energy.”
Clarence Nunn, chief executive of GE Fleet Services, noted that a big cost of operating delivery trucks is the fuel wasted when idling in congested urban areas. Noise ordinances also can restrict delivery times for fossil-fueled powered vehicles. That’s not a problem, of course, for electrics.
The blogosphere had been buzzing over reports of low sales so far of the electric Nissan Leaf and plug-in hybrid electric Chevrolet Volt. That, however, may be more of a production than a demand problem. Leeds noted that nearly 250,000 potential Volt buyers had registered on GM’s site.
“We’d like to buy more than they can build,” said Ramirez of the Volt and Leaf.
SIM-Drive launch Wheel Motor powered EV with 200 mile range
SIM-Drive has developed the Advance Development Model No. 1 named “SIM-LEI” as its nickname. LEI stands for the initial letters of “Leading Efficiency In-Wheel motor”.
The object of this project is to develop a prototype of the advanced development model aiming to start mass-production in 2013. This project collected 34 establishments and organizations who intend to enter in the electrical vehicle business in the future.
The target performance of SIM-LEI was to achieve over 300km of range per charge, which is generally pointed as the major concern for the electrical vehicle to promote in the market. The prototype achieved this target by 333km of range per charge by JC-08 mode, which represents general urban traffic condition in Japan.
The battery capacity to achieve this target is 24.5kWh as almost the same level as other electrical vehicles presented in the market. Electrical power consumption is 77Wh/km. (for comparison, a Nissan LEAF uses 173Wh/km)
The fundamental technologies to achieve this performance are the SIM-Drive original technologies, such as direct drive in-wheel motors and component built-in frame. Other than these two, the following technologies contribute a lot.
All steel monocoque body contributes to reduce body weight. High power density battery provides highly efficient energy re-generation. Super low rolling friction resistance tire reduces friction resistance. The super low air drag body reduced the drag drastically.
The SIM-LEI is as long as medium size sedan, and as wide as a compact car. It has a lot of leg room and large trunk space.
The acceleration performance, which is one of the feature of the electrical vehicle presented by
SIM-Drive, achieved by 4.8 seconds for 0-100km/h standing start acceleration. This is the performance equivalent to the prestige sport cars.
In total 34 Japanese corporations participated in this project. On completion of the development and construction, SIM-LEI proved to be able to drive in long range, and the energy consumption rate is quite favorable.
This achievement indicates that if we use mid-night surplus electricity, no additional power generation plant is required even when all vehicles in operation are replaced with the electrical vehicles.
Using battery on board of the electrical vehicle as the energy storage, electricity charged at mid-night could be used at daytime for domestic household. The electrical vehicle can be used for grid storage to help utilities at the peak-times.
Tuesday, March 29, 2011
Tesla sues BBC over "rigged" Top Gear electric car test [video]
Remember that time Top Gear gave the Tesla Roadster such a thrashing it broke, except it really didn't break? Tesla does, and it's now filed suit against the BBC and Top Gear accusing the Beeb of defamation.
The test from the episode aired in December, 2008 involved a race between the Tesla Roadster and the gas-powered Lotus Elise it's based on. The show featured Jeremy Clarkson saying the Tesla ran out of charge at 55 miles, with footage of it being pushed around a garage, ending with Clarkson saying "It's just a shame that in the real world it doesn't seem to work."
Shortly after it aired, Tesla said the Roadster never lost its charge, never needed to be pushed and asked Top Gear for some kind of retraction. After some sparring, the BBC admitted the footage of the push-powered Roadster was meant to show what could happen, saying the show fairly represented how the Tesla performed during tests.
With that episode still playing in repeats, available on DVD and now on Netflix streaming in the United States, Tesla says it was forced to act: "The BBC's conduct has given us no choice but to sue them and clear up their lies."
A BBC spokesman said: ‘We can confirm that we have received notification that Tesla have issued proceedings against the BBC.’
Mail Online
Monday, March 28, 2011
Volvo C30 Electric Extreme Winter Testing [video]
The Volvo C30 Electric has been exposed to rough winter conditions in order to ensure that the battery-powered car runs smoothly in temperatures as low as -20° Celsius.
Volvo Cars' requirements on the C30 Electric are just as stringent as on all other Volvo models and the battery-powered car is exposed to the same test regime. On top of this, several new test methods have been developed for the electric vehicles. All in all, over 200 different tests have been performed.
"We must ensure that the C30 Electric performs as intended when driving, parking and charging in a variety of conditions, from normal to very cold or hot. Northern Sweden is the perfect place to do sub-zero temperature testing," says Lennart Stegland, director of Volvo Cars' Special Vehicles.
The Volvo C30 Electric is equipped with three climate systems: * One supplies the passengers with heating or cooling. * One cools or warms the battery pack as necessary. * The electric motor and power electronics are water-cooled.
Bio-ethanol powered heater
The C30 Electric has a innovative solution that makes it possible to get comfortable heating in cold winter conditions without compromising the battery driving range.
Climate control in the passenger compartment takes place via a bio-ethanol powered heater fitted in all cars. The car's ethanol tank can carry 14.5 litres of bio-ethanol.
It is also possible to run the climate unit on electricity from the batteries. In electric mode an immersion heater warms up the coolant in the climate unit.
"The driver can program and control the climate unit to suit the trip. Ethanol is the default mode that is used when the battery capacity is needed for driving extend mobility to its maximum. However, on shorter distances electricity can be used to power the climate system," explains Lennart Stegland.
Petrol and Diesel cars could be banned in EU by 2050
Petrol and diesel-engined passenger cars should not allowed in European city centres by 2050, the European Commission has proposed.
The proposals, outlined to EU governments today by EC transport commissioner Siim Kallas, are designed to help cut Europe’s carbon emissions and reduce dependence on oil by up to 60 per cent. They are not an attack on personal mobility, the EC claims.
Also included in the radical transport plan is a proposal for the majority of journeys of 190-miles or less to take place by train.
“The widely held belief that you need to cut mobility to fight climate change is simply not true,” said Kallas. “Competitive transport systems are vital for Europe's ability to compete in the world, for economic growth, job creation and for people's everyday quality of life.”
The EC wants 50 per cent of Europe’s vehicles to be zero emissions by 2030 and conventionally fuelled vehicles to be banned from cities altogether by 2050.
There are also plans for a fully integrated European travel network, known as ‘Single European Transport Area’, linking all airports with core railway lines to “allow for a profound shift in transport patterns for passengers and freight”.
The EC wants Europe to "move close to zero fatalities in road transport" by 2050, with an interim target of halving casualties by 2020.
EV Motor company Remy files for IPO of up to $100 million
Auto parts maker Remy International Inc filed with U.S. regulators on Friday for an initial public offering of $100 million.
The Pendleton, Indiana-based company, which makes and sells starter motors, alternators and hybrid electric motors among other parts, plans to list under the symbol "RMYI," according to the filing. It has yet to pick a stock exchange or provide further details of the IPO.
The company, known for the "Delco Remy," "Remy" and "World Wide Automotive" brands, separated from General Motors Co (GM.N) in 1995 after mainly functioning as GM's original equipment supplier for more than 70 years.
In 2009, Remy received a $60 million grant from the U.S. Department of Energy for the commercialization of hybrid electric motor technology.
Earlier this month, Italian manufacturer Tecnomatic SpA sued Remy, saying it stole Tecnomatic's proprietary stator technology and used it to apply for the grant on its own instead of in a partnership with the Italian company. Remy has called the claims wrong and an attempt to force the settlement of a complaint Remy filed against Tecnomatic in 2008.
In Friday's filing, Remy said it planned to use the IPO proceeds for debt payments, acquisitions and expansion.
JPMorgan, Bank of America Merrill Lynch and UBS Investment Bank are underwriting the IPO.
Red Bull 'must have' KERS by Malaysian Grand Prix
Red Bull Racing boss Christian Horner thinks his team will need to get its KERS up and running in the Malaysian Grand Prix if it wants to maintain its winning start to the season.
Reliability issues with its hybrid power system in practice for the Australian Grand Prix resulted in the team electing to disengage it for the remainder of the weekend - although its absence made little difference to the strong speed of the car.
With a short run from the start of the Albert Park grid to the first corner, pole position man Sebastian Vettel was able to hold onto his lead even without a KERS boost – and he proved dominant throughout the race to take his first win of the season.
But with there being much longer straights at the next race in Malaysia, Horner is well aware that his outfit may be put on the back foot if it cannot run KERS there.
"We plan to have it on the car for Malaysia," Horner said when asked about the future plans for the device.
"The KERS effect here [in Australia] is less, as the run to the first corner is shorter. So that is our main exposure, which is why we didn't want you guys to tell the rest of the world that we didn't have it.
"In Malaysia there is a relatively long run to the first turn, and we will be keen to get it on the car as soon as possible."
Horner said the team had taken KERS off the car because it did not want to risk reliability issues – and it had also done so in secret because it did not want the opposition to know it could be exposed at the start.
"We tested it, we ran the system earlier in the weekend and we decided that there was a potential, albeit small chance, of a reliability issue with it so we elected not to run it this weekend," he explained. "But obviously we didn't want to tell the world – although looking at the start the guys had, it looked like we didn't need it."
Horner said he was also amused by the speculation that had run around the paddock suggesting his team had a lightweight start-only KERS system.
"You guys [the media] went off on a great little tangent, but the problem is that you have probably made Adrian [Newey] think of that one now! I can blame you lot for that then."
Saturday, March 26, 2011
EVs push Detroit to compete with Silicon Valley for tech talent
Auto industry executives are trying to make Silicon Valley engineers feel at home in Detroit. With a burgeoning number of technology job openings to fill, they're scouring Internet companies for workers, wining and dining applicants, and seeking promising students at schools such as Stanford University.
"We have a whole slew of job postings out there currently," said Doug VanDagens, director of Ford's connected service solutions, who has been trying to lure engineers to the automaker to design software. "We're just on a growth binge."
Expertise in cloud computing, mobile software applications and energy management are in demand in the Motor City as automakers replace car stereos with Internet radio and gasoline engines with motors powered by lithium-ion batteries. Technology job postings in the Detroit area doubled last year, making it the fastest-expanding region in the country, according to Dice Holdings Inc., a job-listing Web site.
"There's a war for talent out there, and it's only going to get worse," said Jim Bazner, vice president of human capital solutions at MSX International in suburban Detroit, which helps automakers find specialized employees. "There are hundreds of jobs, and all the automakers are hiring."
Dearth of graduates
Ford and General Motors Co. are rapidly hiring graduates from local universities as fast as they can -- there just aren't enough of them.
"If we filled every opening that's been posted or recruited just in the Lansing area, we'd be able to hire out all of our graduates three times over," said Garth Motschenbacher, who helps place computer-science graduates at Michigan State University. About 70 percent of the school's 54 students scheduled to graduate in May have jobs lined up, he said. "The number of students has not kept up with the opportunities."
Still, attracting engineers to Detroit rather than Silicon Valley can be a challenge. The San Francisco area is home to more technology companies offering more job openings than Detroit. California's mild climate and history of innovation are also a draw. Yet Detroit is bouncing back.
Companies that work with automakers on in-car entertainment systems, such as online streaming music providers Pandora Media Inc. and Mog Inc., have opened offices in the Detroit area. Google Inc., based in Mountain View, Calif., has an office in Birmingham, Mich., where it's looking for sales associates to work with the auto industry.
New wave
Marty Zacharias is part of the wave of new hires. The former Nissan Motor Co. and Ford employee joined Berkeley, Calif.-based Mog last month -- in its new Detroit office. He'll work directly with companies such as BMW AG's Mini and others to get Mog's Web-based subscription music service into vehicles.
"Many more Detroit-based automotive industry employees will follow a similar path to mine," Zacharias said in an e-mail, "or join advanced technology divisions within the established automotive companies."
The expansion has caught the eye of the U.S. Patent and Trademark Office, which announced in December that it will open its first satellite office in Detroit. The region's high percentage of scientists and engineers, as well as its patent output, spurred the decision, said Paul Fucito, a patent office spokesman. The 4,000 patents granted to Michigan in fiscal 2010 ranked seventh among U.S. states, he said. The facility is likely to create about 100 new jobs to review patent filings.
Recession's toll
One reason why the job growth in Detroit appears so high is because the recession's toll went so deep, said Tom Silver, senior vice president of Dice Holdings and author of the jobs report showing a surge in the area.
"The recovery there is actually looking pretty substantial, but it's also a reflection, to some extent, that Detroit was probably hit a little harder than the other markets," he said.
According to 2010 U.S. Census data released this week, the city of Detroit's population plunged 25 percent over the past decade to 713,777 residents, down from a peak of 1.85 million in 1950.
Michigan lost about 413,000 jobs from December 2007 through December 2009, including 83,200 jobs in the Detroit area, according to the U.S. Bureau of Labor Statistics.
Things picked up last year, as jobs in the Detroit-area professional and business-services sector, which include many of the tech jobs, rose almost twice as fast in December as the overall Michigan job market, according to the bureau.
Even with efforts to mimic Silicon Valley office culture, recruiting people to move from the West Coast to Detroit is difficult, said Micky Bly, GM's executive director of electric vehicles, battery and infotainment systems.
"I don't want to categorize it as an issue, but it is tough," he said. "You don't have people begging to come to the Michigan area."
Salary gap
Compensation is one reason why. While average salaries for Detroit technology jobs rose 2.3 percent last year to $71,445, that's still less than the national average of $79,384, and about 28 percent lower than the $99,028 paid in Silicon Valley, according to Dice Holdings. More than 940 technology jobs are currently available in the Detroit metro region, compared with more than 5,060 in Silicon Valley.
Still, Bly says the quality of life can be attractive for some. "They can get a whole lot of house in Michigan for what they can get in San Francisco," he said.
The workplace culture among automakers is also relaxing, as they attempt to adopt some of the perks more common at startups, like wearing jeans to work or telecommuting. That's a big change from when Bly started at GM 20 years ago, when everyone wore a collared shirt and a tie.
"The variation was in your pant color -- you could have gray, black or blue," Bly said. While things have changed, the perks still aren't the same as in Silicon Valley, he said.
"Do we have a free cafeteria like Google? No, but our stock isn't up to $400 a share yet," Bly said. Google currently trades at more than $575 a share, while GM's stock sits at $31. "When we get $400 a share, I'll make sure we have free meals for everyone here."
Red Bull outwit rival F1 teams with Start-Only KERS? UPDATE [video]
Red Bull are thought to have a mini-Kers system they use only at the race start. This allows them to defend their position at the start without some of the disadvantages of a full KERS system.
A fully optimised KERS provides an average performance boost of 0.3 seconds a lap by harvesting energy that would have been wasted during braking, storing it in batteries and then reapplying it during acceleration.
But the system's power is limited by the regulations and the heavy batteries and other parts create packaging and weight distribution problems. Equally, as the system relies on the rear wheels to provide its charge, it can increase tyre wear in races because it unsettles the handling of the car.
That is a potentially key advantage in a year when the new Pirelli tyres have been designed to degrade more quickly than the Bridgestones F1 used in the last few years.
Because of this, some teams believe a car can be made to perform faster without Kers.
Rivals teams believe Red Bull have built a Kers system with a smaller battery which is charged before the race, discharged only once at the start and not used again. The system would still need a fairly large battery to deliver the high current needed but weight could be saved because the parts needed to charge the battery during the race would not be required.
What is not clear is whether this was Red Bull's design from the start or whether they were forced to go down this route because they could not get the full system reliable enough for a race. In theory, taking this approach means the car can be made faster over one lap while ensuring they are not easily passed by those of Kers-equipped rivals close behind. Red Bull would then rely on the inherent pace of their car to keep them clear of the threat of being passed in the race.
However, there is a major risk with Red Bull's approach. If they do find themselves under threat from a Kers-equipped car in a race, Vettel and team-mate Mark Webber would be virtually defenceless.
Team principal Christian Horner would not confirm or deny the presence of the system.
But he said: "All I will tell you is our system is not the same as others' but it's at its most beneficial at the start." Vettel said after qualifying that he had not been using his Kers during the session. Webber added: "We didn't run it today for reasons we will keep in the team."
Rivals were stunned by the pace of the Red Bulls in Australia after pre-season testing had appeared to suggest that they and Ferrari would be evenly matched. Ferrari driver Fernando Alonso, who qualified fifth, said he believed the Italian team had failed to extract the full potential of their car on Saturday.
A leading engineer from another team said he thought it "very likely" that Red Bull had such a system as his team were working on a similar idea themselves.
UPDATE: Red Bull team principal Christian Horner revealed after Sebastian Vettel's season-opening victory in Melbourne that the team did not have KERS on its RB7s from Saturday onwards. "We haven't had KERS on at all this weekend," said Horner.
"We didn't want to tell anybody, but looking at the start ... It didn't look like we needed it. We were a bit nervous about telling everybody before the race. We ran it on Friday and we weren't happy with the reliability, we felt it was a potential risk, so we took it off both cars and didn't race it at all this weekend."
Friday, March 25, 2011
Fully Charged Delta E4 coupe [video]
Robert Llewellyn takes an exclusive first ride in the Delta E4 coupe electric car with technical director Nick Carpenter
A Hot Lap of Laguna Seca in a Chevy Volt [video]
The Chevy Volt is completely at home barreling down a race track - in EV mode. The track is Laguna Seca.
EV Aircraft ELEKTRA ONE performs first 30 min flight [video]
The Elektra One EV aircraft performed the first flight on 19 Mar. 2011 at the Augsburg Airport in Germany. Jon Karkow, an well known test pilot and aircraft engineer performed the first flight. Flight characteristics and engne parameter were tested.
The ultra lightweight aircraft weighs just 220 pounds, plus an additional 220 pound battery pack. With a 660 pound weight capacity, there is ample room for a more than just the pilot.
The test pilot was very satisfied with the results. Three flights were performed. The climbing rate was 400 ft/min. A new 30 min. flight was performed on 23 Mar. Only about 3kW from the total on board of 6kWh energy was used.
Over the next two weeks a new variable pitch propeller and retractable landing gear will be installed for further testing.
Tata starts electric car production in UK
Indian manufacturer Tata has started production of electric cars in the UK. The firm, which owns Jaguar Land Rover, has taken on 23 people to help build 1,500 Vista models.
The vehicle has a predicted range of up to 120 miles (200km), and manages 0-60 kmph in under 10 seconds, a spokesman said. It will cost between £25,000 to £30,000 with a £5,000 reduction on top through a government grant.
The firm said it hopes they will to go on sale to the public some time next year and will assess demand after that.
Steve Ocock, manufacturing general manager, said most car manufacturers are looking towards electric vehicles. "We are committed to this new technology," he said.
"Everyone is looking at this (electric vehicle technology) and, as the volume of vehicles grow, they will become more cost-effective." He said the company will look at taking on more staff as production increases.
More than 200 people are employed by the firm at its research and development centre on the University of Warwick campus in Coventry.
Last October, Tata reversed a decision to close one of its Jaguar Land Rover manufacturing plants in the West Midlands after a pick-up in sales. It also said it would be hiring more staff to work for that brand.
Thursday, March 24, 2011
Ford won't lease EV batteries [video]
Ford’s forthcoming electric Focus will be sold in the same way as a conventional car, meaning its battery pack will be included as standard.
Ford’s UK managing director Nigel Sharp said the company would not consider leasing the Focus’s lithium-ion battery pack separately to sale: “We’re waiting to see how the market reacts to other electric cars, but we are sure leasing batteries is not the way to go, even if it would bring the initial price down," he said. "The Focus must be sold as a conventional car would be."
The electric Focus is the flagship of its five-strong fleet of alternatively fuelled cars and a significant all-electric rival to the Nissan Leaf, which also has the battery pack included in its purchase price.
The Focus’s electric motor is powered by a 28kWh lithium ion battery, giving a top speed of 84mph. A standard full recharge from a 240V outlet will take three to four hours — half the time of the Nissan Leaf — and Ford is targeting a range of 100 miles.
Toyota Prius V launch delayed in Japan due to earthquake
Toyota Motor Corp. has delayed the Japan launch of its new wagon-style Prius in the wake of the parts shortage triggered by this month's earthquake.
The company had planned to start selling the car in Japan by the end of April. But that date has been pushed back, spokeswoman Mieko Iwasaki said.
She was unable to say when the new launch date would be. But the setback isn't expected to affect the car's arrival in the United States and Europe later this year, Iwasaki said.
The delay makes the Prius wagon among the first new model launches to be thrown off track by the March 11 earthquake. Toyota cited the company's production shutdown, disarray in Japan's automotive supply chain and damage to its local dealer networks as reasons for the move.
Toyota is planning two versions of the Prius wagon: A two-row five seater for the United States and a three-row seven seater for Europe. Japan is expected to get both variants.
Toyota has shut down all 18 domestic assembly plants through at least March 26. Many parts makers are still struggling to come back online after being damaged in the quake or are having trouble delivering parts due to transportation snarls.
Among the damaged plants is a key factory supplying batteries for Toyota hybrid vehicles, including the Prius. The plant, operated by Primearth EV Energy Co. in quake-stricken Miyagi prefecture, can supply enough nickel-metal hydride battery packs for 300,000 cars a year.
That accounts for about 27 percent of Toyota's battery capacity. Primearth, a joint venture between Toyota and Panasonic, has two plants in central Japan that supply additional batteries.
Those plants, located in Shizuoka prefecture between Tokyo and Nagoya, are operating.
Toyota to restart hybrid vehicle output in Japan
Toyota Motor Corp said it would restart production of three hybrid models after a massive earthquake this month disrupted output across the industry.
Production will resume for the Prius, Lexus HS250h and CT200h at the Tsutsumi factory in central Japan and Toyota Motor Kyushu in the south, spokeswoman Shiori Hashimoto said.
All 18 factories that assemble Toyota and Lexus vehicles in Japan, including those operated by group units, have been closed by the quake. An additional seven plants directly operated by Toyota that make engines and other parts are also affected. The production halt will result in lost production of at least 140,000 vehicles.
"We will monitor the situation of parts availability carefully in deciding the duration of production," she said.
Problems with power and parts have prevented other Japanese automakers restarting assembly lines.
Honda Motor Co said on Thursday it would suspend car production at its Japanese factories until at least April 3, extending the stoppage by a week.
Japan's No. 3 automaker said it would decide on plans beyond April 3, depending on the availability of parts. Honda will resume motorcycle and power product production at its Kumamoto factory in southern Japan on March 28.
Honda said it would also temporarily transfer some functions such as car development and procurement out of its R&D facilities in Tochigi, which was badly hit by the March 11 earthquake.
Suzuki Motor Corp said its three assembly factories in Japan will remain closed on Thursday and Friday.
Nissan Motor Co Ltd said on Thursday its manufacturing operations in the Americas would follow a regular production schedule at least until April 1.
It also said output of the all-electric Nissan Leaf resumed at the Oppama plant on Thursday as did battery production at Zama battery plants. Nissan said the ability to sustain this output is dependent on the frequency of rolling blackouts due to electrical shortages.
Nissan also said its Decherd, Tennessee, engine plant could supply V6 engines to Japan to supplant lost production from its Iwaki engine plant, but no decisions have been made yet.
Other manufacturers with dwindling inventories are looking at slowing production of low-selling models. For instance, General Motors Co has temporarily idled its pickup plant in Shreveport, Louisiana.
Toyota said on Wednesday it would slow some North American production because of supply disruptions caused by the earthquake and subsequent tsunami.
Toyota told employees and dealers it was too early to determine the scope, timing and duration of a slowdown, but facilities in the United States, its single-biggest market, and in Canada and Mexico are all being considered.
A spokesman for the automaker's San Antonio, Texas, plant where it builds the Tundra and Tacoma pickup trucks said on Thursday the supply disruptions would likely force the idling of the facility.
Most parts for Toyota's North American-built vehicles come from about 500 suppliers in the region. The company said it continues to receive parts from Japan that were already in the pipeline, limiting the immediate impact of the disruption there.
Barclays Capital analyst Brian Johnson said in a research note on Thursday that his best-case expectation for the North American auto sector is sporadic production outages, with US automakers affected less than their Japanese rivals. In particular, Toyota gets many parts used on multiple models from single companies, he said.
In Germany, automakers and suppliers also are looking at cutting production due to bottlenecks. Several companies have asked about a government-backed program for shortened working hours.
Shippers avoiding Tokyo
Some merchant ships may be avoiding Japan's Tokyo port due to concerns of radiation exposure to crew members from the quake-crippled Fukushima nuclear plant, an industry official said on Thursday.
Should this be the beginning of a trend in the shipping industry, Japan could face major delays and seaborne congestion at ports, adding to supply chain bottlenecks and hindering recovery efforts in the wake of the March 11 earthquake. "I have heard from local agents that some vessels are not calling in Tokyo due to radiation fears. I'm not sure how many," said Tetsuya Hasegawa, operating manager at Heisei Shipping Agencies in Tokyo.
Lloyd's List reported on Thursday that Claus-Peter Offen, one of Germany's largest shipowners, had suspended calls for his company's entire fleet of 110 vessels to Tokyo and Yokohama because of radiation fears.
Tokyo is Japan's fourth-largest port, handling 145 million deadweight tonnes last year, mainly containers, according to Lloyd's List Intelligence.
Wednesday, March 23, 2011
Electrode lets lithium batteries charge in just two minutes
Batteries can't move charge as quickly as some competing devices like supercapacitors, and their performance tends to degrade significantly with time.
That has sent lots of materials science types into the lab, trying to find ways to push back these limits, sometimes with notable success. Over the weekend, there was another report on a technology that enables fast battery charging. The good news is that it uses a completely different approach and technology than the previous effort, and can work with both lithium- and nickel-based batteries.
The previous work was lithium-specific, and focused on one limit to a battery's recharge rate: how quickly the lithium ions could move within the battery material. By providing greater access to the electrodes, the authors allowed more ions to quickly exchange charge, resulting in a battery with a prodigious charging rate. The researchers increased lithium's transport within the battery by changing the structure of the battery's primary material, LiFePO4.
The new work also gets fast charges, but by a rather different route. The authors, from the University of Illinois, don't focus on the speed of the lithium ions in the battery; instead, they attempt to reduce the distance the ions have to travel before reaching an electrode. As they point out, the time involved in lithium diffusion increases with the square of the distance travelled, so cutting that down can have a very dramatic effect. To reduce this distance, they focus on creating a carefully structured cathode.
The process by which they do this is fairly simple, and lends itself to mass production. They started with a collection of spherical polystyrene pellets. By adjusting the size of these pellets (they used 1.8µm and 466nm pellets), they could adjust the spacing of the electrode features. Once the spheres were packed in place, a layer of opal (a form of silica) was formed on top of them, locking the pattern in place with a more robust material. After that, a layer of nickel was electrodeposited on the opal, which was then etched away. The porosity of the nickel layer was then increased using electropolishing.
When the process was done, the porosity—a measure of the empty space in the structure—was about 94 percent, just below the theoretical limit of 96 percent. The authors were left with a nickel wire mesh that was mostly empty space.
Into these voids went the battery material, either nickel-metal hydride (NiMH) or a lithium-treated manganese dioxide. The arrangement provides three major advantages, according to the authors: an electrolyte pore network that enables rapid ion transport, a short diffusion distance for the ions to meet the electrodes, and an electrode with high electron conductivity. All of these make for a battery that acts a lot like a supercapacitor when it comes to charge/discharge rates.
With the NiMH battery material, the electrodes could deliver 75 percent of the normal capacity of the battery in 2.7 seconds; it only took 20 seconds to recharge it to 90 percent of its capacity, and these values were stable for 100 charge/discharge cycles. The lithium material didn't work quite as well, but was still impressive. At high rates of discharge, it could handle 75 percent of its normal capacity, and still stored a third of its regular capacity when discharged at over a thousand times the normal rate.
A full-scale lithium battery made with the electrode could be charged to 75 percent within a minute, and hit 90 percent within two minutes.
There are a few nice features of this work. As the authors noted, the electrodes are created using techniques that can scale to mass production, and the electrodes themselves could work with a variety of battery materials, such as the lithium and nickel used here. It may also be possible to merge them with the LiFePO4 used in the earlier work. A fully integrated system, with materials designed to work specifically with these electrodes, could increase their performance even further.
Of course, that ultimately pushes us up against the issue of supplying sufficient current in the short time frames needed to charge the battery this fast. It might work great for a small battery, like a cell phone, but could create challenges if we're looking to create a fast-charge electric car.
Nissan LEAF EV Now Available at Santa Monica Enterprise Rent-A-Car
Enterprise Rent-A-Car now offers customers the Nissan LEAF electric vehicle (EV) for daily and weekly rental at its 1702 Santa Monica Blvd. rental location in Santa Monica. Enterprise also has installed a charging station at the same location through Electric Vehicle Supply Equipment (EVSE) manufacturer ClipperCreek.
"We're making the Nissan LEAF available to local customers who are simply curious about the EV driving experience, those who are considering buying an EV, and those who want a fuel-efficient car rental option," said Greg Tabak, director of business sales in Southern California for Enterprise Holdings, which owns and operates Enterprise Rent-A-Car, Alamo Rent A Car and National Car Rental. "It's part of our ongoing commitment to be a leader in the electrification of the car rental and transportation industries."
Enterprise recently announced plans to add 500 Nissan LEAF EVs at select locations throughout its neighborhood network and through its WeCar car-sharing program throughout this year. In addition, Enterprise earlier this year became the first to offer rentals of Chevrolet Volt extended-range EVs to customers at its Ontario, Calif., rental location.
With more than 5,500 offices located within 15 miles of 90 percent of the U.S. population, Enterprise Rent-A-Car offers a wide variety of car leasing, vanpooling, car sharing and hourly rental programs. With WeCar car-sharing technology, Enterprise offers an automated, membership-based and environmentally friendly transportation solution -- for an hour, a day, a weekend or longer -- thereby providing businesses, universities and government offices an opportunity to enhance their fleet management operations and sustainability initiatives.
Customers can visit Enterprise.com to learn more about the availability of EVs and hybrid rentals, or call 1-800-261-7331 to make a reservation.
Tuesday, March 22, 2011
Fisker Karma Enters Production in Finland
Three years after it was concieved, Fisker Automotive’s first car hit production yesterday. The Fisker Karma is being produced under contract by Valmet Automotive – the company that also build Porsche AG – at the Valmet plant in Uusikaupunki, Finland.
The Karma is powered by Fisker’s Q-DRIVE system, which constitutes two 201 HP electric motors powered by a lithium-ion battery pack. This innovative petrol engine/electric motor combination lets the car travel up to 50 miles without gasoline. Once the 50 mile range is crossed, a generator attached to a 260 HP turbocharged 2.0 liter Ecotec direct injection gasoline engine powers the vehicle for an additional 300 miles. The car accelerates from 0 to 60 mph in 5.8 seconds, recording a top speed of 125 mph.
Though the Karma’s price originally stood at $87,900, Fisker has announced that the figure will hit $95,000 before federal incentives. Currently, Fisker Automotive is the second company in the world, after General Motors rolled out the Chevrolet Volt, to produce an electric car that also combines the capability to extend its mileage.
Norwegian Post 1st Customer for Ford Transit EV in Europe [video]
Ford Motor Company and Azure Dynamics announce that Norwegian Post becomes the first European customer of the Ford Transit Connect Electric with order of 20 units
The all-electric, zero-emission Ford Transit Connect Electric van has a targeted range of up to 130km (80 miles) per full charge, and is ideal for fleet owners with well-defined routes
Transit Connect Electric is the first of five new electrified vehicles Ford is bringing to market in Europe by 2013, including the Ford Focus Electric debuting next year
Ford and Azure Dynamics Corporation have confirmed their first European customer for the zero-emission Ford Transit Connect Electric van. Norwegian Post today signed a contract to purchase 20 Transit Connect Electric vehicles, with an option to order more vehicles in the future. Norwegian Post is the largest provider of mail and logistics servicesand the biggest employer in Norway.
"The Norwegian Post will be an environmental leader in the mail and logistics industry by taking advantage of the latest technology available," said Dag Mejdell, CEO, Norwegian Post. "In signing a contract for delivery of the new Ford Transit Connect Electric, the Norwegian Post is taking an important step towards its goal of reducing 150.000 tonnes of CO2 annually."
Ford and Azure are introducing the Transit Connect Electric in summer 2011, as increasing numbers of fleet operators are demanding the benefits of efficient, clean alternative power for their vehicles.
With 28kWh of power to call on, Transit Connect Electric has a top speed of 120km/h (75mph) and a range of up to 130 km (80 miles) on a full charge.
"Transit Connect Electric was designed and engineered with customers like Norwegian Post in mind," said Scott Harrison, Azure CEO. "The ForceDrive(TM) powertrain excels under the types of urban driving conditions that the Transit Connect Electric is likely to encounter during postal delivery routes. We're honoured to have Norwegian Post as our inaugural customer in Europe and are eager to help them achieve theenvironmental, operational and performance goals that they seek."
Ford's Global Electric vehicle plan
The Ford Transit Connect Electric - Ford's first all-electric vehicle in Europe - is the first of five electrified vehicles that Ford plans to launch in Europe by 2013. Next comes the Ford Focus Electric in 2012, followed by the C-MAX Hybrid and C-MAX Energi plug-in hybrid, as well as another hybrid electric model in 2013.
"By providing a variety of electrified vehicles, we are making it easier for our customers to embrace this fuel-saving technology," said Thormod Skofsrud, managing director, Ford Norway. "This strategy is true to our heritage of making innovative technology available to as many people as possible and to our vision of developing great products."
Practical and affordable
Transit Connect Electric will offer European operators the opportunity to eliminate petrol bills in their small vans and help to lower overall maintenance and running costs.
Ford's Transit Connect commercial platform is an ideal choice for battery electric power thanks to its unique combination of car-like driving dynamics, generous cargo capacity, easy accessibility and low operation costs.
With a cargo volume 3.8 m3 and a payload of 500 kg, Transit Connect Electric will particularly appeal to operators who travel predictable, short-range routes with frequent stop and go driving. Transit Connect Electric can be recharged using standard European 220/240-volt outlets in approximately eight hours. Commercial van users generally return to a central location at the end of a driving cycle perfect for recharging over night.
Zero emissions
The Transit Connect Electric is a pure electric-powered version of the award-winning, long-wheelbase Transit Connect light commercial vehicle. Azure's proprietary Force Drive(TM) powertrain uses an advanced lithium ion battery pack designed by Johnson Controls-Saft to power the vehicle that produces zero tailpipe emissions.
Azure's ForceDrive(TM) powertrain has previously been deployed in more than 40 vehicle integrations and has more than 35 million miles of on-the-road experience.
Tried and tested
The Transit Connect Electric goes on sale in European markets this summer following its successful launch in North America in December 2010.
'Glider' units - complete vehicles except for the powertrain - are shipped from the Ford Otosan manufacturing facility in Kocaeli, Turkey, directly to an Azure-contracted up-fitter for final assembly. The completed Transit Connect Electric vehicles are then sold by Azure Dynamics through a specially-created network of dealerships. The European Transit Connect Electric will be badged with both the Ford Blue Oval and Azure's Force Drive logo.
Transit Connect Electric builds on an existing relationship between Ford and Azure and battery supplier Johnson Controls-Saft.
"Transit Connect Electric exemplifies how we are leveraging our relationships as well as our hybrid and advanced powertrain programs to bring energy-efficient technologies from the laboratory to the street," said Derrick Kuzak, Ford group vice president, Global Product Development. "Not only is this an ideal vehicle for eco-conscious fleet operators, it is an important part of Ford's future."
Transit Connect Electric Technical data
Body
'Glider' assembly at Ford Otosan plant in Kocaeli, Turkey
Final assembly by Azure Dynamics Corporation
Propulsion architecture
Siemens AC induction motor, Azure Dynamics inverter
Borg-Warner transaxle, Johnson Controls-Saft battery pack
System voltage range 260V - 380V
Electric drive system
Motor Siemens model 135, 3-phase AC induction motor, 300V nominal, liquid-cooled
Torque 158 Nm (continuous) / 235 Nm (peak)
Transmission Borg-Warner 31-03, single-speed
Gear ratio 8.28:1
IEC 62196 type 1
Battery
Johnson Controls-Saft lithium-ion pack
Capacity 28 kWh, 16 modules / (192 cells)
Voltage range 215V - 390V / charger - 3.3 kW
Weights and capacities
Maximum payload 500 kg
Curb weight 1791 kg (est.)
Cargo volume 3.8 m3
Performance
Driving range up to 130 km (80 miles) per full charge
Charge time of around 8 hours for full cycle using 230 V
Top speed 120 km/h (75 mph)
Acceleration 0-100 km/h (0-60 mph) in 12 seconds (based on kerb weight)
0-100 km/h (0-60 mph) in 15 seconds (based on gross vehicle weight rating)
Monday, March 21, 2011
Nissan Begins Delivery of Leaf to UK Customers
Nissan today began deliveries of the first 100% electric, mass produced, affordable family car, the Nissan LEAF, to customers in the UK.
Smooth FM DJ Mark Goodier and electronics engineer Richard Todd took delivery of their Nissan LEAFs today at Glyn Hopkin Nissan in Waltham Abbey, Hertfordshire. This groundbreaking moment represents the start of Nissan's vision of bringing sustainable mobility to the mass market in the UK.
Smooth FM Radio DJ Mark Goodier has been driving electric cars for the last decade. "The great thing about electric cars is that the fuel distribution is already in place. We all have mains electricity at home. We have it at work and councils are already working on how to install thousands of charging points at the roadside. You can see why EVs make such sense, particularly in towns and cities.
The LEAF is a proper full size family car with a 100 mile range* - way more than most drivers do in a day. It's everything that people like me, who have been driving electric vehicles for a long time, have been waiting for. It's going to change our lives for the better," he commented.
Silicone chip designer Richard Todd from St Albans, Hertfordshire was the first customer in the UK to place his order for a Nissan LEAF when the order books opened last September. Today, he and his wife Jane took delivery of a black Nissan LEAF with the optional solar panel.
"As an engineer I have always wanted an electric car - I've just had to wait for the battery technology to arrive. Hybrids are good but the driving experience of an all electric vehicle is way beyond this. Of course, the lack of emissions in town is a big positive too," he commented.
"The Nissan LEAF is ideal for us as a family with the range and size being more than adequate for most of our driving needs. At evenings and weekends, we'll be using the Nissan LEAF mainly for local trips and transporting our two children between their many activities," he continued.
Paul Willcox, Managing Director at Nissan Motor GB, was on hand to witness the handover of the first Nissan LEAFs in the UK. He commented: "The Nissan LEAF is pioneering the electric car revolution in the UK. We first unveiled the car in August 2009 and we've been building up to this moment for over 18 months.
Today's deliveries mark the start of the introduction of the Nissan LEAF to customers across the country as our network of EV dealers will be delivering LEAFs to their pioneering customers later this week," he continued.
The Nissan LEAF is currently built in Japan, but will be manufactured at Nissan's award winning plant in Sunderland from 2013.
A comprehensive charging network is currently under development in the UK and Nissan's network of EV dealers - currently 26 sites across the country - will be equipped with a quick charger, which will charge the battery from zero up to 80% capacity in under 30 minutes. Across the UK there are programmes under way to install around 9,000 charge points by 2013.
Google Testing Wireless EV Charger
Using wireless technology similar to that available in an electric toothbrush, Google is trialing a Plugless Power™ charging station for electric vehicles at its Mountain View, Calif. headquarters. Plugless Power is the first electric vehicle (EV) charging system on the market to offer consumers a simple way to charge their EVs with the ease of hands-free, automatic technology.
Developed by Evatran™, LLC, Plugless Power is based on inductive technology, which has been used in electrical transformers for more than 100 years, and streamlines the charging of electric vehicles and extended-range hybrids by eliminating the nuisance of the cord and the plug.
“We are thrilled to have our first public release of the Plugless Power technology installed at Google’s headquarters,” said Tom Hough, co-founder and CEO of Plugless Power. “The interest shown by Google and the cooperation we’ve received to retrofit their EV provides evidence that a simple, convenient charging process is needed for the widespread adoption of electric vehicles.”
Google has multiple low-speed electric vehicles for short-range travel around its campus and includes plug-in vehicles in its on-campus employee car-sharing program. The company will initially use the Plugless Power station to charge a retrofitted short-range electric vehicle. Google showed interest in testing the Plugless Power technology and understanding how its features could simplify the charging process for its plug-in EV fleet vehicles.
According to Hough, this first public installation is an important step in bringing the technology to commercial customers, and Evatran is actively seeking other fleet trial opportunities with corporations and municipalities to experience the Plugless Power technology in the third quarter of 2011. Most EV models are eligible for Plugless Power through a simple retrofit process. In addition to fleet distribution, Evatran is currently working with automotive manufacturers to integrate the Plugless Power technology into mass-market EVs by 2012.
Porsche 918 Spyder Plug In Hybrid goes on Sale for $845,000
Porsche has today opened the order book for its new 918 Spyder plug-in hybrid supercar - and set the price at $845,000, excluding destination and handling charges.
To ensure the 918 Spyder's worldwide exclusivity, Porsche will produce no more than 918 examples. Start of production at Porsche's famed factory in Stuttgart-Zuffenhausen is planned for Sept. 18, 2013. The first car arrives in November 2013.
The U.S. base manufacturer's suggested retail price is $845,000 (excluding destination and handling charges) or 645,000 euros (£563k) plus VAT and local taxes in Europe.
Unlike the Geneva Motor Show concept car, the Porsche 918 Spyder two-seat production version, based on a carbon fiber-reinforced plastic monocoque, will feature a manual roof system with removable panels that can be stored in the front luggage compartment.
The 918 Spyder will be powered by a unique plug-in hybrid system that will include a high-revving, mid-mounted V8 engine with capacity of more than 4.0 liters and producing at least 500 horsepower.
Two electric motors – one each on the front and rear axles – together will provide approximately 218 additional horsepower. This configuration also will offer an innovative, variable all-wheel drive system with independent control of the drive forces on both axles. Electrical energy will be stored in a liquid-cooled lithium-ion battery that can be recharged from a standard household outlet. Electric-only driving range is expected to be more than 16 miles on the NEDC. Recharge time will depend on each country's electrical power network, but charging is expected to take about seven hours at 110V/10A in the United States. A quick-charge option is being evaluated to further reduce charging times.
With anticipated combined fuel consumption of just 78.4 mpg (3.0 L/100 km) on the NEDC, this equates to CO2 emissions of only 70 g/km or 112 g/mile. On the other hand, the Porsche 918 Spyder will deliver super sports car performance. It is estimated that the final production version will accelerate from zero to 60 mph in about 3.1 seconds on its way to an estimated top track speed of 199 mph. It should also tackle Germany's famed Nurburgring Nordschleife in less than 7 minutes and 30 seconds, two seconds faster than the Porsche Carrera GT. Under the right conditions, the 918 Spyder will be able to drive on electric power alone at speeds up to 94 mph for limited distances.
Customers who order the 918 Spyder also have the opportunity to acquire a special-edition 911 Turbo S Coupe or Cabriolet. Also limited to no more than 918 units, the 911 Turbo S Edition 918 Spyder will have exterior and interior design elements echoing the plug-in hybrid 918 Spyder supercar's styling. It features similar exterior colors, carbon-fiber elements inside and out, enhanced leather equipment and numerous acid-green accents on items such as the brake calipers, illuminated sill plates, interior stitching and instrument cluster needles. A limited-edition badge on the glove compartment door will feature the same production number as the customer's 918 Spyder.
Worldwide 918 Spyder customers can begin ordering this special edition 911 Turbo S sports car today, and customer deliveries will start later in 2011. The U.S. base manufacturer's suggested retail prices for the Coupe and Cabriolet versions are the same as the standard 911 Turbo S models, $160,700 and $172,100 respectively, excluding destination.
Panic buying raises prices on Toyota Prius Hybrids
Americans have begun snapping up Toyota Prius, Honda Fit and other fuel-efficient models made only in Japan almost the way shoppers denude bread and milk shelves in a supermarket when a storm is predicted.
The intensity first spurred by rising gas prices has been amplified by predicted shortages of many models as the Japanese auto industry remains disrupted by the March 11 earthquake and its aftermath.
"We've gone from 60 (Priuses) in stock to 16" over the last two months, says Buzz Rodland at Rodland Toyota in Everett, Wash. A dozen are coming, "but we are told they are going to dwindle" quickly after that.
Indicating the shortages may not be brief, Honda has told dealers it's not taking orders for any vehicles made in Japan in May. March and April orders already were delayed.
Topsham, Maine, dealer Adam Lee says the only Priuses left that dealers can get their hands on in New England tend to be the fully equipped, costlier models, which could have the effect of pushing up prices even more if buyers get past their usual resistance to the higher-price versions.
In what now seems like a stroke of genius, he says, the family's Toyota store bought 15 used Priuses at a wholesale auction, then went back and got 15 more — at higher prices. Wholesale prices on used Priuses are up about $1,500 just in the last month, he says.
Toyota, Honda and others say they hope to resume production this week, but that could be unrealistic.
"From all the things we're gathering, including memos from Japanese companies … the potential impact of the tragedy is a bigger deal" than they are portraying, says Jesse Toprak, analyst at auto researcher TrueCar.com.
Prices of Prius and Fit, both iconic for fuel-conscious buyers and both made only in Japan, inched up immediately after the disaster, according to daily data tracked by TrueCar.com. The average price paid for a Prius in the U.S. rose $135, or 0.5%, the first four days after the March 11 quake, to $25,629. Fit was up $21, or 0.1%, to an average $17,246.
Other high-mileage cars made for the U.S. market only in Japan include the Toyota Yaris; Honda Insight, CR-Z and Civic hybrids; Mazda3; and Nissan Leaf electric car.
People seeking to quit leases early and get into new cars before there's a shortage could be in luck. Brian Allan, general manager at Galpin dealerships in Los Angeles, says many dealers want off-lease cars for used car lots because the recession cut the number of trade-ins. When the leases were written in the worst of the recession, wary lenders assigned artificially low after-lease values. Now the cars are worth more than forecast, giving the lease holder equity toward a new car and the dealer a potentially profitable used car.
Allan says he's telling lease customers, "'You're in a position to trade out early, skip your last four payments and get into a new car.'"
Sunday, March 20, 2011
Green Overdrive: Inside Tesla’s Model S Alpha [video]
For the latest episode of GigaOM TV’s Green Overdrive Show Katie Fehrenbacher takes a look behind the scenes of the Alpha program for Tesla’s next-generation all-electric car the Model S.
Tesla has built 20 Alpha (prototype) Model S’s that it’s using to test out various features like safety, durability, electronics and steering capability.
Katie a look at some of the Model S design features and interview Tesla Model S Program Director Jerome Guillen, who has been driving the Model S Alphas to and from work.
Friday, March 18, 2011
Porsche Takes on Nurburgring 24 with 911 GT3 R Hybrid v2.0
Porsche AG will enter the Nürburgring 24 hour race on June 25, 2011, with a more advanced version of the Porsche 911 GT3 R Hybrid. The priority for this latest edition was improvement of efficiency through the targeted optimization of hybrid components, which also resulted in a 20 percent weight reduction. Version 2.0 of the 911 GT3 R Hybrid is intended to achieve the same lap times as its predecessor but with less fuel consumption.
The general layout of the hybrid was adopted from the 2010 model. A portal axle with two electric motors drives the front wheels and supplements the four-liter - depending on the balance of performance classification - approximately 470 hp, six-cylinder boxer engine at the rear. The output of both electric motors has increased from 60 to 75 kilowatts each. For bursts of multiple seconds at a time, drivers now have almost an additional 200 hp at their disposal with the 911 GT3 R Hybrid 2.0. Depending on the programming, this power is automatically activated through use of the throttle pedal. Moreover, pilots can manually call up this extra power, for instance when overtaking.
The electric flywheel accumulator, with its rotor spinning up to 40,000 rpm and storing energy mechanically as rotational energy, is now housed with the other hybrid components in a carbon fiber safety cell on the passenger's side.
At first glance, the new GT3 R Hybrid is clearly distinguishable from the 2010 model. Thanks to the optimization of the hybrid system's high voltage components, the large louvers in front of the rear fenders were no longer necessary. This reduces drag and also lowers fuel consumption. All in all, the weight of the vehicle decreased from 1,350 to 1,300 kilograms.
"We've collected a great deal of information from our races on the Nürburgring, at the ALMS race at Road Atlanta, as well as from the ILMC race on China's Zhuhai circuit. The data was invaluable for the further development of our racing laboratory," says Hartmut Kristen, head of Porsche motorsport. "The emphasis of our work was on improving efficiency. That means we want to keep the lap times consistent with 2010 but use less energy, hence less fuel. In this way, we support future developments of road-going, sporting hybrid vehicles."
The cockpit of the 911 GT3 R Hybrid has also been completely revised. Most of the displays and controls have moved to the steering wheel. Drivers can operate the rest of the functions via backlit buttons now situated on the centre console. Priority was placed on the ergonomics and the clear layout for pilots – particularly in darkness.
The new 911 GT3 R Hybrid is a perfect example of the 'Porsche Intelligent Performance' philosophy, a principle found in every Porsche - more power on less fuel, more efficiency and lower CO2 emissions – on the race track and on the road.
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