There’s ‘No Charge To Charge’ For New Nissan Leaf Buyers In Texas

Driving the all-electric Nissan LEAF means never having to buy gas. Now, thanks to the new "No Charge to Charge" program, offered by Nissan and NRG eVgo, new buyers and lessees of the all-electric Nissan LEAF in the Dallas-Fort Worth and greater Houston areas will have unlimited access to the eVgo network for public charging stations for their first year of ownership at no cost.

Beginning in October, customers who lease or purchase a new Nissan LEAF in the Dallas-Fort Worth and Houston markets will receive one year of complimentary access to eVgo's comprehensive Freedom Station (R) charging network, including 23 locations in the Dallas-Fort Worth metroplex and 17 in the greater Houston area. Also, included as part of the eVgo network, is charging at Park N' Fly locations at DFW and IAH airports.

"Nissan LEAF owners who already subscribe to NRG eVgo's Freedom Station network rave about the convenience and increased range confidence it provides," said Erik Gottfried, Nissan's director of EV Sales and Marketing. "Adding one of the country's most innovative charging plans to the world's best-selling electric car is a clear win for Nissan LEAF buyers."

Dallas-Fort Worth is one of the fastest growing markets in the country for Nissan LEAF sales, with deliveries up 500 percent so far in 2013 as compared to 2012. The presence of strong public infrastructure with eVgo, as well as major technology companies and strong word-of-mouth referrals from existing owners has fuelled the rapid rise in LEAF sales.

"NRG eVgo has created a comprehensive suite of electric vehicle charging products to support the growing number of EVs and to address EV drivers' need to charge both at home as well as on the road," said Jack Cannata, director of marketing for NRG eVgo. "With access to our well-placed charging stations across the Dallas-Fort Worth and Houston metro areas, Nissan LEAF drivers can really maximize their use of the vehicle."

eVgo Freedom Station sites, conveniently located along major roadways, offer electric car drivers DC fast charging and Level 2 charging. DC fast chargers can deliver up to an 80% charge in less than 30 minutes. Level 2 chargers deliver range at a rate of 12 -- 25 miles per hour. Most sites are available 24/7 and are positioned near retail stores as well as restaurants to provide the option to shop or eat while charging.

Nissan will offer "No Charge to Charge" with acquisitions of the Nissan LEAF made between October 1, 2013 and March 31, 2014 at all certified Nissan LEAF dealers in the Dallas-Fort Worth and greater Houston area markets.

Autonomous Nissan Leaf Gets First License Plate for Public Road Testing

Nissan President and CEO Carlos Ghosn today took delivery of Japan's first license plate for a car equipped with highly advanced driver assist systems. It clears the way for a Nissan LEAF equipped with the technology to be tested on the public roads in Japan for the first time. The research program will accelerate the development of technologies fundamental to Autonomous Drive. The systems are designed to allow the driver to manually take over control at any time.

The license plate includes the number 2020, which reflects Nissan's goal to be ready with multiple, commercially-viable Autonomous Drive vehicles by the year 2020.

"This is an ordinary license plate for an extraordinary vehicle," said Nissan president and CEO Carlos Ghosn. "A month ago we revealed to the world our 2020 Autonomous Drive target. Road testing of the underlying technologies is critical to maintaining our leadership position and we are grateful to the Government of Japan for its support."

The Nissan LEAF to be tested is capable of a number of functions, including:

  • Lane keeping
  • Automatic Exit
  • Automatic lane change
  • Automatic overtaking slower or stopped vehicles
  • Automatic deceleration behind congestion on freeways
  • Automatic stopping at red lights

    Nissan is developing Autonomous Drive as it works to achieve virtually zero fatalities in accidents involving its vehicles. The goal stands alongside zero emissions as a key pillar of Nissan's research and development. Autonomous Drive is an extension of the Nissan Safety Shield, which monitors a 360-degree view around vehicles for risks, gives warnings to the driver, and automatically intervenes if necessary. Work is already underway to build a dedicated Autonomous Drive proving ground in Nissan's facility in Oppama, Japan.

    Nissan Executive Vice President for Research and Development, Mitsuhiko Yamashita, said: "The realization of the Autonomous Drive system is one of our greatest goals, because Zero Fatalities stands alongside Zero Emissions as major objective of Nissan's R&D. Through public road testing, we will further develop the safety, efficiency and reliability of our technology."

  • BMW i3 to have 200 Mile Lithium-Air Battery by 2017 [VIDEO]

    At the recent launch of the BMW i3 lithium-ion battery-electric car, BMW board member Ian Robertson said that in the next three to four years there will be more progress in battery development than in the previous 100 years. He said electric cars will have batteries with twice the current power within four to five years, which will double the range.

    We reported back in January that Toyota Motor Corp and BMW AG agreed to jointly research a lithium-air battery. Lithium-air battery has its anode filled with lithium, and cathode with air.

    Lithium metal-air batteries can store more than 5,000 watt-hours per kilogram. (A123 M1 cells are around 120 wh/kg) That's more than forty-times as much as today's high-performance lithium-ion batteries, and more than another class of energy-storage devices: fuel cells.

    The reduction in battery mass is achieved by eliminating the need for a second reactant inside the cell. Lithium metal batteries react with oxygen in the air that is pulled in through a 'breathing' casing, making them lightweight and compact.

    The technology is being studied by researchers including IBM , which is working to develop a lithium-air battery that will let electric vehicles run 500 miles on one charge.

    Given the recent new that General Motors is working on an EV that can go 200 miles (320 km) per charge at a cost of about $30,000 to compete with Tesla's as yet un-named 200 mile $30,000 EV due in approx three to four years, the 2016/17 model year promises to be a very exciting year for affordable, long range electric vehicles.

    Highlights from WEC Six Hours of Circuit of the Americas [VIDEO]

    TOYOTA Racing fought a race-long battle for victory in the Six Hours of the Circuit of the Americas before taking second place in the fifth round of the FIA World Endurance Championship.

    After six hours of intense racing in hot temperatures, the #8 crossed the finishing line just 23.617 seconds behind the race winner.

    The TS030 HYBRID was able to get strong performance from the same set of tyres over two stints. This, combined with quick pit stops, reduced the amount of time the #8 needed to spend in the pits.

    The next round is TOYOTA Racing's home race, the Six Hours of Fuji on 20 October where the team will have two cars competing as the #7 of Alex Wurz, Nicolas Lapierre and Kazuki Nakajima returns to action.

    Tesla Model S is Norway’s top-selling car in September

    The newly landed Tesla Model S, after a market presence of less than two months, has already topped Norway’s best-sellers' list during the opening two week’s of this month, comfortably outselling all other cars, regardless of fuel type, accounting for 6.2 per cent of all the new cars sold in Norway.

    Hot on the heels of recording 184 registrations in its debut month in Norway, registrations of the Model S in Norway hit a chart-topping 322 units to bulldoze Volkswagen’s conventionally powered Golf (256 units) out of first place by a substantial sales margin, according to AID compiled data.

    The number eight slot went to Nissan’s LEAF, Norway’s most popular electric car so far this year. Both fully-fledged electric cars have captured a combined market share of 9.1 per cent.

    1) Tesla Model S – 322
    2) Volkswagen Golf – 256
    3) Toyota Auris
    4) Mazda CX-5
    5) Volvo V40
    6) Skoda Octavia
    7) Toyota RAV4
    8) Nissan LEAF

    Dutch Students Break EV Acceleration Record 0-100 km/h in 2.13 sec [VIDEO]

    Dutch students today reset the Guiness world record for acceleration 0-100 km/h, in the category for electric cars. The Delft University of Technology Racing Team used their 2012 All-Wheel-Drive 148 kg Formula Student DUT12 to accelerate from zero to 100 km/h in just 2.13 seconds at Valkenburg Airport.

    The Formula SAE car has a four wheel drive powertrain with a 26 kw / 27 Nm motor driving each wheel giving a total peak power output of 104 kw. The front motors are out-board and drive through a 1:7 Planetary gear system. The rear motors are in-board and drive the wheels via a 1:13 two-stage spur gear system with carbon fiber half-shafts.

    The Delft Team first prepared the ground by pouring a solution of sugar in water over the track, and heating it with a gas-burner. All rubble was removed and a plastic sheet was put over the track to keep it dry. Additionally, tire warmers were used on the car, the driver was the team's lightest member, Marly Kuijpers, and the the run was repeated ten times with traction control and tire slippage tweaked within the four motor controllers via the CAN bus ECU for each run.

    The team says that rule changes make 2013 and 2014 Formula Student cars less likely contenders for future acceleration records. For one thing they will have high downforce wings, which add drag, and larger batteries, adding weight. The heavier machines are unlikely to reach a new record, so Delft may well hang on to the top spot longer than another student team, which held its record just over a year.

    Molten-air battery offers up to 45x higher storage capacity than Li-ion

    Researchers at George Washington University have demonstrated a new class of high-energy battery, called a "molten-air battery," that has one of the highest storage capacities of any battery type to date. Unlike some other high-energy batteries, the molten-air battery has the advantage of being rechargeable.

    Although the molten electrolyte currently requires high-temperature operation, the battery is so new that the researchers hope that experimenting with different molten compositions and other characteristics will make molten-air batteries strong competitors in electric vehicles and for storing energy for the electric grid.

    This ability to store multiple electrons in a single molecule is one of the biggest advantages of the molten-air battery. By their nature, multiple-electron-per-molecule batteries usually have higher storage capacities compared to single-electron-per-molecule batteries, such as Li-ion batteries. The battery with the highest energy capacity to date, the vanadium boride (VB2)-air battery, can store 11 electrons per molecule. However, the VB2-air battery and many other high-capacity batteries have a serious drawback: they are not rechargeable.

    The researchers experimented with using iron, carbon, and VB2 as the molten electrolyte, demonstrating very high capacities of 10,000, 19,000, and 27,000 Wh/l, respectively. The capacities are influenced by the number of electrons that each type of molecule can store: 3 electrons for iron, 4 electrons for carbon, and 11 electrons for VB2. In comparison, the Li-air battery has an energy capacity of 6,200 Wh/l, due to its single-electron-per-molecule transfer and lower density than the other compositions while a typical Li-Ion battery has a capacity of approx 600 Wh/l.

    Source: Phys.org