Nissan and Ecotricity to further expand UK motorway charging network

Electric vehicle drivers using the UK’s motorway system can now access 13 more rapid chargers at Welcome Break service stations.

Installed at Welcome Break sites across the country, the 13 rapid chargers represent the latest phase of work completed by Nissan and Ecotricity to expand the rapid charging network on the UK’s motorways.

Taking into account the existing infrastructure installed under the partnership earlier this year, there are now 16 rapid chargers available at Welcome Break service stations on the motorway, with plans to install at the majority of Welcome Break sites by April 2014.

The new additions mean the total number of rapid chargers in the UK is now 97.

The chargers form the UK’s first publicly accessible rapid charging network on the motorway and are capable of ‘refuelling’ an all-electric Nissan LEAF from 0 to 80 per cent battery capacity in just 30 minutes. Safe in the knowledge that there are Welcome Break service stations up and down the country equipped with rapid charging technology, EV users can now explore opportunities to take longer journeys using the UK’s motorway system.

Jim Wright, managing director of Nissan GB, said:“Nissan is working hard to ensure that 100% electric driving becomes accessible for all UK motorists and the installation of a rapid charging network on the motorway opens up EV ownership to thousands more motorists.

“The UK’s charging landscape is improving daily, and we are very proud to be the main power source driving the development of infrastructure that will ultimately provide further flexibility and peace of mind to our LEAF drivers.”

Ecotricity founder, Dale Vince added: “The main barrier in people’s mind to the take up of electric cars is their travel range and charging times.

“Really these issues are one and the same. Concern over the distance that an electric car will travel on a single charge, called range anxiety, can be overcome if you have the right charging infrastructure in the right locations – to quickly recharge.”

Nissan is leading the way in developing electric vehicle charging infrastructure, and the new rapid charging network at Welcome Break service stations is part of a long-term plan to install more than 150 rapid chargers across the UK by April 2014. Since 2011, 97 rapid chargers have been installed across the UK with Nissan as the driving force.

In July, Nissan launched the next generation LEAF, packed with over 100 improvements including increased driving range and quicker charging times. Keen to give motorists maximum choice, Nissan offers the model in three distinctive trim levels as well as a variety of flexible finance packages such as a battery leasingoption.

Panasonic to make more lithium-ion batteries to meet robust US automotive demand

Panasonic will increase domestic production of lithium-ion battery used for automobiles to meet robust demand in the United States, company officials said on Thursday.

The electronics maker will resume operation of idled lines at the Suminoe Plant in Osaka Prefecture, which produces batteries for U.S. automaker Tesla Motors Inc., as early as next January, while another factory in Kaizuka City in the prefecture, which the company has suspended its operation since March, will reopen by the end of next fiscal year, Panasonic spokesperson Megumi Kitagawa said to Xinhua.

She also said that the company will add some manufacturing lines at the Kasai plant in Hyogo Prefecture, which produces batteries for domestic automakers, by the end of the current fiscal year through next March.

In June Panasonic announced that shipments of its automotive-grade lithium-ion battery cells for Tesla Motors’ premium, all-electric Model S sedan surpassed 100 million units.

GoPro: Monster Tajima – Pikes Peak 2013 EV Class Winner [VIDEO]

Finally the GoPro video of the Pikes Peak EV class winning run is uploaded.

Nobuhiro 'Monster' Tajima returned to the 91st Pikes Peak International Hill Climb with his E-Runner Special electric car. Tajima was back and more determined than ever, not only to break his personal record (9:51.278 in 2011) but to make a statement that the electric car is a force to reckon with.

Tajima set a new personal record of 9:46.530, winning the Electric class and placing 5th overall.

Worldwide debut of the all-new BMW i3.

The new all-electric BMW i3 is a landmark in BMW's mission to provide a completely sustainable, electric vehicle that still stays true to the Ultimate Driving Machine moniker. The BMW i3 is the first product of the new BMW i sub-brand, and is a truly purpose built electric car. It's a new era for electro mobility at BMW.

The vehicle concept behind the BMW i3 was designed from the outset to incorporate an all-electric drive system. This has numerous advantages over "conversion" vehicles, in which the original combustion engine is swapped for an electric motor. The engineers can design whatever works best, in terms of construction, dimensions and configuration of the electric drive system's components. The car's development is dictated by the characteristics designed into the car by the development team and not by the constraints imposed by a pre-existing vehicle design. For example, the space in a conversion vehicle set aside for the fuel tank or exhaust system cannot be used. In the BMW i3 there is no need for this kind of compromise.

This leads to the LifeDrive architecture concept, which was purpose-built specifically for the BMW i3. It is comprised of two modules; the Life Module, and the Drive Module. Think of the Life Module as the passenger cabin, or greenhouse. It is the first-ever mass produced Carbon Fiber Reinforced Plastic (CFRP) passenger cell in the automotive business, and is a big factor in the cars efficiency. Carbon Fiber Reinforced Plastic is equally as strong as steel, while being 50% lighter, and 30% lighter than aluminum. The result is an electric car that weighs about 2,700 lbs (preliminary US figures).

Due to the lightweight, high tensile strength of CFRP, the passenger cell has added protection, and the battery has less work to do, which allows for the use of a smaller, lighter battery that saves even more weight, reduces charging time and increases range. The light weight design of the Life Module also lowers the BMW i3's center of gravity, making it a more engaging and dynamic car to drive.

The Drive Module, which is constructed out of 100% aluminum, consists of the 22-kWh, 450 lb. lithium-ion battery, electric drive train, MacPherson strut and 5-link rear suspension system and structural and crash components. The battery mounted in the rear, close to the drive wheels, gives impressive performance characteristics while also providing better traction.

Another benefit of the LifeDrive architecture concept is that there is no space-consuming transmission tunnel running through the center of the car, like in most internal combustion powered cars, because of the separate Drive Module. This gives the BMW i3 the interior space of the BMW 3 Series, while only having the footprint of the much smaller BMW 1 Series.

Even the vehicle's key is sustainably manufactured. The source material of the new bio-polymer key is based on castor oil pressed from castor seeds. The owner's manual is also made from renewable resources.

The interior is made using high quality renewable sources and recycled materials. The BMW i3 has the Next Premium interior, which blends sustainable resources with a premium feel for the same interior quality as the BMW 5 Series Sedan. 25% of the plastics in the interior and 25% of the thermoplastic parts on the exterior are made from either recycled materials or renewable sources.

According to studies carried out as part of BMW's Project i, involving more than 1,000 participants and conducted over some 12.5 million miles, it was revealed that the average daily distance covered was around 30 miles. The BMW i3 will be able to travel 80 to 100 miles on a single charge. This can be increased by up to approximately 12% in ECO PRO mode and by the same amount again in ECO PRO+ mode. It is able to recharge in only 3 hours with the use of a 220V Level 2, 32-amp J1772 charger. The SAE DC Combo Fast Charging, which charges the BMW i3 up to 80% in 20 minutes, and 100% in 30, can be had as an option.

In order to reduce range anxiety, a rear-mounted 650cc, 34 hp, two-cylinder, gasoline-powered Range Extender generator is available, which roughly doubles the vehicle's range. When the battery gets to a certain level, the Range Extender starts and maintains the battery's current state of charge. The Range Extender never directly drives the vehicle's wheels. The Range Extender adds roughly 330 lbs. to the vehicle curb weight and has a fuel capacity of 2.4 gallons.

Since 1999 according to the DOE, average gasoline prices in America have increased from approximately $1.136 to $3.618, or about a 218%. In the same time, the pricing of electricity has increased from 6.6 cents to 9.9 cents, a change of only 50%, making electricity a far more attractive commodity from a pricing standpoint.

BMW i3 Quick-Reference Highlights.
- Pricing (before federal or local incentives) starts at $41,350; $45,200 for Range Extender model. Destination & Handling Fee not included.
- On Sale: Q2 of 2014 in the USA.
- BMW's 360 Electric electro mobility services.
- BMW i Remote app, which connects with the car.
- BMW Navigation is standard.
- BMW Intelligent Emergency Call ('eCall"), Anti theft alarm and Rear Parking Distance Control are standard.

Driving.
- 170-hp, 184 lb-ft hybrid-synchronous electric motor with max. revs of 11,400 rpm.
- 80-100 mile real-world EV range.
- 22-kWh lithium-ion battery, which weighs 450 lbs.
- 650cc gasoline powered Range Extender optional; holds charge, doesn't power wheels.
- 0-30mph in 3.5 seconds, 0-60mph in approximately 7.0 seconds (preliminary).
- Top speed of 93 mph, electronically limited to preserve efficiency.
- BMW's signature, near-perfect 50-50 weight distribution.
- Ultra-tight turning radius (32.3 ft), which is ideal for city driving.
- Macpherson strut front and 5-link rear suspension set up.
- Single Pedal Driving Concept with Brake Energy Regeneration, which feeds power back into battery.
- 3 drive modes: Comfort, ECO PRO and ECO PRO+.
- 3 hour 220 V @32 amps charging time.
- Optional SAE DC Combo Fast Charging allows for 80% charge in 20mins; 100% in 30 mins.

Chassis and Body. - Purpose built construction. World's first mass-produced CFRP-constructed electric vehicle.
- Built on innovative LifeDrive architecture composed of two parts: Life Module and Drive Module.
- Life Module is essentially the cabin, constructed from Carbon Fiber Reinforced Plastic (CFRP).
- Drive Module is where all of the powertrain components are housed.
- Drive Module is made from 100% aluminum.
- Magnesium cross-member for instrument panel saves 20% weight vs. steel.
- BMW 1 Series external footprint with BMW 3 Series interior space.
- Adaptive Full LED headlights and LED taillights (standard in US market).
- Weighs in at roughly 2,700 lbs.(1224 kg)
- No space-consuming transmission tunnel dividing car's interior.
- Pillar-less design with rear coach doors allow for easy entry and exit to rear seats.
- Driver-oriented super-ergonomic controls.
- Three vehicle Worlds (trim levels): Mega (standard in US), Giga, and Tera.
- Standard 19-inch light alloy wheels with unique 155/70 all-season tires. 20-inch light alloy wheels optional.
- No transmission tunnel and low console allows for Slide-through Experience, which benefits urban driving by the ability to exit from the passenger side.

Sustainability.
- Made with sustainable, renewable materials.
+ Instrument panel surround and door trim use fibers from Kenaf plant.
+ Carbon fiber reinforced plastic (CFRP) roof panel is made partially with recycled CFRP from manufacturing process of other components
+ 25% of plastic used in interior comprised of recycled materials.
- Dashboard wood trim crafted from responsibly-forested eucalyptus.
- CFRP components are sustainably produced in Moses Lake, WA, USA, where the factory uses hydroelectric power.
- The Leipzig, Germany assembly plant uses wind-generated electricity.
- Olive-leaf extract is used to tan interior leather surfaces.

Toyota Nissan Honda & Mitsubishi co-operate to promote plug-in cars

Four of Japan's leading carmakers, including Toyota, today announced a plan to expand sales of next-generation green vehicles by co-operating on the development of electric charging stations.

Toyota, along with Nissan, Honda and Mitsubishi, said there is a critical need to develop an infrastructure in Japan for vehicles that can be charged from a power point, such as plug-in hybrids and electric cars.

The carmakers said they will work with the Japanese Government to more than double the number of charging outlets to at least 4,000 quick chargers and 8,000 regular chargers.

They said an expanded charging network would maximise the electric-only driving performance and combined fuel economy of plug-in hybrids.

It would also enable motorists to extend the driving range of electric vehicles, which do not produce any tailpipe emissions.

Normal chargers would be installed in commercial facilities such as large shopping malls or highway service areas where motorists typically stopped for long periods.

Quick chargers would be installed for shorter-duration stops such as highway parking areas, convenience stores and fuel stations.

The carmakers will temporarily bear part of the installation and maintenance costs that are not covered by government subsidies of 100.5 billion yen ($1.1 billion) announced for 2013-14.

Their co-operation is based on an understanding that the charging infrastructure has public value and enhancing it should be done quickly during the limited period the subsidies are available.

The collaboration extends to car owners being able to use the same credit card for payment at all charging stations.

The Japanese government would like to see sales of these next-generation cars accounting for 15-20 per cent of new-car sales in 2020.

The four carmakers are committed to developing a more user-friendly charging infrastructure and to contributing to a society making maximum use of electric-powered vehicles.

Engadget Test Drive the Spark EV [VIDEO]

Engadget got to test drive the The Spark EV, GM's first pure electric car since the company scrapped the EV1 program in 2002.

Performance is quite impressive for an EV this size: it sprints to 60mph in just 7.6 seconds with a top speed of 90mph. The 21kWh nano-phosphate Li-ion battery pack is liquid cooled / heated and is located in the floor. It offers a range of up to 82 miles and takes less than seven hours to fully charge using a level 2 (240V) charging station. Better yet, with a DC fast-charging option coming to the Spark EV later this year, you'll be able to charge the battery to 80% capacity in just 20 minutes.

Chevy's managed to keep the weight down to 2967lbs, which is pretty svelte for a pure electric car. This, combined a low center of gravity and a close to 50/50 weight distribution makes the Spark EV nimble and fun to drive.

Source: Engadget

Electric cars enjoyed one of the best months of sales to-date

Sales of electric cars are really starting to gain traction. Just in the month of June of this year, almost 9,000 plug-in electric vehicles have been sold in the U.S. This adds to more than 110,000 plug-in electric vehicles that have been sold in that country in the last two and a half years, the Electrification Coalition reports.

Tesla has been one of the biggest winners of the growing tide of electric cars, and managed to capture 8.4 percent of the luxury market in the first six months of 2013. Sales of Tesla cars have beaten virtually all of their competitors, including the Mercedes-Benz S-class, the Audi A8, and the BMW 7 series. Those are impressive statistics indeed, and not something we could have predicted even just a couple years ago.

The Nissan Leaf has also had a great deal of success, capturing 3.3 percent of the subcompact market. The Electrification Coalition has also pointed out that electric cars have not only the awards from various automotive publications, but have also enjoyed some of the highest customer-satisfaction ratings of any passenger cars. In addition, the Leaf and the Chevrolet Volt continue to receive high marks from major consumer-ratings publications.