Renault EV sales increase 100% so far in 2013

Renault’s Lineup Of Pure Electric Cars – Twizy, Zoe, Fluence Z.E. and Kangoo Z.E.

This from InsideEVs.com.

We’ve got our hands on the latest  preliminary sales data from Renault after the first ten months of 2013.

The French company, which seems the most involved in EVs of all the European automakers (sorry BMW), sold over twice as many electric cars as in 2012. And this is despite Fluence Z.E. sales collapsing after Better Place went out of business.

Growth rests on the shoulders of Renault ZOE, because Kangoo Z.E. sales grew just 6% YTD.

Over 7,500 ZOEs were delivered this year, including some small number of a mystery light commercial van (LCV) version. In October, over 900 ZOEs were sold – this is still less than the Nissan LEAF in Europe and roughly 4-5 times less than LEAF worldwide, which mean that at this rate, Renault will never catch up to Nissan.

Sadly, when we will count all vehicles, including Twizy, the situation is much worse. This is because Twizy is stuck at one third of 2012 sales. It is curious that in October, the largest market for summer-loving Twizy was Sweden with 73 units! Second was Germany with 64, and third Italy with 48. France took fourth – 46 units.

Renault EV Sales After 10 Months of 2013

Liberty Electric cars UK chosen for EU city EV programme

Green Automotive Company announced today that its UK subsidiary, Liberty Electric Cars, has been chosen by the European Union to be a major partner in the prestigious epsilon innovation programme. Selected due to the company’s leading electric vehicle design and engineering accomplishments, the project’s ultimate goal will be to successfully develop a small electric passenger vehicle that optimises safety, performance and comfort features while integrating all the benefits of a lightweight unique body construction. The project will be co-funded by the 7th Framework for Research and Technological Development which is the EU’s main arm for financially supporting essential research throughout the continent.

Liberty Electric Cars will advise on the best materials to be used throughout the vehicle body construction and the precise manufacturing methods that will need to be employed, while directly contributing to the overall market research and resulting vehicle design specifications. In addition to balancing a low vehicle weight (less than 600 kg) with performance and comfort considerations, an ultimate goal will be to achieve an excellent vehicle safety rating for both occupants and pedestrians by receiving at least a 4-star Euro NCAP rating (equivalent to the American NCAP rating). The epsilon project also aims to successfully reach a new level of energy efficiency that can result in a pure electric driving range of at least 150 km in a realistic urban driving environment, with an acceleration time of 0-100 km/h in less than 10 seconds.

Yamaha Motiv.e - the world's most efficient EV?

Gordon Murray's revolutionary iStream manufacturing process was used to develop this Yamaha electric car concept.

The Japanese company has teamed up with the legendary race car designer to develop an electric car that’s even tinier than the Smart Fortwo, along with an efficient low-cost manufacturing process to go with it.

At just 8.8 feet long and 4.8 feet wide, the Motiv.e concept is narrower than it is tall, but it offers seating for two and all of the safety equipment necessary to make it street legal.

Key to this is Murray's design that features a steel cell with crush zones and anti-intrusion bars surrounding the passenger compartment. The powertrain is also installed within structure, while recycled plastic composite body panels are attached to the outside to help create a stiff chassis while reducing overall complexity and weight.

This minimalist approach allows the Motiv.e to be powered by a compact, 8.8 kilowatt-hour battery pack (amazing!), which is exactly half the size of the one used in the electric version of the Smart Fortwo yet delivers up to 100 miles per charge compared to 76 miles for the Smart. A gasoline-powered version is also in the works.

The vehicle was designed to be manufactured through a proprietary process called iStream that was invented by Gordon Murray, the mastermind behind several world championship-winning Formula One cars, along with the 1994 McLaren F1, once the fastest production car in the world with a top speed of over 240 mph.

According to Murray, by eliminating the large metal presses and other equipment used in traditional automobile manufacturing, an iStream factory could be 80 percent smaller than today’s facilities with an equivalently small startup investment. Its streamlined system also cuts down on the energy required to build the cars and facilitates giving them more frequent updates.

Murray has been shopping the brilliant iStream idea around for several years, but Yamaha is the first automaker to come on board. While it’s best-known for its motorcycles, ATVs and powersports vehicles, the company has developed automobile engines for Toyota, Volvo and Ford in the past and even built its own for Formula One cars in the 1990s.

Murray and Yamaha never crossed paths in racing, but have their sights on making his futuristic small car a reality. No word on when exactly that will happen, or the price, but the two have reportedly been working together since 2008 and a production version could be silently stealing parking spaces in a city near you as early as 2016.

North East UK more EV drivers per head than London

The North East of the UK is claiming to lead the way in electric vehicles, with official figures showing more per head than anywhere in the UK including London.

Over the past two years, the region has installed 1,163 charge points, making it the largest regional network of electric vehicle chargers and the second largest after London which has about 1300 installed.

EV Euro NCAP crash test results

Suzuki Extrigger electric bike

Nice!

Indian government considers $1.6bn EV programme

Is India ready to enter the electric vehicle segment in a big way?

Mahindra Reva’s First Electric Vehicle…the e20

That does seem to be the case, as the nation’s government is currently considering a proposal that, if passed, could finance the development of electric vehicles throughout the county.

The proposal calls for up to $1.6 billion to be set aside over an eight-year period.

The monies will be used for several aspects of electric vehicle development, including for purchase incentives

Actaully, the main focus of the proposal in on providing consumers with incentive, though the exact details are unknown to us at this time.

If passed, the Mahindra Reva with its e20 electric will certainly benefit.  The e20 is currently India’s only mass-produced electric vehicle.

E20 sales right now are less than 30 units per month.  The reason being cited for low sales is the high price tag attached to the e20.  If this incentive were to pass, the e20 could actually become cheaper to purchase than conventionally fueled vehicles in India.

India is expected to take action on this proposal within the next month or two.

The beautiful i8

Elon: The Mission of Tesla

November 18, 2013

The Mission of Tesla

By Elon Musk, Chairman, Product Architect & CEO

TAGS: CUSTOMERS / MODEL S / STORES /

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Our goal when we created Tesla a decade ago was the same as it is today: to accelerate the advent of sustainable transport by bringing compelling mass market electric cars to market as soon as possible. If we could have done that with our first product, we would have, but that was simply impossible to achieve for a startup company that had never built a car and that had one technology iteration and no economies of scale. Our first product was going to be expensive no matter what it looked like, so we decided to build a sports car, as that seemed like it had the best chance of being competitive with its gasoline alternatives.

I suspected that this could be misinterpreted as Tesla believing that there was a shortage of sports cars for rich people, so I described the three step “master plan” for getting to compelling and affordable electric vehicles in my first blog piece about our company. This was unfortunately almost entirely ignored.

In order to get to that end goal, big leaps in technology are required, which naturally invites a high level of scrutiny. That is fair, as new technology should be held to a higher standard than what has come before. However, there should also be some reasonable limit to how high such a standard should be, and we believe that this has been vastly exceeded in recent media coverage.

How Does the Tesla Model S Fire Risk Compare to Gasoline Cars?

Since the Model S went into production last year, there have been more than a quarter million gasoline car fires in the United States alone, resulting in over 400 deaths and approximately 1,200 serious injuries (extrapolating 2012 NFPA data). However, the three Model S fires, which only occurred after very high-speed collisions and caused no serious injuries or deaths, received more national headlines than all 250,000+ gasoline fires combined. The media coverage of Model S fires vs. gasoline car fires is disproportionate by several orders of magnitude, despite the latter actually being far more deadly.

Reading the headlines, it is therefore easy to assume that the Tesla Model S and perhaps electric cars in general have a greater propensity to catch fire than gasoline cars when nothing could be further from the truth.

Journalists with a deep knowledge of the car industry, such as the news editor of Automotive News, understand and attempt to rebut this notion, but they have been drowned out by an onslaught of popular and financial media seeking to make a sensation out of something that a simple Google search would reveal to be false. I would also like to express appreciation for the investigative journalists who took the time to research and write an accurate article.

The degree to which this is outrageous is described well in the above-mentioned Automotive News article. There are now substantially more than the 19,000 Model S vehicles on the road that were reported in our Q3 shareholder letter for an average of one fire per at least 6,333 cars, compared to the rate for gasoline vehicles of one fire per 1,350 cars. By this metric, you are more than four and a half times more likely to experience a fire in a gasoline car than a Model S! Considering the odds in the absolute, you are more likely to be struck by lightning in your lifetime than experience even a non-injurious fire in a Tesla.

Those metrics tell only part of the story. The far more deadly nature of a gasoline car fire deserves to be re-emphasized. Since the Model S went into production mid last year, there have been over 400 deaths and 1,200 serious injuries in the United States alone due to gasoline car fires, compared to zero deaths and zero injuries due to Tesla fires anywhere in the world.

There is a real, physical reason for this: a gasoline tank has 10 times more combustion energy than our battery pack. Moreover, the Model S battery pack also has internal firewalls between the 16 modules and a firewall between the battery pack and passenger compartment. This effectively limits the fire energy to a few percent that of a gasoline car and is the reason why Dr. Shibayama was able to retrieve his pens and papers from the glove compartment completely untouched after the recent fire (caused by a high speed impact with a tow hitch). It is also why arsonists tend to favor gasoline. Trying to set the side of a building on fire with a battery pack is far less effective.

What About Safety Overall?

Our primary concern is not for the safety of the vehicle, which can easily be replaced, but for the safety of our customers and the families they entrust to our cars. Based on the Model S track record so far, you have a zero percent chance of being hurt in an accident resulting in a battery fire, but what about other types of accidents? Despite multiple high-speed accidents, there have been no deaths or serious injuries in a Model S of any kind ever. Of course, at some point, the law of large numbers dictates that this, too, will change, but the record is long enough already for us to be extremely proud of this achievement. This is why the Model S achieved the lowest probability of injury of any car ever tested by the US government. The probability of injury is the most accurate statistical figure of merit, showing clearly that the Model S is safer in an accident than any other vehicle without exception. It is literally impossible for another car to have a better safety track record, as it would have to possess mystical powers of healing.

Further Actions

While we believe the evidence is clear that there is no safer car on the road than the Model S, we are taking three specific actions.

First, we have rolled out an over-the-air update to the air suspension that will result in greater ground clearance at highway speeds. To be clear, this is about reducing the chances of underbody impact damage, not improving safety. The theoretical probability of a fire injury is already vanishingly small and the actual number to date is zero. Another software update expected in January will give the driver direct control of the air suspension ride height transitions.

Second, we have requested that the National Highway Traffic Safety Administration conduct a full investigation as soon as possible into the fire incidents. While we think it is highly unlikely, if something is discovered that would result in a material improvement in occupant fire safety, we will immediately apply that change to new cars and offer it as a free retrofit to all existing cars. Given that the incidence of fires in the Model S is far lower than combustion cars and that there have been no resulting injuries, this did not at first seem like a good use of NHTSA’s time compared to the hundreds of gasoline fire deaths per year that warrant their attention. However, there is a larger issue at stake: if a false perception about the safety of electric cars is allowed to linger, it will delay the advent of sustainable transport and increase the risk of global climate change, with potentially disastrous consequences worldwide. That cannot be allowed to happen.

Third, to reinforce how strongly we feel about the low risk of fire in our cars, we will be amending our warranty policy to cover damage due to a fire, even if due to driver error. Unless a Model S owner actively tries to destroy the car, they are covered. Our goal here is to eliminate any concern about the cost of such an event and ensure that over time the Model S has the lowest insurance cost of any car at our price point. Either our belief in the safety of our car is correct and this is a minor cost or we are wrong, in which case the right thing is for Tesla to bear the cost rather than the car buyer.

All of these actions are taken in order to make clear the confidence we have in our product and to eliminate any misperceptions regarding the integrity of our technology and the safety of our cars.

Norway: EV profile - EXCELLENT!

Reported in ebil.no: Because of a broad package of incentives to buy and use electric cars, Norway is leading the way to electrify the road transport. There are over 15,000 electric cars driving in Norway in November 2013, and each month 500 new electric cars hits the roads. The long tradition of electric cars in Norway and the high number of electric cars per capita makes it an interesting case for other countries and the EV business.

The Norwegian Electric Vehicle Association conducts an annual survey among their members and other Norwegian electric car owners. In the 2013 survey, 1,858 EV users contributed with their experiences and opinions.

The typical Norwegian EV user is a middle-aged family father with higher education and income, and he owns a Nissan LEAF as one of two cars. A great majority of the respondents (85 %) has two or more cars in their household (Fig 2). This 
is likely because of the shorter range of an electric car. They need a second car for longer journeys than current electric cars can provide. However, for everyday needs, the electric car is sufficient. Norwegians travel 42 km on average every day, mostly by car [5]. Households that already have two cars can easily switch one of them to electric. In Norway, more than 500,000 households currently have two or more cars. Maybe more surprisingly, 15 % of the EV owners 
manage to do their daily transport with just their one electric car. For longer journeys, public transport or car rental/sharing is an option. In Norway, high taxation on traditional cars makes it expensive to own a car. You can rent a second car for many trips before the rental cost is exceeding the cost of owning your own traditional car. Some car dealers, like Nissan, even provide a free rental car for 20 days for their customers buying a Nissan LEAF. Four persons in each household is most common 33 %) for electric car owners, and two or more persons in the household represent 94 % of the respondents. Only 6 % is a single person household. 75 % of the survey participants are male and the majority is between 36 and 45 years old. They have significantly higher income than average in Norway, and a majority has education at university level (77 %).Since most electric car models for the moment only are available as new, it is logical that the average age and income is higher for EV owners. Today EVs are mostly available just for those that want to buy a brand new car. Most young people for instance cannot afford to buy a new car. Since there is relatively few second hand electric cars available, it is a more limited option for people with lower than average income. 

Nearly half of the respondents to the 2013 survey own a Nissan LEAF, the bestselling EV in Norway (Fig 3) and among the top five at the general model ranking. In April 2013, the LEAF was even the second bestselling car model in total after Volkswagen Golf. The distribution of the rest of the electric car models is in a good way representing the existing electric car fleet in Norway. After Nissan LEAF, the triplets Mitsubishi i-MiEV, Peugeot iOn and Citroën C-ZERO are the most popular electric cars in Norway. There are also still a substantial share of the Norwegian electric cars Think and Buddy.  Still, owners of the new generation of electric cars are slightly overrepresented in this survey if you compare it to the total electric car fleet in Norway. We have to mention that 5 % of the respondents have more than one electric car. Most probably, a result of their long ownership of EVs, they keep their old electric car when they buy a new one. A movement to avoid owning traditional cars and the whole family can have an electric car for their daily transport. 

To reduce emissions as much as possible we must find methods that will get electric cars to replace the use of traditional cars and not public transport or walking and bicycling. The users in Norway states that their electric car in most cases 
replaces use of a traditional car (87 %). For the remainder, the electric car replaces walking, bicycling (1 %) and use of public transport.An earlier study from 2009 suggests that the electric car replaces public transport for commuting by a larger extent then our results at about 18 % [6]. A similar question is how much the electric car replaces a traditional car (Fig 5). 90 % answer completely or to a high degree. If you combine these two questions, it is a clear indication for concluding that the electric car replaces the use of a traditional car for the most extent. Hence, the electric car is not an addition to a traditional car, nor replaces use of public transport or walking and cycling. When that said, it is still important to find 
measures to make public transport competitive compared to personal transport. 

So, he uses his electric car on a daily basis instead of a traditional petrol or diesel car. He uses the electric car for commuting, after work activities, and not for longer holiday trips. He agrees on that his electric car saves him money and time and he is very satisfied as an EV owner. His next car will also be electric.

The typical EV owner has a charging outlet at home and probably also at work. He uses public charging stations less frequent. Fast charging is important to extend the range of the electric car on extraordinary trips and as a security if the battery runs empty by accident. He is willing to pay between 2.5 and 6 Euros for a 15 minutes fast charging session. The location of fast chargers should be between cities and convenient locations where he drives on a regular basis.

The broad package of incentives convinced him to buy his electric car. Although, it was the zero purchase tax and VAT that made the electric car competitive for him to consider in the first place. Low fuel cost, free toll roads and access to bus lanes are also important incentives. In order to get more people to buy an electric car, the EV user highlights longer range and predictable EV policy as the two most important requirements. One challenge to the electric car manufactures and one challenge to the world governments.