Electric Vehicle News: 2014

Friday, December 26, 2014

Audi aims to launch two electric vehicles by 2018

Volkswagen's premium Audi division aims to bring two purely electric vehicles to market by 2018 as it tries to catch up with rivals such as Tesla Motors and BMW.

Audi's Chief Executive Rupert Stadler told German daily Frankfurter Allgemeine Zeitung (FAZ) in an interview to be published on Saturday that the launch of an electric sports car and a sports activity vehicle (SAV) were under way.

The SAV would be a four-wheel drive with a range of more than 500 km (310 miles) per battery load, Stadler said.

He also told FAZ that Audi's push to develop electronic drive and digital technologies would mean the division adding 2 billion euros ($2.4 billion) to its investments by 2019. Audi's investment budget through 2018 amounts to 22 billion.

Tesla Roadster 3.0 adds 70 kWh Battery and 640 km Range

Tesla Motors have announced a new extended-range upgrade for the Roadster — the Lotus-based two-door that preceded the Model S sedan.

The upgrade includes a battery swap, a retrofit aerodynamics kit to reduce drag by 15% plus new tires and wheel bearings to decrease rolling resistance by 20%. The upgrades are expected to yield a 40 to 50 percent improvement in range, breaking the 400-mile mark.

Battery technology has continued a steady improvement in recent years, as has Tesla's experience in optimizing total vehicle efficiency through Model S development. Tesla have long been excited to apply this learning back to their first vehicle, and aim to do just that with the prototype Roadster 3.0 package. It consists of three main improvement areas.

1. Batteries
The original Roadster battery was the very first lithium ion battery put into production in any vehicle. It was state of the art in 2008, but cell technology has improved substantially since then. Tesla have identified a new cell that has 31% more energy than the original Roadster cell. Using this new cell they have created a battery pack that delivers roughly 70 kWh in the same package as the original battery.

2. Aerodynamics
The original Roadster had a drag coefficient (Cd) of 0.36. Using modern computational methods Tesla engineers 'expect' to make a 15% improvement, dropping the total Cd down to 0.31 with a retrofit aero kit.

3. Rolling Resistance
The original Roadster tires have a rolling resistance coefficient (Crr) of 11.0 kg/ton. New tires for the Roadster 3.0 have a Crr of roughly 8.9 kg/ton, about a 20% improvement. They are also making improvements in the wheel bearings and residual brake drag that further reduce overall rolling resistance of the car.

Combining all of these improvements Tesla 'expect to achieve a predicted 40-50% improvement on range between the original Roadster and Roadster 3.0. There is a set of speeds and driving conditions where we can confidently drive the Roadster 3.0 over 400 miles (640 km). Tesla will be demonstrating this in the real world during a non-stop drive from San Francisco to Los Angeles in the early weeks of 2015.

Appointments for upgrading Roadsters will be taken this spring once the new battery pack finishes safety validation. Tesla are confident that this will not be the last update the Roadster will receive in the many years to come.

Mercedes Developing Electric Vehicle Platform

Mercedes-Benz is in the early stages of developing a new platform to underpin a range of electric vehicles.

The platform, tentatively called Ecoluxe, is part of an ambitious €2 billion project that Mercedes executives are allegedly about to approve. The guidelines call for a platform that is light in order to offset the bulk of the battery pack and modular so that it can underpin both long and short wheelbase vehicles. Mercedes is currently planning on building four body styles on the Ecoluxe platform, though additional variants could be added later in the production run.

German magazine Auto Bild reports that all cars built on the Ecoluxe platform will feature rear-wheel drive and an innovative four-wheel steering system. The first model, which has not been given a name yet, will pack the equivalent of 544 horsepower in standard S form or 603 hp in GT tune. A high-capacity battery pack located under the passenger compartment will give the car a maximum driving range of at least 450 km.

The first model underpinned by the Ecoluxe platform is scheduled to hit the market in either 2019 or 2020

BMW say Auto Industry Switch to Electric Cars Not Far In Future

BMW gives the signal of change in the auto industry saying that the moment to move to electric cars is not that far in future.

The evolution of electricity storage technologies will ensure the appearance of more efficient batteries and the launch of electric cars with ranges comparable to that of fossil fuel cars. BMW officials think that moment will soon be upon us.

One of the core people in BMW’s organization chart, Ian Robertson, said that electric cars that run on hydrogen fuel cells may be the solution for the future of the automotive industry. But this is very unlikely to happen because the technologies that will enable more efficient energy storage in “normal” batteries will evolve and will radically transform ranges and load times of conventional electric cars.

“We’ve said we’ll continue to invest in hydrogen and that will result in a small number of production test vehicles being made to prove the technology works. The real issues lie not around what we can do, though, but whether the infrastructure can be built up to supply hydrogen in the marketplace cost-effectively.” said Robertson arguing that the current lithium-ion batteries will slowly be replaced by more efficient technology.

“Advances in lithium ion technology are set to be followed by a switch to lithium air and then solid-state batteries. These advances over the next 10 years could see charging time and range worries disappear,” Robertson thinks.

Solid-State Batteries are one of the solutions proposed by technology companies. This battery is based on solid electrolytes instead of liquid electrolyte from today’s batteries. This technique allows using conventional electrodes and they are changed with some Lithium Metal. In this configuration, a battery can store two to three times more energy and provides short charge times, thus improving the level of safety: the battery does not contain the flammable liquid presently found on any battery on the market today.

With regards to the pace of adopting electric cars, BMW official believe that it will be accelerated by the manufacturers which, at one time, will redirect investments from classical combustion engines toward the electrical ones.

“At some point in the future the technologies will switch over. When the crossover comes and the focus becomes electricity, the rate of learning will accelerate even faster. Relatively, that time is not far away” concludes Ian Robertson.

Tuesday, December 16, 2014

Carnegie Mellon Researchers Increase Lithium Air Battery Energy Capacity 5x

Carnegie Mellon University's Venkat Viswanathan and a team of researchers have reduced the problem of sudden death in lithium air batteries through the addition of water, increasing energy storage capacity by five times.

"We could not get all the energy out of these batteries because of sudden death," says Viswanathan, an assistant professor of Mechanical Engineering. "That was the ugly aspect of this battery."

Lithium air batteries are an exciting research frontier because they could store at least twice as much energy as lithium ion batteries, which are currently the most common battery used in many consumer products, ranging from cell phones and laptops to electric vehicles. The potential of lithium air batteries lies in replacing one of the battery materials, the cathode, with air, making lithium air batteries lighter than lithium ion batteries. The lighter the battery, the more energy it can store. In addition, lithium air batteries have the possibility to increase safety.

Viswanathan, IBM researchers Nagaphani B. Aetukuri, Jeannette M. García, and Leslie E. Krupp, University of California, Berkley Assistant Professor Bryan D. McCloskey and Alan C. Luntz of the SLAC National Accelerator Laboratory discovered that adding water to the battery decreases a phenomenon called sudden death, which reduces the battery's storage capacity. They published their results in Nature Chemistry.

Sudden death causes lithium air batteries to die prematurely. The batteries require lithium, oxygen and an electron to move inside the battery to reach the active site where the reaction produces energy. As the battery operates, however, the lithium and oxygen form lithium peroxide films that produces a barrier and prevents electron movement to the active site, resulting in sudden death.

Water selectively dissolves the lithium peroxide, and the dissolved lithium and oxygen move to a toroidal depository in the cathode, removing the barrier to electron movement, before reforming into lithium peroxide.

"This allows for five times the capacity of the original case," says Aetukuri.

While water is a temporary solution, it is eventually consumed and results in parasitic products that reduce battery efficiency. Viswanathan and McCloskey are currently searching for an additive other than water, which will result in increased battery capacity and efficiency. However, the addition of water is a large step forward in lithium air battery technology.

"This additive opens up the opportunity to be able to reach a much higher energy density than a lithium ion battery, and once we perfect the design, we can compete with lithium ion batteries," says Viswanathan.

To read the full Nature Chemistry paper, visit: http://www.nature.com/nchem/journal/vaop/ncurrent/full/nchem.2132.html

Tuesday, December 9, 2014

Electric Car Sales Booming in The Netherlands

Of all cars sold in the first three quarters of 2014 in the Netherlands, 4.3% were electric or hybrid cars. In the last quarter of 2013, the number was even higher: 15%. The main reason for these very high EV sales in the Netherlands is fiscal measures, says Roland Berger Strategy Consultants, who published the figures.

The number of electric and hybrid cars sold in the last quarter of 2013 was 14,842. The best-selling car was the Mitsubishi Outlander, with 8,039 sales. Most EV’s and hybrids sold in the Netherlands are made in Japan: the Toyota Prius and Nissan Leaf are also popular.

The Netherlands wants to have 200,000 EV’s and hybrids on the road by 2020. Currently it has 70,000, almost 1% of the total.

Source: Energy Post

Samsung leads $17M investment in Solid State Lithium Ion Battery Start-up

Seeo Inc., a battery maker developing a Solid State Lithium Ion Battery for electric vehicles, got a $17 million round of financing led by Samsung Group’s venture capital arm.

Seeo will use the funding from Samsung Ventures to continue to develop its lightweight lithium-polymer battery technology, the Hayward, California-based company said in an e-mailed statement today. Existing investors Khosla Venture and GSR Ventures also joined in the funding.

According to Seeo, it will use the cash injection to expedite the commercialization of its DryLyte advanced lithium polymer batteries, which sport an electrolyte that enables better energy density, specifically for use in electric vehicles.

Seeo currently has cells (though not in use commercially) capable of operating with an energy density of 350 Wh/Kg (watt-hour per kilogram), but it’s now targeting 400 Wh/Kg — around double that used in most electric vehicles today. But safety is paramount when developing such batteries, and this is the crux of the technology Seeo is working on.

Seeo’s DryLyte “solid” polymer electrolyte is non-volatile and non-flammable, which means it can be used at a much higher temperature. Seeo is striving to replace the standard flammable liquid-based electrolytes, typically found in lithium-ion cells, with its own technology.

Scandinavia's First Lithium Battery Electric Car Ferry Completes Over 4,000 Trips

The KF Hisarøy electric cable ferry has now been sailing between Mjånes and Hisarøy in Norway daily for over one year, with flawless operation. The Ferry was launched in September, 2013 with a new propulsion power system consisting of a complete rechargeable battery system from Electrovaya in cooperation with Solund Verft, HAFS Elektro & Rør AS and Electrovaya´s subsidiary Miljobil Grenland AS in Norway. The Owner of the vessel is Wergeland Halsvik AS.

The 100 KWh prototype battery system is based on Electrovaya's SuperPolymer®2.0 technology, providing excellent performance and reliability with an exceptionally small on-board footprint. The battery system is an important step forward for the global maritime industry and a major step towards replacing diesel generators with a greener, toxic–free alternative form of energy. The owner of the vessel is Wergeland AS and Gulen Skyssbåtservice operates the ferry.

The battery electric ferry can save up to approximately 180,750 liters of fuel consumption over its expected lifetime. It has a potential to save about 500 tonnes of emissions; 480 tonnes of CO2, 9 tonnes of particulate matter and volatile organic compounds, 2 tonnes of Carbon monoxide and 2 tonnes of other type of emissions. The Electrovaya lithium ion battery also eliminates fuel exhaust including the usual carcinogens from diesel exhaust.

The Cable Ferry is operating approximately 10 round-trips per day between the mainland and the Hisarøy Island, a round trip distance of about 1.6 kilometers. The Cable Ferry is driven by two winches on-board and Electrovaya's on-board Lithium Ion battery system is recharged on the mainland between the round trips and over-night. KF Hisarøy is built to carry 49 passengers and 6 cars.

With the International Maritime Organization (IMO) pressuring the marine industry to reduce GHG emissions and as the price of diesel continues to rise, there has been growing interest in developing clean propulsion systems for vessels in countries including Norway and Canada. The marine electric vehicle market is expected to grow from $2.6 billion to $6.3 billion by 2023. Demand will come from both on-water and underwater electric vehicles for use both on inland waterways and the sea. The key advantages of electric powertrains for marine vehicles are the lower maintenance requirements and minimal noise, air and water pollution.

Wergeland Halsvik AS is very pleased with the ferry and the battery system delivered from the yard and its cooperating partners " said Hans Wergeland, the owner of KF Hisarøy. "As this market grows, and the demand for environmentally friendly, zero carbon foot-print energy solutions increases, this system is well-suited to further opportunities in the marine sector."

"We are delighted to be working with Electrovaya, Miljobil Grenland and HAFS Electro." says Svein-Tore Eide, General Manager of Solund Verft AS, the ship building company responsible for the project. "This first battery electric cable and road ferry in Scandinavia demonstrates that an all-electric propulsion system has value for other marine applications," added Mr Eide.

Electrovaya is pleased to have been part of this historic launching of Scandinavia's first electric cable Ferry. In addition to addressing the Global problems of Climate Change, this project has enabled Electrovaya to gather important technical data about the operation of such a vessel, positioning Electrovaya as a leader in this industry.

Saturday, December 6, 2014

VW buys stake in solid-state battery startup aiming to triple EV range

Volkswagen bought a stake in battery startup QuantumScape with the aim of developing technology that can more than triple the range of its electric cars, according to people familiar with the matter.

VW is considering using the energy-storage technology, which is fireproof, for vehicles from the namesake brand as well as Porsche and Audi, said the people, who asked not to be identified because the plans are private. Tests to show the system is viable for cars are due to be completed in mid-2015, they said. The VW of America unit bought a 5 percent holding and has options to raise the stake.

Peter Thul, a spokesman at Wolfsburg, Germany-based VW, declined to comment on any investment. Calls to the main switchboard and an e-mail to San Jose-based QuantumScape seeking comment weren’t answered. Financial details of the company weren’t available.

Solid-State Technology

QuantumScape is an early-stage battery startup that has been working on commercializing technology from Stanford University. It was founded and is being led by Infinera co-founder and CEO Jagdeep Singh, and is backed by Kleiner Perkins Caufield & Byers and Khosla Ventures.

Licensing technology from Stanford, the company has been looking to create batteries that are energy dense as well as safer than standard lithium ion batteries. The company’s technology uses a new method for stacking trace amounts of materials together, which can lead to high energy and power densities, and also higher cycle life than traditional lithium ion batteries.

The Department of Energy’s ARPA-E program awarded grant funding to the stealthy firm back in 2011 describing the technology as:

This novel battery stores energy by moving electrons, rather than ions, and uses electron/hole redox instead of capacitive polarization of a double-layer. This technology uses a novel architecture that has potential for very high energy density because it decouples the two functions of capacitors: charge separation and breakdown strength. If successful, this project will develop a completely new paradigm in energy storage for electric vehicles that could revolutionize the electric vehicle industry.

700 km range

“I see great potential in this new technology, possibly boosting the range to as much as 700 kilometers (430 miles),” VW Chief Executive Officer Martin Winterkorn said in a Nov. 6 speech at Stanford University in California. That’s more than three times the range of the battery-powered version of the VW Golf. Tesla’s Model S has a range of 265 miles, according to its website.

Electric Car technology is critical for meeting tightening emissions regulations, especially for luxury-car manufacturers such as VW, BMW and Mercedes-Benz. Volkswagen’s increased focus on electric cars would put pressure on Tesla to maintain its sales lead.

The German automaker employs about 44,000 research and development engineers and spends $13 billion a year on new technology. Tesla’s entire workforce totaled about 5,800 employees at the end of 2013, and research and development expenses were $280 million in the first nine months of 2014.

“Electro-chemistry is a field of the greatest importance internationally and across industries,” and is “a field where we can and must achieve progress,” Winterkorn said in the speech. In July, he said the company had invested in a battery-technology company without providing details.

Fully Charged - KIA Soul EV Test Drive [VIDEO]

Robert Llewellyn takes a 560 km (350 mile) test drive in the all new Kia Soul EV.

Kia Motors is using a 360-V lithium-ion battery pack of “class-leading” energy density (200 W·h/kg) in the 2015 Soul EV to give it range of about 200 km (125 mi) on the European Driving Cycle, and “real-world” range of 80-100 mi (129-161 km) in the U.S. The cells and the battery are the same in all regions.

Kia says high-performance anode and gel electrolyte additive materials were developed. The new electrolyte additive allows for better range by more effectively dealing with low and high temperatures. A “special” ceramic separator with improved thermal resistance properties is used.

The cell casings are of polymer pouch type (as opposed to metal), and the battery pack is air-cooled. Standard equipment on the Soul EV includes receptacles for SAE J1772 Level 1 and Level 2 ac charging, as well as CHAdeMO dc fast charging (480 V).

The battery in the 2015 Kia Soul EV is the result of a three-year development program with lithium-ion cell maker SK Innovation. The 192 cells are packaged into eight modules and deliver a total battery capacity of 27 kW·h. The cell cathode is of nickel-rich NCM (nickel-cobalt-manganese) chemistry, with the raw materials for that and other components optimized for energy density, durability, and safety.

Wednesday, December 3, 2014

Tesla Model S Beats Porsche in Owner-Satisfaction Survey

Tesla drivers were more likely than Porsche owners -- or anyone else -- to say they’d buy their cars again in this year’s edition of the closely watched Consumer Reports buyer survey.

Tesla’s Model S luxury electric sedan topped the U.S. survey a second year in a row, scoring 98 out of a possible 100, after posting a 99 last year. This year’s No. 2 brand, Porsche, scored an average of 87 out of 100 across its model lines. Palo Alto, California-based Tesla, co-founded and led by billionaire Elon Musk, said last month that it expects to sell 50,000 Model S cars next year.

“Not only is the Tesla roomy, comfortable, and a lot of fun to drive, but it also has low operating costs,” Consumer Reports said.

The survey will bolster the 11-year-old carmaker’s image as the leader in the business of making high-end electric cars. Tesla plan to expand sales of the Model S and develop the long-awaited Model X SUV, which is expected in the third quarter of 2015. Tesla stock has gained 52 percent this year.

Sports Cars

The next three most satisfying vehicles in the Consumer Reports Survey, after the Model S, were sports cars: General Motors Chevrolet Corvette Stingray, with a 95 percent satisfaction rating, and Porsche Cayman and Boxster, which tied for third with 91 percent of buyers saying they’d purchase them again.

The survey covered 350,000 vehicles from one to three years old and took into account “attributes such as styling, comfort, features, cargo space, fuel economy, maintenance and repair costs, overall value, and driving dynamics,” Consumer Reports said.

Hybrid, electric and diesel-powered cars outscored gas engines throughout the survey, with the Chevrolet Volt and Toyota Prius leading the compact-car category and Honda Accord Hybrid and Ford's Fusion Energi atop the list of mid-sized sedans.

Tuesday, December 2, 2014

Germany to Boost Incentives in Push for 1 Million Electric Cars

Chancellor Angela Merkel said Germany will need to provide more incentives to meet a goal of having 1 million electric cars on the country’s roads by 2020.

“There’s a lot to do,” Merkel said today during a press conference in Berlin. “We see that further subsidies are necessary. We must speak with the German states about that.”

Merkel is far behind in her push for 1 million electric autos in part because her government has balked at incentives like those offered in France, where consumers receive as much as 6,300 euros ($7,840) to help cover the higher cost of low-emission vehicles. Germany, which has about 24,000 electric autos on its roads, is considering offering a tax break for zero-emission vehicles sold as company cars.

“We’re far from our goal to establish Germany as a leading market for electro-mobility,” said Matthias Wissmann, president of German auto-industry lobby VDA. “The government needs to act” on plans such as the corporate tax reduction.

The chancellor is trying to reduce emissions by pushing the country’s auto industry to build more electric cars after French, Japanese and American carmakers got off to an early lead. German auto manufacturers will offer 17 electric models by the end of 2014, and another 12 will go on sale next year, according to the VDA.

Charging Stations

Merkel’s cabinet announced plans in September to offer electric-car buyers special privileges, backing a bill that would enable municipalities to offer drivers of battery-powered cars, fuel cell vehicles and some plug-in hybrids free parking and the right to use bus lanes.

The country has 4,800 charging stations, said Henning Kagermann, a former chief executive officer of software maker SAP who is heading the government’s electric-car effort. Transport Minister Alexander Dobrindt said Germany will add 400 stations at rest stops along the autobahn network to make it possible to travel across the country with electric vehicles.

“We need a super-charger infrastructure where you can charge 80 percent of the battery in 15 minutes,” said Stefan Bratzel, director of the Center of Automotive Management at the University of Applied Sciences in Bergisch Gladbach, Germany. “The government can help to establish standards for plugs to make the charging stations accessible for vehicles of all brands. We’re still very much in the wild electro-west.”

BMW i3

Zero emission vehicles from German automakers include Bayerische Motoren Werke AG’s i3 city car as well as electric versions of Daimler AG’s Smart two-seater and Mercedes-Benz B-Class. Volkswagen AG sells the Up! and Golf with electric motors. The offerings follow the entry into the market of Tesla Motors Inc.’s S Model, Nissan Motor Co.’s Leaf and General Motors Co.’s Volt.

Germany was a transport pioneer when it opened Europe’s first car-only highway in 1921 in Berlin. Its free-wheeling autobahn, which often doesn’t have a speed limit, has spurred a motoring culture, helping BMW, Mercedes and and VW’s Audi and Porsche brands to dominate the market for high-end cars.

The government announced plans today for a conference next summer in Berlin to discuss how the country can make further progress in electro-mobility.

Monday, December 1, 2014

BMW i8 vs BMW M1 track battle [VIDEO]

The new BMW i8 is a futuristic stunner, with a hi-tech duo of an electric motor and petrol engine from the MINI Cooper. Jump back more than three decades and the last mid-engined car to wear a BMW badge was the M1 - which turned just as many heads when it debuted in 1978.

To find out how thirty years of evolution has changed the BMW supercar, Auto Express took along a classic M1 to meet the new i8 at the test track. The BMW i8 features a 1.5-litre three-cylinder turbocharged petrol from the MINI Cooper driving the rear wheels, while an electric motor drives the front. Under the engine cover of the M1 is something altogether much more traditional: a 3.5-litre six-cylinder unit putting out 277bhp and 330Nm of torque. This compares to 357bhp and 570Nm in the i8.

On the track, the two cars feel very different. The M1 wasn't pushed too hard due to its age and value - mint examples fetch around £400,000 - but it performed brilliantly around the track. The gearbox has lovely action, the steering is perfectly weighted and the chassis feels perfectly matched to the power on tap.

Jump into the i8 and it feels very futuristic. There's instant power on tap due to the combination of the electric motor and the engine in Sport mode, with a great soundtrack in the cabin - it's even reminiscent of the sound of the M1. There's plenty of grip, too, and the performance is great. It's rather special and doesn't feel like any other BMW.

Both the i8 and M1 are true BMWs at heart. It's not often that BMW breaks the mould and builds a mid-engined car, but when they do, they know how to make their mark.

Stohl Racing reveal Peugeot 207 S2000 AWD Electric Rally Car

Stohl Racing surprised at the Motor Show in Essen. The Austrians transplant two electric motors in a Peugeot 207 S2000 and have been approved for use in special stage rallying.

The Peugeot S2000 built by Manfred Stohl is all-wheel-drive via 2x electric motors with a maximum output of 400 kW (544 hp), more impressive is the torque of a whopping 880 Nm which, typical of electric motors, comes on immediately. Zero to 100 km/h takes only 3.0 seconds despite a weight of 1,500 kg.

A highlight is the installation of the battery, which is located between the driver and passenger. This is installed in a special cage construction, but can be changed in service in just five minutes. This is made possible through a specially designed trailer mounted lift.

The range of the electric-S2000 as usual depends on the driving style. Stohl Racing has calculated approx 30 kilometers range with a subsequent return to the Service to change the battery. The rally-e Stohl Mk1 will premiere in the state rally championship soon.

BMW Plans to Roll Out Plug-in Versions for Its Top Cars

BMW plans to offer plug-in hybrid versions of all its main models, including the best-selling 3-Series sedan, as the world’s largest maker of luxury vehicles reacts to tighter emissions regulations.

BMW is presenting a prototype of a plug-in hybrid 3-Series today in Miramas, France, the company said in a statement. The car combines a four-cylinder gasoline engine with an electric motor and can drive about 35 kilometers (22 miles) on battery power.

The German carmaker also plans to roll out a plug-in hybrid version of its X5 sport-utility vehicle and other “core-brand” models, according to the statement. Electric versions from the Mini and Rolls-Royce brands are also “a possibility,” said Manfred Poschenrieder, a spokesman for the Munich-based company.

Bayerische Motoren Werke AG (BMW) created the ‘’i’’ sub-brand for showcasing its clean-car technology and safeguarding its image as a maker of sporty vehicles. The first cars from the BMW i unit were the i3 battery-powered city car and the i8 plug-in hybrid super car. The company didn’t specify a timeframe for rolling out plug-in hybrid versions of its models.

Daimler to spend 100 million euros to expand German battery output

Daimler will spend about 100 million euros (US$125 million) in coming years to increase production of lithium-ion battery packs in eastern Germany.

The German automaker said on Monday it will expand capacity at Deutsche ACCUmotive, its battery-making division in Saxony as it expects "high and steadily-growing demand" for electric-car batteries.

The unit supplies batteries for the luxury Mercedes division's hybrid S-Class, E-Class and C-Class models, Daimler said.

Steps to increase battery output tie in with Daimler's plans announced last month to phase out production of lithium-ion battery cells at its second Saxony-based Li-Tec division by the end of 2015.

Daimler aims to employ the bulk of Li-Tec's 250 workers at Deutsche ACCUmotive.

The Stuttgart-based manufacturer in future plans to buy battery cells from LG Chem.

Asian makers of battery cells such as Samsung, Panasonic and LG Chem are producing the cells at lower costs, reaping benefits from scale effects as they're also serving non-automotive industries, analysts said.

Volvo hybrid bus with Siemens fast-charging system starts service in Hamburg

Officially launched at the International IAA Commercial Vehicles show, the Volvo 7900 Electric Hybrid buses equipped with a Siemens fast charging systems has taken its maiden tour in Hamburg, where it will be deployed from December on the 109 service.

“Battery technology is becoming increasingly attractive for use in buses. The electric hybrid bus is an important further step for us on the way to procuring 100% electric buses. Hochbahn sees itself as industry's partner in gathering important experience in everyday service,” said Ulrike Riedel, vice president for operation and human resources at public transport operator Hamburger Hochbahn.

The Volvo 7900 Electric Hybrid has an electric hybrid powertrain that combines a four-cylinder diesel 240 hp (177 kW) with an electric motor of 150 kW. The latter receives energy from a lithium ion battery of 19 kWh total storage capacity, this allows travel in electric mode a distance of 7 km between charges.

The lithium-ion battery is charged via two charging rails on the roof. Fast charging stations have been set up next to the route with a contact arm fastened to a mast. If the bus is with range of the contact system, the drive operates the parking brake and charging will start automatically. Charging is performed fully automatically and ends as soon as the charging is fully completed. The process also can be cut short by releasing the parking brake.

The fast charging stations in Hamburg are the latest development from Siemens for high-performance charging systems for electric buses. On the buses, it is only necessary to mount contact rails and a WiFi communication box. That saves space, weight, and costs on each bus. Communication between the bus and the charging station is established by WiFi. In this way, the bus is identified and the requirements of the battery management system are transmitted to the charging station. To make contact, the contact arm is lowered onto the charging contacts on the bus. The bus is electrically grounded before current starts to flow. The flow of current between the vehicle and the charging station is controlled continuously and matched to the individual charge state and battery type. The charging operation is completed in no more than six minutes.

Sunday, November 30, 2014

World Record holders Sunswift launch Pozible to fund refit of car for road registration

UNSW’s solar racing team Sunswift has launched a crowd-funding campaign to raise money to rebuild their car for Australian road registration.

The eVe vehicle, which recently smashed a 26-year-old world record for the fastest electric car over 500 km, is seen as a symbol for a new era of sustainable driving. It is covered in zero-emission solar panels and uses a battery storage system that can be charged with the solar cells or by plugging the car into a power outlet.

The world record proved the car is technically capable of covering the maximum distance a normal road user might want to drive in a single day.

The next step in the Sunswift journey is to put eVe within reach of the average driver by converting it from concept car to road-registered coupe.

The team of 60 undergraduate students behind Sunswift is aiming to raise $30,000 – about one-third of the amount they need – using the crowd-funding site Pozible. They plan to source the remaining money and components via sponsors and in-kind contributions from industry partners.

If successful, it will mark the first time a university solar car team has built a vehicle to the stringent standards of the Australian Design Rules – the national motoring standards that govern vehicle safety, anti-theft and emissions.

“Full registration is no humble feat with essentially the whole car needing to be deconstructed and rebuilt,” says project director and engineering student Hayden Smith.

“The car requires front, rear and side impact protection, headlights, windscreen wipers, new raised suspension and new wheels in addition to updated electrical components.

“The interior will also be redesigned to meet safety regulations and offer a level of comfort that would be expected from a commercial car.”

Coinciding with its latest fundraising push, the team has set an ambitious goal of achieving road registration as early as March 2015.

“Having solar cars conquer the roads would mark a huge leap in the race to develop more sustainable transport alternatives, showcasing their potential to be commercialised in the near future,” Sunswift’s chief business officer and student Rob Ireland says.

"However, we can't change the world by ourselves so we're asking for help to make it happen."

Supporters who contribute to the crowd-funding campaign will be offered rewards including 3D printed models of the car, solar cell mantlepiece trophies and one-time advertising space during PR events. The campaign begins on Monday 1 December.

Saturday, November 29, 2014

BMW reveal 'Tesla Killer' 500 kW eDrive plug-in hybrid system

Following the success of the BMW i3 electric car, and the i8 hybrid supercar, BMW has developed an even more powerful petrol-electric drivetrain that could underpin prestige and performance models in the future. This could be the most powerful BMW production powertrain ever.

The new system is part of an increasing investment into hybrid electric powertrains, starting with the upcoming 3-Series ActiveHybrid. This one in particular will sit at the top of the range. Expect it to appear in the firm's large saloons and M-powered SUVs in the next few years.

Dubbed Power eDrive, the new system forms part of a extended range of modular hybrid drivetrains being developed in a performance-based EfficientDynamics engineering program at BMW's research and development centre in Munich and envisaged for launch on a limited number of BMW Group production models in what it describes as "up-market segments" before the end of the decade.

The new hybrid system aims to provide the sort of smooth yet urgent step-off performance qualities delivered by a contemporary battery powered electric drive systems like that offered in the Tesla Model S, albeit with an overall range described as being over 600km thanks to a range extender function, including a 100km range on electric power alone.

Revealed in an otherwise innocuous-looking 5-series GT xDrive described by BMW as “the Tesla-killer”, the most powerful of BMW's new modular hybrid drivetrains uses the company's new 170 kW turbocharged 2.0-litre four-cylinder direct injection petrol engine in combination with two electric motors – a 150 kW version of the i3's synchronous unit mounted up front in the space usually taken up by the torque converter in the car's eight-speed automatic gearbox and an even more powerful 200 kW unit set within the rear axle assembly.

All up, it is claimed to boast a combined system output of 500 kW along with a torque loading that, BMW engineers suggest, reaches beyond 1000 Nm – figures that easily top the 338 kW and 720 Nm of the existing 6.75-litre V12 petrol engine used by the 11-year-old Rolls-Royce Phantom.

The principle behind BMW's Power eDrive system is a maximization of electric motor performance.

"The electric motors provide approximately two-thirds of the combined output, with the combustion engine accounting for the remaining third," says Franz Drescher-Kaden, a BMW concept engineer responsible for the new petrol-electric hybrid set-up.

Energy for the electric motors is provided by a 20 kWh lithium-ion battery mounted both longitudinally in the rear of the 5-series GT's centre tunnel and horizontally underneath the rear seat in a space ahead of the rear axle. It can be charged both via plug-in means and on the run using the combustion engine in a steady state mode. The fuel tank has been reduced in size from a standard 70-litres to 30-litres.

As well as acting as a generator to produce electricity, the Power eDrive hybrid system's petrol engine can also provide a performance boost with direct drive to the front wheels during kick down, in which all three power sources are used for propulsion.

Drive is nominally channeled to the rear wheels via the rear electric motor, whose reserves are sent through a multi-speed gearbox like the front motor in an i8. The introduction of the front electric motor, which operates via the eight-speed automatic in which it is housed, provides all-electric four-wheel drive. This is further enhanced by the combustion engine, which also delivers its power to the front wheels.

BMW has not revealed a weight figure for its new hybrid system. However, it does concede the addition of two electric motors as well as the lithium ion battery pack and ancillary electronic management system adds handsomely to the kerb weight. Despite this, the German car maker says the straight line performance of its 5-series GT Power eDrive prototype exceeds that of the 330 kW twin-turbocharged 4.4-litre V8 powered 550i GT, which tips the scales at 2070 kg.

Power eDrive is being developed as a scalable system with power outputs ranging from 190 kW to over 500 kW, according to BMW, which says the plug-in hybrid technology will be "a natural choice for use in up-market vehicle segments". The unit could appear in the forthcoming Rolls-Royce SUV, although the first model it will be dropped into is expected to be the BMW X7 luxury 4X4 in 2017.

Thursday, November 27, 2014

Electric vehicles account for almost 10% of Californian new-car sales

Hybrid electric and plug-in electric vehicle now account for almost 10 percent (9.6%) of all new car sales in California.

Electric vehicles, which registered nearly zero in state-wide new car-sales as recently as three years ago, are now taking a noticeable market share, according to the latest quarterly report released by the California New Car Dealers Association.

CNCDA said 23,648 registrations of various plug-in hybrid models in California from January through September this year accounted for 1.7 percent of all new-vehicle purchases. Registrations of all-electric vehicles, like Nissan’s Leaf, accounted for 20,516 new vehicle sales, or 1.5 percent, during that time.

The combined total of 44,164 for the first nine months of 2014 already tops California’s electric vehicle sales for all of last year. In 2013, combined sales of plug-in hybrids and all-electric vehicles in California topped 42,000, up 500 percent from 2011.

Sales of new, standard hybrid vehicles, another segment where California leads the nation, totalled 89,486 through September this year. That represents 6.4 percent all new cars sold state-wide in the January-September period.

Wednesday, November 26, 2014

Renault-Nissan sell 200,000th Electric Vehicle [VIDEO]

The Renault-Nissan Alliance has sold its 200,000th electric vehicle and has a leading 58% market share for zero-emission cars.

Together, Renault and Nissan EVs have driven approximately 4 billion zero-emission kilometers – enough to circle the earth 100,000 times. Renault-Nissan’s EVs represent 200 million liters of fuel saved – enough to fill about 80 Olympic-sized swimming pools. Alliance EVs also represent 450 million kg of CO2 that has not been emitted while driving.

The Alliance sold its 200,000th EV in early November, about four years after the launch of the Nissan LEAF, the world’s first mass-market electric vehicle. Nissan LEAF remains the best-selling electric vehicle in history.

From January through the first week of November of this year, the Alliance has sold about 66,500 units—an increase of about 20% from the same period last year. The Alliance sells about two out of three electric vehicles worldwide, including Twizy, Renault’s two-seater urban commuter vehicle and the Nissan e-NV200 van on sale in Europe and Japan.

“Renault and Nissan’s electric vehicles are the zero-emission volume leaders – and, most important, they enjoy high satisfaction rates from customers around the world,” said Carlos Ghosn, Chairman & CEO of the Renault-Nissan Alliance. “Based on positive owner feedback and the increasing demand for cars that run on renewable energy, it’s no surprise that EV sales are accelerating – particularly in regions where charging infrastructure is well developed.”

To capture what the first 200,000 consumers love about their electric vehicles, the Renault-Nissan Alliance is launching a series of videos featuring EV owners on three continents. “I Made the Switch” tells why people bought their electric vehicles and how switching to a zero-emission vehicle has changed their lives. The first video features Chris Beers, a software engineer from Holliston, Massachusetts, USA, one of many Americans who powers his Nissan LEAF with clean solar energy.

USA and Japan lead the world in EV ownership

In the United States, the Alliance’s biggest electric vehicle market, there are more than 750 quick chargers in operation. Nissan is working with its dealers and charging partners to increase that number to 1,100 by mid-2015. The quick chargers are able to charge a LEAF from zero to 80% capacity in about 30 minutes.

This year, Nissan also launched its “No Charge to Charge” program, which provides free access to selected charging stations for two years with the purchase or lease of a new Nissan LEAF. “No Charge to Charge” is currently active in 12 U.S. markets, and Nissan plans to expand to additional markets by mid-2015.

In Japan, the Alliance’s second-biggest EV market, there are more than 2,900 quick chargers in operation. Nissan and Japan’s three other top automakers have pledged to work together to raise that number to 6,000 by March 2015.

In Europe, the UK is the most advanced market in terms of electric vehicle infrastructure. Today, the quick charging network already covers 87% of the UK’s motorways.

Nissan LEAF is the world’s best-selling electric vehicle; Renault led in Europe in October

With six electric vehicle models on the road, the Renault-Nissan Alliance is the only global car group with a full range of 100% electric vehicles – and they can be fully charged with purely renewable energy.

Yokohama, Japan-based Nissan has sold a cumulative 148,700 units worldwide since December 2010, when Nissan LEAF went on sale. Nissan LEAF has collected industry honors including the 2011 World Car of the Year, European Car of the Year 2011 and Car of the Year Japan 2011-2012.The electric vehicle has the highest global customer satisfaction rate for any Nissan vehicle ever.

The top markets for Nissan LEAF are the United States with about 67,000 sales since its launch, Japan with about 46,500 units and Europe with about 31,000 units.

In the United States, LEAF is on track to be the top electric vehicle in 2014, outselling all other electric and plug-in hybrid vehicles. Sales so far this year are up 35%, and Nissan LEAF has enjoyed 21 consecutive record sales months and has already shattered its own yearly U.S. sales record with two months to go. In addition to LEAF, Nissan also sells the e-NV200 van, which went on sale in Europe in June and in Japan in October.

Meanwhile, Boulogne-Billancourt, France-based Renault has sold a cumulative 51,500 electric vehicles worldwide since its first model the Kangoo Z.E. went on sale in October 2011. Kangoo Z.E. was voted International Van of the Year 2012. Renault recently delivered its 5,000th Kangoo Z.E. to La Poste, France’s national postal service and operator of the country’s largest corporate fleet. An additional 5,000 units will be delivered in the coming years.

In addition to Kangoo Z.E. and Twizy, Renault’s zero-emission range also includes the ZOE subcompact and the Fluence Z.E. sedan. In South Korea, the Fluence Z.E. is sold as the SM3 Z.E. under the Renault Samsung Motor badge. Like Nissan LEAF, ZOE enjoys the highest satisfaction rate of Renault’s global product lineup.

Renault’s top markets in Europe - its main electric vehicle market - are France, Germany and the United Kingdom. In October, Renault regained the number one EV position in Europe with a market share of 31%. ZOE was the most popular vehicle with a 23% market share.

Demand for Tesla's Dual-Motor Vehicles "Off the Charts"

Tesla Motors CEO Elon Musk has weighed in with one of the most useful updates to date on the company's new dual-motor versions of its Model S. The verdict? One month after it was introduced, demand for the all-wheel-drive version of the model isn't lacking. In fact, demand for the new motor system is incredibly robust.

The P85D is Tesla's halo car

"This is the fastest accelerating four-door production car in the world," Musk explained in a GQ magazine interview published Tuesday, referencing Tesla's new dual-motor option for its flagship 85-kilowatt-hour-battery performance Model S, officially dubbed the P85D.

The new dual-motor system with a motor connected to both the rear and front axle is an upgrade offered for the 85-kWh-battery version of the Model S and now comes standard on the performance version. Tesla's smaller 60-kWh-battery version of the Model S is still only available with the rear-wheel-drive one-motor configuration.

The dual-motor system is helping Tesla set new standards in the automotive industry. Most notably, Tesla showed off how a dual-motor, all-wheel-drive system gives owners all-weather traction without sacrificing efficiency. Tesla's all-wheel-drive system actually boosts range, top speeds, and acceleration times over their rear-wheel drive counterparts running on the same battery. And now with a zero-to-60 acceleration time of just 3.2 seconds, Tesla is making it harder for premium internal-combustion-engine vehicles to compete.

Musk went on to explain in the interview that Tesla built the car to prove a point.

"We wanted to position it as the fastest in order to change the public mind-set. It had to be something dramatic. And getting those few extra 10ths of a second was hard," Musk said. He told GQ that the P85D is Tesla's "halo car," or the car that shows off the strengths of electric vehicles.

Demand is hot

But Tesla's dual-motor system is doing more than just drawing attention to the company. It is apparently convincing a large number of consumers to put in a cash deposit to wait in line for a built-to-order version of their own Model S.

"Demand for the P85D is off the charts," Musk said. "We're seeing a very high proportion of orders for all-wheel drive, either P85D or 85D (which has smaller, equal-sized electric motors front and rear), so 70%-plus of our cars will be dual-motor."

Musk went on to reiterate a common theme: Demand is not a problem for Tesla; ramping up production to meet demand, however, is.

The company is guiding to report record quarterly sales in Q4 and 50% higher annual Model S sales in 2015. But Tesla contends that the company will still not be fully meeting demand, even at these levels.

Tesla said in its third-quarter earnings call that with the help of the additional cost for dual-motor versions of the Model S, it expected Model S average selling to improve going forward. This favorable trend likely plays a role in Tesla's bullishness for its automotive gross profit margin to continue to improve in Q4 and into 2015, though the most important factor influencing Tesla's improving gross profit margin is undoubtedly growing sales of its Model S, which spread fixed costs across a larger number of deliveries.

While Tesla's ability to set standards and its soaring demand are both great for the company, investors should be careful to maintain proper perspective. Given Tesla's $31 billion market capitalization, the market is already betting on Tesla to be wildly successful in the coming years. Furthermore, Tesla's focused product portfolio and strict emphasis on battery-powered vehicles means that missteps could significantly delay its ambitious plans.

On the other hand, it's market-leading pure plays like Tesla with a proven record of execution on growth plans that are probably most likely to exceed market expectations. So, investors who already own shares should think carefully before they sell Tesla stock simply because they think shares are overvalued.

Monday, November 24, 2014

First Audi A3 Sportback e-tron plug-in hybrid drive off the assembly line in Ingolstadt

Production of the Audi A3 Sportback e-tron: Assembly – On the engine and component assembly line, the electric motor and transmission are fitted to the engine.

Approximately 50 cars every day, with the same timing and on the same assembly line as the other models: Audi is now ramping up production of the Audi A3 Sportback e-tron*. The premium manufacturer is producing its first plug-in hybrid model at the brand's main plant in Ingolstadt.

"We started series production of the Audi A3 Sportback e‑tron in the summer," said Dr. Hubert Waltl, Board of Management Member for Production at AUDI AG. "Most of the assembly work is integrated into the A3 line; no separate manufacturing is necessary. That demonstrates the flexibility and efficiency of our production planners and employees."

With the Audi A3 Sportback e‑tron, Audi is launching the mobility of the future. The compact five‑door combines a 1.4 TFSI combustion engine with a 75 kW electric motor, resulting in a total system output of 150 kW (204 horsepower). Despite the sporty driving performance, fuel consumption in the NEDC is just 1.5 liters per 100 kilometers (35 grams of CO2 per kilometer). The A3 Sportback e‑tron can travel up to 50 kilometers in purely electric mode and up to 890 kilometers more with the gasoline engine.

"We first of all ramped up production of the A3 Sportback e‑tron to about 30 cars a day in September," explained Board of Management member for Production Waltl. "Our peak is approximately 50 units each day now. In any case, we are keeping additional capacity available."

Peter Kössler, head of the Ingolstadt plant, stated: "Working with high‑voltage systems in series production was a new challenge for us, but we mastered it well. At all stages of assembly, we achieve maximum levels of safety for our employees and quality for our customers."

Safety is given top priority during the entire assembly process. All the employees who come into contact with the A3 Sportback e‑tron have received technical safety instructions for the new technology; some employee who are directly involved are qualified as specialist electricians for automotive technology.

Sydney International Airport Tests the World’s Longest Range Electric Bus

Carbridge Pty Ltd, an Australian airport ground transportation provider, has begun a six-month Electric Bus pilot program at Sydney International Airport. The bus selected for the pilot was made by BYD Company Ltd, which has been recognized over the past few months for its industry leading operational range. The bus will be used as an airport passenger shuttle.

At a launch ceremony held at Sydney International Airport, BYD Asia Pacific General Manager Liu Xueliang said, “Compared with fossil-fueled buses, BYD’s pure electric bus has zero emissions, doesn’t make noise and ensures a comfortable ride without disturbances associated with conventional buses of combustion engines. These characteristics will provide a great experience for visitors to the Airport.” Sydney Airport plans to electrify their entire bus fleet in the coming years.

BYD’s Battery Electric bus employs many advanced technologies developed in-house by a staff of more than 15,000 R&D engineers, such as the advanced environmentally friendly, BYD Iron-Phosphate battery, in-wheel hub motors and regenerative braking system. The break-through Iron-Phosphate battery is fire-safe and non-toxic: there are no caustic materials contained in the battery, no toxic electrolytes or heavy metals and can be completely recycled.

The BYD electric bus delivers a host of operational and environmental benefits for public transport riders, operators and people in the community — it is very quiet and ensures a comfortable ride without vibrations, jerks or noise associated with the conventional buses and combustion engines. The bus can also drive for more than 250 km (155 miles) even in heavy city traffic on a single charge. The bus has completed more than 20 million kilometers of “in revenue service” and has been evaluated in many major cities all over the world.

GM to Study Vehicle Sharing with Shanghai Jiao Tong University

General Motors China has signed a memorandum of understanding with Shanghai Jiao Tong University to collaborate on a vehicle sharing program featuring the Chevrolet EN-V 2.0 starting next year.

A fleet of EN-V 2.0 vehicles will be integrated with a multi-modal transportation system alongside bicycles, cars and shuttle buses at the university’s Minhang campus in Shanghai to evaluate the benefits and challenges of a vehicle sharing transportation model.

“The vehicle sharing program with Shanghai Jiao Tong University will allow us to assess the real-world application of the EN-V 2.0 as part of a vehicle sharing system,” said Matt Tsien, GM executive vice president and president of GM China. “We will apply these learnings to the development of future urban mobility transportation solutions, not just for China but for the world.”

"Electric vehicles represent the transportation mode of the future, but the big topic now is how to develop them," according to Yin Chengliang, vice president of the Shanghai Jiao Tong University Automotive Engineering School. "This project will explore a model that integrates electric vehicles with the transportation network and intelligent transportation system."

The Chevrolet EN-V 2.0 is the next generation of GM’s original Electric Networked-Vehicle (EN-V), which made its global debut at Expo 2010 in Shanghai. It can travel up to 40 kilometers on a single charge.

The Shanghai Jiao Tong University collaboration is a continuation of GM’s vision for sustainable urban mobility announced at Expo 2010. Shanghai Jiao Tong University is a comprehensive research-oriented university and one of China’s leading educational institutions. GM and Shanghai Jiao Tong University have collaborated on many automotive, training and development projects over the past two decades.

Porsche Readying Tesla Model S Fighter

The German automaker is currently in the early stages of development for an EV that will target the Tesla Model S and will be a new dedicated fifth model range slotting beneath the existing Panamera. While details on Porsche’s first all-electric production vehicle are mostly being kept under wraps at the moment, it will likely be built on the automaker’s second-generation MSB platform that underpins the current Panamera.

It will have a shorter wheelbase than the existing Panamera sedan but will be a five-door hatchback, similar in style to the Panamera Sport Turismo concept that debuted at the 2012 Paris Motor Show. The company is hoping to keep it around 2,100 kg and its electric powertrain will provide similar performance as the Model S, though Tesla did just announced the more powerful all-wheel drive Model S P85D.

Porsche is aiming for a range of over 450 km and the company is expected to work with Audi, so we expect they will also use solid-state batteries.

Audi Confirm Tesla Model S Rival with 450 km Range for 2017

According to a report by Auto Express, Audi is also looking to join the electric vehicle sedan market with its own offering sporting a 450 km (280-mile) all-electric range.

The vehicle is currently under development according to Audi’s Dr. Ulrich Hackenberg, who also revealed that it will arrive in 2017 as an all-new model.

In the interview, Hackenberg said that he was “able to re-engineer the R8 e-tron project and technology with the team” and confirmed that it will not be a sports car.

The German automaker will use next-generation batteries in order to achieve the 450 km range, technology that is said to have up to five times more energy density than the current batteries used in vehicles such as the Volkswagen e-Golf.

Tesla in talks with BMW over battery & component alliance

Tesla Motors is in talks with Germany's BMW over a possible alliance in batteries and light-weight components, Tesla's Chief Executive Elon Musk told German weekly Der Spiegel.

In an interview published on Sunday, Musk described BMW's production of carbon fibre reinforced car body parts as "interesting" and "relatively cost efficient."

BMW uses carbon fibres from its joint venture with materials supplier SGL to make reinforced passenger cell parts for its i3 electric hatchback and i8 plug-in hybrid sports car.

Officials at BMW were not immediately available to comment.

"We are talking about whether we can collaborate in battery technology or charging stations," Musk was quoted as saying in the interview. He also told the magazine that he thinks Tesla will have a battery plant in Germany in 5-6 years.

A spokeswoman for Tesla Germany later described the discussions as informal.

“The conversation between Elon Musk and BMW has been a casual conversation, and not about a formal cooperation,” spokeswoman Kathrin Schira said.

There were no further details on the specific nature of the alliance, however BMW and Tesla executives already met in June to discuss the creation of charging stations usable for different types of electric cars.

Rival Daimler, owner of the Mercedes brand, said last month it would continue to collaborate with Tesla even after selling its remaining four percent stake in the U.S. company. Tesla has also worked with Toyota on electric SUVs.

Tesla's billionaire co-founder Musk also told Der Spiegel that he expects Tesla to have a battery production plant in Germany in five to six years.

Friday, November 21, 2014

Korean Companies Taking Lead in EV Battery Market

An increasing number of carmakers such as Nissan and Daimler are opting for Korean battery manufacturers’ products instead of doing the lithium-ion secondary battery business on their own. The trend is expected to be a boon for LG Chem, Samsung SDI, and SK Innovation in the fledgling eco-friendly car battery market.

The only German factory that produces battery cells for electric cars is closing. Within little more than one year, the company Li-Tec in Saxon Kamenz, will cease manufacture of battery cells. The company is a subsidiary of the Daimler Group.

The Li-Tec factory will close December 2015 but will be retained as a research location; the majority of the 280 employees will be transferred to the Deutsche Accumotive—also a wholly owned Daimler subsidiary—which manufactures battery packs. Accumotive is currently expanding its production capacity to build systems for the next generation of the electric smart among others. Cells are slated to come from LG Chem.

“Nissan has purchased EV batteries from AESC since 2009, but will diversify the supply sources to LG Chem and many more,” Renault Nissan Alliance Chairman Carlos Ghosn said in September. It is said that AESC’s products are approximately 15 percent more expensive than those of LG Chem.

These decisions come about because it is difficult for a company to realize the economy of scale and achieve price competitiveness on its own in the eco-friendly vehicle market. Battery manufacturers that have produced small batteries for use in smartphones and the like have more advanced technological strength, too. It is in this context that Hyundai Motor Company, Kia Motors, and BMW have procured battery cells from external sources from the get go.

At present, LG Chem’s customers include not only Hyundai and Kia but also about 20 automakers such as GM and Ford. Samsung SDI has done business with about 10, including BMW, as well. SK Innovation, which started relatively late, has supplied batteries for Kia Motors’ Soul EV, and set up a joint venture in China with the Beijing Automotive Group. The EV battery market is estimated to grow to US$11.9 billion by 2018.

Wednesday, November 19, 2014

ELMOFO enter final round of the 2014 Australian eFXC Superbike Race Series

ELMOFO will have an entry in the last round of the 2014 Australian eFXC Superbike Race Series this weekend in the form of a recently purchased Brammo Empulse TTX.

This particular bike has enjoyed a lot of success in the US in the hands of Eric Bostrom. The ELMOFO team will have local pro-rider Simon Galloway to race the bike in an effort to promote Brammo production bikes in Australia.

There should be a good mix of bikes at the final round at Eastern Creek including some modified production along with some super-high-powered privately built bikes.

Tuesday, November 18, 2014

SUBARU VIZIV GT Vision Wheel-Motor powered series hybrid concept [VIDEO]

Subaru has revealed the digital-only Viziv GT Vision Gran Turismo, which will find its way into the Gran Turismo 6 on the PlayStation 3 video game system . It takes up the mantle from the Viziv Concept that debuted at the Tokyo motor show last year.

The virtual Viziv GT is powered (virtually) by a 2-liter boxer four featuring both direct injection and turbocharging to the tune of 591 imaginary horsepower.

The Viziv GT has all wheel drive with little lights over each fender that light up when the axle is receiving torque vectoring courtesy of three electric motors, one up front and two in the rear. Subaru compares it to their iconic "Symmetrical AWD" in an attempt to link it to their road-going cars, but this is a hybrid system unlike anything the company has previously worked on.

“By independently controlling each of the motor outputs, turning ability while cornering is drastically improved, while the torque vectoring lamps built into the fenders visualize its movement, Thus, as with any other Subaru, the car is made controllable for anyone driving the car, regardless of its extremely high performance levels.”

Maybe it's where the company is headed? Mitsubishi is already going down that road. Perhaps this is a sneak peek at a hybridized, CUV-like future for the iconic WRX and STI. Or it could just be a digital flight of fancy, which of course it is.

Monday, November 17, 2014

Next Generation GS Yuasa lithium-ion battery triples energy density

GS Yuasa Corp. said Monday it has developed a next-generation lithium-ion battery with three times the capacity of existing products.

The battery uses sulfur as a key material for the positive electrode. The Kyoto-based company now aims to improve the durability of the silicon-based negative electrode, so it can commercialize the next-generation lithium-ion battery by 2020.

Sulfur is harmless to humans, cheap and found in abundance in nature. But it does not conduct electricity, making it difficult to obtain strong electric output from batteries using sulfur-based electrodes.

GS Yuasa succeeded in discharging the high-capacity battery by filling sulfur into small holes on carbon rods in order to make the element conductive, the company said.

“This battery can be manufactured at a lower cost,” said Shuji Hitomi, group manager at GS Yuasa’s research and development center. “If it is used in a car, the range (without recharging) would be greatly increased.”

Sunday, November 16, 2014

Germany exits EV Battery Cell Manufacture Business

"Our cells are very good, but at current production figures too expensive", the Daimler-manager Harald Kröger justified the closure in an interview with SPIEGEL. Last week, Daimler had 250 employees internally announced the end of the factory, more than half should be able to remain in the group. Only mass production makes such factories profitable. Therefore, it was part of the Daimler-calculus that other auto companies participate and would leave produce in Kamenz cells for their e-Mobile. But the partners did not materialize.

Now the company changes its strategy. "We have realised that a car manufacturer does not have to produce the cells themselves," says Kroeger.

Saturday, November 15, 2014

VW Chairman thinks solid-state batteries can deliver 700 km range

Following persistent news leaks from 'highly placed insiders' about an all-electric version of Audi's upcoming Q8 sports SUV with 700 km battery range, VW Chairman Prof. Dr. Martin Winterkorn has hinted at the battery technology Audi may use to achieve that range.

In a speech at Stanford University, during the award of the 3rd Science Award for Electrochemistry, Dr Winterkorn said he sees great potential in solid-state batteries.

"Increasing the specific energy of lithium-ion cells to as much as 380 Wh/l will reduce driving range drawbacks.

With a higher nickel content, much more will be feasible.

But we also need to intensify basic research into batteries with an even greater specific energy, such as solid-state batteries.

I see great potential in this new technology, possibly boosting the range to as much as 700 kilometers (1,000 Wh/l)."

In March we reported that VW were bench testing new battery chemistry capable of providing "between three and four times the power" from a given capacity. This would mean up to 80kWh from a similar volume occupied by the current Golf Blue-e-motion's 26.5kWh battery pack.

Dr Heinz-Jakob Neusser, VW board member responsible for development, speaking at the Geneva motor show, refused to name the battery chemistry, but disn’t deny it was a lithium-air unit, which are capable of delivering huge amounts of power, but are in the very early stages of development.

Given Dr Winterkorn's statement that current energy density with lithium-ion batteries, which allow a range of 190 kilometers, is 260 Wh/l and in the same speech he references solid-state batteries @ 1,000 wh/l, a 4x increase, I think it becomes clear this is the chemistry VW are bench testing.

The Science Award Electrochemistry was initiated by BASF and Volkswagen in 2012. The aim being to foster exceptional scientific and engineering achievements in electrochemistry and to provide an incentive for the development of high-performance energy storage.

The 700 km battery powered Audi Q8 is expected around 2017.

Source: VW

Tuesday, November 11, 2014

LG Chem officially breaks ground for China EV battery plant

LG Chem held a ground breaking ceremony for the construction of electric-car battery plant in Nanjing, China, to meet growing demand in the world’s biggest car market.

The Nanjing battery plant, with an annual production capacity of more than 100,000 electric vehicles when completed by the end of 2015, will supply batteries to Chinese automakers like SAIC Motor Corp, Qoros and many other global carmakers in China. It was 'only' 7 months ago LG Chem's CEO said they were "considering" this EV plant in China!!

Among the key participants who joined the groundbreaking ceremony were Miao Rui Lin, the Mayor of Nanjing; Luo Qun, the vice mayor; and YS Kwon, the President of Energy Solution Company of LG Chem.

LG Chem set up a joint venture in August with two Chinese state-run companies - Nanjing Zijin Technology Incubation Special Park Construction Development Co, Ltd. and Nanjing New Industrial Investment Group Ltd. - to start manufacturing EV batteries in China. LG Chem owns half of the joint venture while the other half is shared by Chinese partners.

The Korean battery giant said it has been investing hundreds of millions of dollars into the factory and expects a total of 1 trillion won (AUD$1 Billion) in revenue by 2020, just by the batteries produced in Nanjing.

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