Plug-In EVs report strong June sales month in US

Electric vehicles had their strongest month in June this year as major automakers cut prices and added hefty incentives to boost sales.

General Motors reported sales jumped by 53 percent to 2,698 in June, up over the 1,760 in June 2012 after it offered incentives worth as much as $5,000 off 2012 models and $4,000 off 2013 models. For the first half of 2013, sales are up 11.8 percent.

Nissan said sales of its all-electric Leaf were up 315 percent over June 2012 to 2,225, for its second-best ever month. Nissan has now sold 9,849 in the first half of 2013, more than the 9,819 it sold in all of 2012. In January, Nissan said it was cutting the price of the entry-level Leaf 18 percent to $28,800 for the 2013 model as it launched U.S. production.

Honda had its best-ever month in June with 208 Fit EVs sold, after selling 83 in the first five months of the year. Honda announced in May that it has cut the monthly lease payment on its Fit EV from $389 to $259 and also is cutting the payment for those who already had leased the vehicle. Honda sold just 93 last year.

Honda started sales in July 2012 of the Fit EV and said it plans to sell just 1,100 over two years, citing capacity constraints. The company has 200 dealers selling the Fit EV and said it plans steadier availability. Honda spokeswoman Jessica Fini said after the lease price was cut, “basically everything on the ground sold,” but she emphasized that the company still has inventory to sell.

GM plans to keep the same incentives in place for at least another month. GM is offering $5,000 off the 2012, and $4,000 off the 2013, and a $269 lease for 36 months with $2,399 due at signing. More than 40 percent of Volts are sold in California, followed by Michigan in second.

Malcho said GM has increased its incentives to stay competitive in the electric vehicle market. The company also wants to clear out some inventory before it begins building 2014 Volts later this summer.

In January, Ford Motor Co. dropped the price of the lease for a Focus EV from about $350 a month to $285, plus $930 due at signing. Ford reduced the base price of the EV Focus by $2,000 to $37,995. But Ford EV sales have remained very modest. Ford sold 157 Focus EVs in May to 723 for the first five months of the year. By contrast Ford has sold 8,177 hybrids in the first five months of the year.

ELMOFO Electric Radical SR8 Shakedown [VIDEO]

This is the first run of the ELMOFO Radical SR8 at Eastern Creek Raceway. The video is under 3/4 throttle reaching a top speed of 220 KM/H (137 MPH) not bad for a first run. Next week the team at Electro Motive Force Racing plan to turn it up to full noise.

The drive system incorporates:

  • AMR Prototype Dual-Inline Stack AC Motors
  • Rinehart Motion Systems PM150 Motor Controllers
  • ELMOFO Liquid Cooled Battery Modules

  • 2014 Formula One exhaust energy recovery system explained

    In an effort to reduce fuel consumption in Formula One by up to 35% the FIA have introduced wholesale changes to the technical regulations to significantly increased energy harvesting for the 2014 season.

    In addition to doubling to power of the Kinetic Energy Recovery System (KERS), first introduced in 2009, from 60 kw to 120 kw and increasing kinetic energy storage by five times from 0.4 MJ/lap to Max 2MJ/lap, a new method of heat-based Energy Recovery System has been introduced.

    The regulations refer to the two devices as the ‘Motor Generator Unit – Kinetic’ (MGU-K) and ‘Motor Generator Unit – Heat’ (MGU-H). The latter uses heat energy from the turbo to generate electrical energy.

    The MGU-H unit captures waste heat as it is dispelled from the exhaust turbocharger via an electric generator attached to the turbocharger shaft. This waste heat energy is stored as an electrical charge adding an additional 2MJ/lap to KERS resulting in 10x - 4MJ compared to 400 kJ - as much electric power boost per lap compared to 2013 KERS.

    2014 V6 Engine Q & A with MERCEDES AMG PETRONAS

    What can you tell us about the 2014 engine?

    First of all, let’s mention the rules rather than the engine. For 2014, the rules specify a maximum race fuel allowance of 100 kg – compared to a typical race fuel load of around 150 kg today, although that’s not fixed by the rules.

    That means we have one third less fuel to complete the same race distance with – and we want to do it at the same speed. So we need a powertrain that’s 30% more energy efficient.

    And that’s where the new engine comes in?

    Well, it’s not really just an engine any more. Without getting too technical, Article 1.22 of the Technical Regulations now refers to what’s called a ‘Power Unit’. This comprises an ICE (Internal Combustion Engine), an ERS (Energy Recovery System) and all the ancillaries needed to make them work.

    But why a Power Unit? Well, today’s V8 essentially features a “bolt-on” KERS Hybrid system that was added during the engine’s life. The 2014 Power Unit has been designed with integrated hybrid systems from the very beginning.

    Interesting. F1 loves jargon, so ICE and ERS sound just perfect. What do they mean?

    The ICE is the traditional engine in the Power Unit package. 1.6 litre capacity, turbocharged, and with direct fuel injection at a pressure of up to 100 bar. Where the current engines rev to 18,000 rpm, the ICE is limited to 15,000 rpm from 2014.

    As for ERS, it’s like KERS on steroids: not only can we still harvest energy from and deploy energy to the rear axle, we can now do the same from the turbocharger; the kinetic machine is called MGUK (Motor Generator Unit Kinetic) and the machine on the turbo an MGUH (‘h’ for heat).

    In total, we are allowed to harvest and deploy energy at twice the power to the rear axle – so 161 hp compared to 80.5 hp today. And we are allowed to deploy ten times as much energy – 4MJ compared to 400 kJ. Simply put, that means a bigger power boost for a higher percentage of the lap.

    And that’s what helps improve the efficiency?

    Exactly. Part of the efficiency gain comes from the ICE, which runs at lower speeds with fewer moving parts than the V8 and the benefit of turbocharging; but the other part is to be found in the ERS.

    Today, the fuel energy we combust in the engine then has one possible energy journey to improve system efficiency, via the KERS system.

    In 2014, there will be up to seven possible energy journeys to keep energy within the vehicle rather than wasting it through the exhausts and brakes.

    Sound pretty impressive. Will it be exciting for the fans?

    We believe so. The target is to achieve the same power output of around 750 hp but to do so using around 30% less fuel.

    In terms of sound, the engine note is not as loud as the current V8 because of two factors: the lower engine speed and the fact that the turbocharger sits in the exhaust flow, recovering energy from it that would otherwise be lost as heat and sound.

    But because of the mechanical balance of a V6 engine, it also sounds sweeter. And we’re confident that fans will find it pretty exciting when they hear it at the track.

    What impact will it have on the racing?

    First of all, the engine is going to produce a lot more torque than the current V8 and over a wider power band.

    That means the car is going to be grip limited on corner exit, in technical terms; in layman’s terms, they’re going to be a handful for the drivers.

    The next point is that it will reward the most intelligent drivers - the fastest way to finish a race will not always be straightforward and the cleverest drivers will probably adapt fastest to the new challenges.

    So will we see F1 turned into an economy run – or cars running out of fuel in the latter stages?

    Unlikely. Managing fuel consumption is already a critical part of F1 and it will remain so in 2014; for example, did you know that our V8 can complete a race distance today using 11.6% less fuel than it did in 2006?

    Today, teams are very good at monitoring fuel consumption: we track each injection of fuel into each cylinder so we know exactly how much fuel is being used. And there are over five million injections in an average race!

    Ultimately, the smartest driver in the quickest car will be successful in 2014, which remains true to the fundamental challenge of Formula One. What we’re really doing is putting the ‘motor’ back into ‘motorsport’.

    Cadillac ELR suspension and steering systems in detail [VIDEO]

    Drivers expect hybrid and electric cars to have advanced battery and drive systems that make smart use of energy. Cadillac’s upcoming electrified luxury coupe, the 2014 ELR, is designed to exceed those expectations by also providing engaging, responsive driving dynamics enabled by advanced suspension and steering systems.

    The technologies include front HiPer Strut suspension, rear compound crank with Watt’s link suspension, a premium ZF electric power steering system and ZF-Sachs continuous damping control.

    “ELR’s methodical use of advanced suspension and steering technologies front and rear has resulted in the quiet cabin, agile handling and superior ride that Cadillac customers have come to expect,” said Chris Thomason, ELR vehicle chief engineer. “ELR will redefine for many people what the electric car driving experience is all about. Not only does it make smart use of energy, it makes energy-efficient driving fun and luxurious.”

    ELR’s industry-leading Extended-Range Electric Vehicle (EREV) propulsion system delivers 295 lb-ft (400 Nm) of instantly available torque. In driver-selectable Sport mode, the reconfigured accelerator pedal provides quicker torque application and more sensitive feedback through altered suspension and steering settings. ELR also offers Tour, Hold and Mountain driving modes.

    With so much torque available, engineers relied on a HiPer Strut front suspension to eliminate torque steer and increase front axle grip while cornering due to optimized tire contact with the road. The HiPer Strut also contributes to ELR’s precise, communicative and linear steering feel, and reduces unwanted steering system disturbances over rough roads and bumps for an overall smoother ride.

    In its rear suspension, ELR uses a Watt’s link design to center the car’s rear axle during turns to provide a more balanced driving experience. When cornering, the Watt’s link provides greater lateral stiffness that results in more positive vehicle response to steering inputs and helps keep the rear suspension aligned with the front suspension. When the ELR is traveling on a straightaway, the Watt’s link allows the suspension to travel up and down freely to make the ride more comfortable.

    ELR’s premium electric power steering system is designed to provide excellent feedback while saving fuel. The rack-mounted, dual-pinion system – one for steering and one for power assist – consumes energy only when the vehicle is actively steered. A combined electric motor and sensing unit monitors steering angle and delivers appropriate assist to the steering gear at all times, correcting for crowned road surfaces and cross-winds. This helps reduce driver fatigue.

    In driver-selectable Sport mode, ELR’s steering gear provides increased on-center sharpness and steering sensitivity for dynamic steering. In the more relaxed Tour mode, it allows precise control with less driver steering efforts.

    ELR’s continuous damping control monitors sensors throughout the vehicle, vehicle speed and the driver’s input, and adjusts damping accordingly for each 20-inch wheel every two milliseconds to maintain optimal vehicle ride control over varying road surfaces and profiles. This reduces and controls vehicle roll, pitch and vertical motions for a flat “sky-hook” ride performance, and instantly responds to cornering maneuvers by automatically adjusting the dampers to a firmer level for superior handling and stability. When driving on smooth roads, the dampers are automatically adjusted to the softest setting to provide increased isolation and ride comfort.

    An isolated four-mount front cradle contributes to the ELR’s overall quietness, noise and vibration performance, and ride-and-handling dynamics. Specifically tuned mounts are tailored to the engine’s inherent torque axis, decreasing the transfer of vibration and noise into the cabin.

    Now in its final months of pre-launch engineering testing, the ELR is slated to reach showrooms in the U.S. by early 2014. ELR is the first car by a full-line luxury brand to offer Extended Range Electric Vehicle technology. The EREV propulsion technology provides full driving range exceeding 300 miles (480 km), combining pure electric driving and an efficient, range-extending generator.

    Four time World Solar Challenge winners unveil – Nuna 7

    The team that won the World Solar Challenge four times consecutively between 2001 and 2007 have unveiled their latest solar racer.

    The Nuna7 solar-powered vehicle – which features pioneering pore-filling technology – will take part in the competition in Australia in October, representing the fourth time that the Nuon Solar Team from the Technical University in Delft and Sikkens paint experts from the company's Automotive and Aerospace Coatings business have worked together.

    This year, however, will be the first time that the Nuna has used the new composite pinhole filler Aerowave 2501, which has already been used on commercial aircraft.

    "When the carbon fiber shell of the Nuna is manufactured, the process creates pinholes that must be filled with putty and then sanded, often multiple times," explained John Grevers, AkzoNobel's Technical Coordinator for Benelux and Sikkens project leader for the Nuna.

    "Our water-based pinhole filler replaces much of the putty and doesn't require sanding, because it can be easily wiped away. Which means it also adds less weight to the car than traditional fillers."

    As well as the new pinhole filler, the Nuna 7 also features an aerodynamically advanced Sikkens coatings system designed to reduce wind drag and cut down on preparation time. Products used include Colorbuild Plus, Autocryl Plus LV, and Autoclear LV Superior.

    "AkzoNobel is helping us a lot in terms of making sure that we have the best possible aerodynamics thanks to the finish they provide," said Leslie Nooteboom, the Delft team's Public Relations manager. "We feel that the company is playing a very important role in our chances of winning the race in Australia."

    Added Grevers: "It has been a valuable experience for us to develop coatings that not only provide advanced aerodynamics, but can also perform well under the extreme temperatures of solar car racing. And it’s always good to work with students because they bring a fresh vision."

    The team hopes to go one better than 2011, when the Nuna 6 finished second in the 11th World Solar Challenge. The biennial event – which aims to promote research on solar-powered cars – attracts teams from across the globe. The 2013 race will be staged from October 6 to 13.

    Toyota Sells Three Millionth Prius

    Toyota Prius has passed a significant milestone with the sale of the three-millionth car. The total includes more than 1.3 million deliveries in North America, a similar number in Japan, 260,000 in Europe and almost 80,000 in the rest of the world.

    Australians have bought more than 18,300 Prius since its launch in this country in October 2001. Prius was first launched in Japan late in 1997 and is now sold in 60 countries and regions. The second generation followed in 2003 and the third generation in 2009.

    Annual sales exceeded 100,000 for the first time in 2004 and cumulative sales reached one million in 2008, with the two millionth being sold in September 2010. Since then, Toyota has expanded Prius into a family of vehicles. Including the Prius c city car and Prius v seven-seater, cumulative global sales of the Prius family have now reached 3.8 million.

    Total global sales of all Toyota and Lexus hybrids exceed 5.3 million units.

    In 2012, the company sold more than one million hybrid vehicles in a calendar year for the first time. From the first to third generation, Toyota Motor Corporation (TMC) reduced the cost of the hybrid system by two-thirds and improved fuel efficiency. In addition, TMC applied for 1,261 patents relating to the third-generation Prius, achieving progress worthy of the Prius name (derived from a Latin word meaning "to go before").

    Since the development of the first-generation Prius, TMC has positioned hybrid technology as a core technology required for the development of various types of environment-friendly vehicles. TMC has also placed emphasis on the development and production of core components such as motors, inverters, batteries and electronic control units, giving rise to substantial investment. TMC will continue to conduct R&D and invest in facilities for the development of hybrid and other cutting-edge technologies and achieve sustainable growth by deploying these technologies across the globe.

    In the fiscal year ending March 2014, TMC expects to spend 790 billion yen (A$8.6 billion)* - a year on year increase of 11 per cent - on environmental technology development, as well as on strengthening new platform and major component development. In the same period, TMC also plans to make consolidated capital expenditure investments of 910 billion yen (up seven per cent year on year).

    Michelin TV: Drayson Racing Set New FIA World Electric Land Speed Record [VIDEO]

    Drayson Racing set a new World Electric Land Speed Record of 204.185mph this evening with the support of Michelin tyres.

    Former science minister, businessman and racing driver Lord Drayson was behind the wheel of the Drayson B12 69/EV electric Le-Mans Prototype

    In near perfect conditions, the Oxford-based sustainable motorsport company smashed the previous 175mph record, which had stood for nearly forty years, by 29.2mph.

    As the new world record holder, Lord Drayson commented: "I'm delighted we've beaten the record tonight and can show the world EVs can be fast and reliable.Drayson Racing is a laboratory for EV technology, testing it to the most extreme level, as we've seen today."

    "It is not the outright speed of 203mph that is most impressive about this record, but the engineering challenge of accelerating a 1000kg electric vehicle on a short runway over a measured mile.However I've got a great team and world-class partners, such as Michelin."

    "This is a true celebration of Britain's leading position within the burgeoning electric vehicle industry and I'm delighted to be at the forefront of this electric revolution. We hope to set more records tomorrow. "

    Drayson Racing is a research and development business, pioneering the development of sustainable technologies in the challenging environment of motorsport. With the electric land speed record it intends to showcase what is possible with an electric drive train and underscore Britain's leadership position in the EV industry.

    Monster Tajima wins EV class with fifth overall @ Pikes Peak

    "Monster" Tajima has broken the 10 minute barrier with an electric vehicle at Pikes Peak beating the 2011 outright course record set by Nobuhiro Tajima himself at 9:51.278 behind the wheel of a 900 hp Suzuki SX4 Hill Climb Special.

    The new EV record now stands at 9:46.530 beating the 10:15.380 set by Fumio Nutahara for Toyota Motorsport in 2012 and was just a whisker shy of 2012 outright winner Romain Dumas who set 9:46.18 in a Porsche GT3 RS.

    Unfortunatley the outright record has now been put significantly further out of reach by nine time World Rally Champion Sébastien Loeb setting a time of 8:13.878 in a 900 hp 900 kg Peugeot 208 T16 Pikes Peak Special.

  • 1st.: Nobuhiro Tajima 9:46.530 OVERALL: 5th!
  • 2nd.: Hiroshi Masuoka 10:21.866 OVERALL: 13th!
  • 3rd.: Greg Tracy 10:23.649 OVERALL: 14th!
  • 4th.: Rod Millen 10:24.301 OVERALL: 16th!

    Source: Pikes Peak Timing

  • Monster Tajima wins EV class with fifth overall @ Pikes Peak

    "Monster" Tajima has broken the 10 minute barrier with an electric vehicle at Pikes Peak beating the 2011 outright course record set by Nobuhiro Tajima himself at 9:51.278 behind the wheel of a 900 hp Suzuki SX4 Hill Climb Special.

    The new EV record now stands at 9:46.530 beating the 10:15.380 set by Fumio Nutahara for Toyota Motorsport in 2012 and was just a whisker shy of 2012 outright winner Romain Dumas who set 9:46.18 in a Porsche GT3 RS.

    Unfortunatley the outright record has now been put significantly further out of reach by nine time World Rally Champion Sébastien Loeb setting a time of 8:13.878 in a 900 hp 900 kg Peugeot 208 T16 Pikes Peak Special.

  • 1st.: Nobuhiro Tajima 9:46.530 OVERALL: 5th!
  • 2nd.: Hiroshi Masuoka 10:21.866 OVERALL: 13th!
  • 3rd.: Greg Tracy 10:23.649 OVERALL: 14th!
  • 4th.: Rod Millen 10:24.301 OVERALL: 16th!

    Source: Pikes Peak Timing