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Phantom engine mapping system designed to increase engine performance and enhance <b>fuel</b> <b>...</b>

Pipe: Passenger vehicles - Mon, 2014-10-20 07:48
Can your tow car performance and fuel economy be increased with Phantom's remapping system? CaravanTimes went to find out more. We all know ...

Acting Director of the National Highway Traffic Safety Administration: Who Is David Friedman?

Pipe: Passenger vehicles - Mon, 2014-10-20 07:37
His team's work on fuel economy led in 2007 to the first legislative change in NHTSA's Corporate Average Fuel Economy (CAFE) standards since they ...

EPA To Tighten Gas-Mileage Test Rules, Audit More Ratings From Carmakers

Pipe: Passenger vehicles - Mon, 2014-10-20 07:26
The EPA plans to audit more of the gas-mileage test data submitted by carmakers, and tighten its rules for that testing, after fuel-economy ratings on ...

Yamaha SZ-RR 2.0 version launched in India priced at Rs 65300

Pipe: Passenger vehicles - Mon, 2014-10-20 07:03
Fuel economy of the bike has been improved by 11 per cent as against its predecessor. The new SZ-RR V2.0 is equipped with Blue Core technology ...

Autonomous Audi RS 7 concept completes Hockenheimring lap at racing speed

Pipe: Advanced tech - Mon, 2014-10-20 07:00

System components of the Audi RS 7 piloted driving concept. Click to enlarge.

At the DTM season finale, an autonomous Audi RS 7 piloted driving concept completed a lap on the Grand Prix track in Hockenheim at racing speed—without a driver. It took the Audi RS 7 piloted driving concept just slightly over two minutes to complete a lap on the track, piloted with high precision and accuracy to within centimeters. The five-door coupe is largely identical to the production model, but its electromechanical power steering, the brakes, the throttle valve and the eight-speed tiptronic are controlled automatically.

There are two primary technological considerations during piloted driving at such speeds: precise orientation of the vehicle on the road and absolute control of the vehicle at the handling limits.

For orientation on the track, the autonomous RS 7 uses specially corrected GPS signals for orientation on the track. Accurate down to a centimeter, these differential GPS data are transmitted to the vehicle via WLAN according to the automotive standard and redundantly via high-frequency radio. Parallel to this, 3D camera images are compared in real time against graphical information stored on board. The system searches in each of the countless individual images for several hundred known features, such as building patterns behind the track, which it then uses as additional positioning information.

Control of the vehicle at the handling limits is another feature of the Audi RS 7 piloted driving concept car. Comprehensive on-board networking coupled with the highly precise control of all actors relevant to driving enable the technology platform to drive at the physical limits. The Audi engineers intensively investigated piloted driving at the handling limits, putting the technology platform through several thousand test kilometers on a variety of routes.

The Audi RS 7 piloted driving concept car drove a clean racing line at the Hockenheimring—full throttle on the straights, full braking before the corners, precise turn-in and perfectly metered acceleration when exiting the corners. Forces of over 1.3 g occur during braking, and lateral acceleration in the corners can reach 1.1 g. Tests on the track in Hockenheim suggested an expected top speed of 240 km/h (149.1 mph) and a lap time of 2 minutes and 10 seconds.

The top performance by the Audi RS 7 today substantiates the skills of our development team with regard to piloted driving at Audi. The derivations from series production, particularly in terms of precision and performance, are of great value for our further development steps.—Prof. Dr. Ulrich Hackenberg, Board Member for Technical Development at AUDI AG
On the track. Click to enlarge.

Piloted driving is one of the most important development fields at Audi: The first successful developments were achieved ten years ago. The test results continually flow into series development.

Driver assistance systems. Click to enlarge.

These latest test runs are providing the Audi engineers with insights for the development of automatic avoidance functions in critical driving situations, for example.

Production Audi driver assistance systems include Audi side assist, Audi active lane assist, and adaptive cruise control with Stop&Go function including Audi pre sense front.

Experts from Volkswagen Group Research, the Electronics Research Laboratory (ERL) and Stanford University (both in California) are supporting Audi as partners in the further development of piloted systems.

Is the New <b>Fuel Economy</b> Champion Audi A3 a 63 MPG Tesla-Killer?

Pipe: Passenger vehicles - Mon, 2014-10-20 06:07
Audi invited 16 journalists to pair up into eight of these cars to shoot for a fuel-economy record drive. Audi engineers sealed the fuel tanks and ...

Beijing broke its own air-quality rules and held a marathon in toxic conditions

Pipe: Passenger vehicles - Mon, 2014-10-20 06:07
The amount of PM2.5 particulate matter—the most dangerous kind of air pollution, which is carried deep into your lungs and then your ...

Ford investing $306M more at Dagenham for new generation of 2.0L diesels; LCVs from 2016 and cars from 2018

Pipe: Advanced tech - Mon, 2014-10-20 06:00

Ford is investing an additional £190 million (US$306 million) at its Dagenham London site to produce a family of all-new advanced 2.0-liter diesel engines (code-named Panther) in a wide range of outputs due to be applied in commercial vehicles starting in 2016 and in cars starting in 2018. (Earlier post.) This investment includes £8.9 million (US$14.3 million) from the Government’s Regional Growth Fund. Ford is creating 318 new jobs connected with this investment.

The announcement confirms the second phase of investment in the new engine program following the original investment of £287 million (US$462.3 million) for phase one with support from the UK Government’s Regional Growth Fund. The first phase of investment relates to the production of low-carbon 2.0-liter diesel engines for Ford commercial vehicles (CVs) globally. The second phase is for low-carbon, 2.0-liter diesel engines for passenger cars.

The second-phase investment brings the total investment in the program to in excess of £475 million (US$765 million). Ford, which in 2012 had been roundly criticized by the press, unions and government for shutting down vehicle production in the UK, said the total investment underlines its commitment to on-going high-tech engine manufacture at Dagenham.

This all-new range of low carbon 2.0-liter diesel engines for cars and CVs was designed and developed at Ford Dagenham and at the Ford Dunton Technical Centre in Essex.

The first phase-one engines will come off the line towards the end of next year. Production capacity will be up to 350,000 units per year—one engine produced every 30 seconds—and will be installed in Ford commercial vehicles from 2016.

The new 2.0 liter advanced diesel engine will deliver significantly lower NOx emissions, satisfying the air quality requirements of the London Mayor’s proposed Ultra Low Emission Zone (ULEZ).

The second phase of engine production is scheduled to start in 2017, with the first installation in Ford cars planned for 2018. The added capacity of up to 150,000 units for this phase brings the total annual capacity for the all-new engine range to up to half a million units.

I welcome Ford’s commitment to Dagenham and the UK, which is a vote of confidence in our long-term economic plan to back business, create more jobs and secure a brighter future for Britain. We are backing our automotive sector so that it continues to thrive and this investment, supported by £8.9 million from Government’s Regional Growth Fund, will create more jobs that mean financial security and economic piece of mind for more hardworking families.—UK Prime Minister, David Cameron

This latest diesel engine program at Ford Dagenham is part of a £1.5-billion (US$2.4-billion) investment by Ford in low-carbon and environmentally friendly engine and vehicle technology over five years.

Ford produces engines at two locations in the UK: gasoline engines from Ford Bridgend in Wales and diesel engines at Ford Dagenham. Total production from the two plants exceeded 1.5 million engines in 2013.

ORNL solid-state 5V Li-ion battery shows cycle life of 10,000, 90% capacity retention

Pipe: Advanced tech - Mon, 2014-10-20 05:30

Researchers from Oak Ridge National Laboratory have demonstrated a solid-state high-voltage (5 V) lithium battery with an extremely long cycle life of more than 10,000 cycles, with 90% capacity retention. The solid electrolyte enables the use of high-voltage cathodes and Li anodes with minimum side reactions, leading to a high Coulombic efficiency of 99.98+%.

ORNL solid-state Li-ion battery. Click to enlarge.

A paper on their work is published in the journal Advanced Energy Materials.

The energy stored in a battery of a given size is proportional to its voltage. Conventional lithium-ion batteries use organic liquid electrolytes that have a maximum operating voltage of 4.3 V; operation above this limit can cause short cycle life and serious safety concerns.

However, lithium-ion-conducting solid electrolytes could enable high-energy battery chemistries by circumventing safety issues of conventional lithium batteries with liquid electrolytes. Use of a solid electrolyte would simplify the use of a Li-metal anode with its high gravimetric energy density, for example.

Toyota, for one, is working on all-solid-state batteries as a mid-term advanced battery solution. (Earlier post.)

However, achieving the required combination of high ionic conductivity and a broad electrochemical window in solid electrolytes is a grand challenge for the synthesis of battery materials, members of the ORNL team noted in a paper published in the Journal of the American Chemical Society in 2013. (Earlier post.)

In this latest study, the Oak Ridge team replaced the conventional liquid electrolyte with a ceramic solid electrolyte of lithium phosphorus oxynitride (Lipon), and used a LiNi0.5Mn1.5O4 cathode and Li anode at a charge voltage to 5.1V. The solid state battery retained more than 90% of its original capacity after 10,000 cycles—equivalent to more than 27 years of life with a daily charge/discharge cycle.

Voltage profiles of the (a) LiNi0.5Mn1.5O4 solid-state lithium battery and (b) a LiNi0.5Mn1.5O4 liquid battery discharged at different rates. The battery was charged at C/10 before each discharge measurement. Li et al.Click to enlarge.


  • Juchuan Li, Cheng Ma, Miaofang Chi, Chengdu Liang, and Nancy J. Dudney (2014) “Solid electrolyte: the key for high-voltage lithium batteries,” Advanced Energy Materials doi: 10.1002/aenm.201401408

Car Report

Pipe: Passenger vehicles - Mon, 2014-10-20 05:22
You can save money and get better fuel economy with the SE trim level, supercharged V6. Base price: $64,000. I know you're thinking about getting ...

California ARB mods to ZEV regulations for IVMs would result in ~1.9% drop in total ZEV/TZEV units 2018-2025; no impact on air quality requirements

Pipe: Advanced tech - Mon, 2014-10-20 05:00

Early in September, the California Air Resources Board (ARB) announced it would consider in a 23-24 October meeting amendments to the Zero Emission Vehicle (ZEV) regulation that would modify the requirements for intermediate volume manufacturers (IVMs) selling into the state to allow them more time to come into the market. (Earlier post.)

Among the proposed changes were additional production lead time; a reduced compliance obligation (i.e., lower numbers of ZEVs); an opportunity to pool compliance obligations in ZEV states; and additional time to make up ZEV credit deficits. ARB staff estimated the proposed modifications could reduce total California deliveries of ZEVs (fuel cell and battery-electric vehicles) and TZEVs (Transition Zero Emission Vehicles, i.e., plug-in hybrids) by a total of about 26,000 units in the 2018 through 2025 timeframe out of the originally estimated 1,400,000 ZEVs and TZEVs for that period under the current regulation—i.e., by about 1.9%. (For MY 2026 and following, the reduced compliance obligation goes away.)

However, in the environmental analysis of the impact of the proposal, ARB noted that despite that projected reduction in ZEV and TZEV volume, because the ZEV amendments do not modify the in-place fleet average emission standards established by the other elements of the Advanced Clean Cars (ACC) package (earlier post), the air quality benefits of the ACC program as analyzed in 2011 will still be realized. In other words, the automakers still have to meet the fleet-based emissions requirements through their sales mix.

Last week, ARB staff issued a correction to the staff report on the changes issued as part of the September announcement; the earlier report had included text from an earlier version of the ZEV regulation, but the substance of the proposed amendments were not affected. However, the corrections do make the mechanism and impact more clear.

Background. ARB first adopted the ZEV Regulation in 1990. Its goal was and is to reduce the environmental impact of light-duty vehicles through the gradual introduction of ZEVs into the California fleet. The ZEV Regulation has been amended multiple times since its inception (most recently in January 2012 and October 2013) to reflect the pace of ZEV development, the emergence of new ZEV and near-ZEV technologies, and the need to provide clarifying language in an increasingly complex regulatory system.

The ZEV regulations, which are now part of California’s comprehensive Advanced Clean Cars (ACC) program which also includes the LEV III tailpipe emissions standard, is the “technology-forcing piece” of the state’s regulatory package for light-duty vehicles. Put another way, the ZEV regulations are driving to force the creation of a market for those vehicles in a much shorter time frame than would normally occur.

In an article in the Winter 2012 edition of Issues in Science and Technology, Daniel Sperling, founding Director of the Institute of Transportation Studies at the University of California, Davis (ITS-Davis) and ARB Board member; and Mary Nichols, ARB chairman, wrote:

Although climate change is a global problem that will require global action, transportation is essentially a local concern. International cooperation will be necessary to resolve problems in maritime and air transport, but action on cars and trucks can be taken at a national or state level.

In addition, although many experts say that the solution to our energy and climate problems is sending the correct price signals to industry and consumers, the transport sector’s behavior is highly inelastic in that it does not change significantly in response to changes in fuel prices, at least in the range that is politically acceptable. Europe has gasoline taxes over $4 per gallon and still finds the need to adopt aggressive performance standards for cars to reduce GHGs and oil use. These high fuel taxes certainly have an effect in reducing the average size and power of vehicles and leading people to drive less, but the resulting reductions in fuel use and GHGs still fall far short of the climate goals. … we are saying that much progress can, and probably will, be made in the transport sector in the next decade without international agreements and without getting the prices right. California is leading the way with policies that address three critical elements of the transportation system: vehicles, fuels, and mobility.

… California has a much more ambitious long-term policy commitment to EVs. In 1990, California adopted a zero-emission vehicle (ZEV) requirement, mandating that the seven largest automotive companies in California “make available for sale” an increasing number of vehicles with zero tailpipe emissions. The initial sales requirement was 2% of car sales in 1998 (representing about 20,000 vehicles at the time), increasing to 5% in 2001 and 10% in 2003.

The intent was to accelerate the commercialization of electric (and other advanced) technology, but batteries and fuel cells did not advance as fast as regulators hoped. The ZEV rule, after surviving industry litigation and multiple adjustments to reflect the uneven progress of hybrid, fuel cell, and battery technologies, now bears little resemblance to the original. Although some consider the ZEV mandate a policy failure, others credit it with launching a revolution in clean automotive technology. The actual numbers of vehicles sold to consumers as a result of the ZEV program are certainly not what CARB originally expected. Only a few thousand EVs were sold in the United States in the first decade of this century, most of them by start-ups such as Tesla.

… Could another policy have accomplished the same at less cost with less conflict? Who knows? What’s certain is that the ZEV program accelerated worldwide investment in electric-drive vehicle technology. The benefits of those accelerated investments continue to sprout throughout the automotive world, and California policy was the catalyst.

In May 2014, Nichols remarked that:

Everyone understands that going into new technology requires a commitment from auto companies, and they don’t normally turn a profit as quickly as everyone would like. But through a sustained commitment, they will. We’re coming to this collaboration as a way of helping companies. They’ve done a great job of producing great cars. We want them to succeed and want them to make money on this.

The current ZEV requirements for MY 2018 and following focus the program on ZEVs (battery-electric and fuel cell vehicles) and transitional ZEVs (TZEV)—typically plug-in hybrid electric vehicles (PHEV). ARB calculates that by 2025, compliance with the requirements will likely result in more than 15% of new sales being ZEVs and TZEVs.

One key to understanding the evolution of the ZEV regulations and the periodic tweaks made to it is to realize that while ARB establishes aggressive targets, it also works continuously with automakers to try to make achievable targets as well. This is the basis for the changes proposed for the Intermediate Volume Manufacturers (IVM) under consideration this week.

LVMs, IVMs, SVMs. ARB basically groups manufacturers into three buckets, based on their sales in the state: large volume (LVM); intermediate volume (IVM); and small volume (SVM). In the 2009 version of the ZEV regulations, SVMs (4,500 units or less) were not subject to the regulation; IVMs (4,501 to 60,000 units) were subject to the regulations, but could meet the whole requirement with PZEVs; and large volume manufacturers were subject to the full brunt of the ZEV regs.

The 2012 amendments to the ZEV reg adopted as part of the ACC package reduced the California sales upper bound for IVMs from 60,000 units to 20,000 per year beginning with the 2018 model year. They concurrently changed the IVMs’ ZEV obligations from being able to meet the mandate with super clean conventional partial zero emission vehicles (PZEVs) to transitional ZEVs (TZEVs or plug in hybrids).

An example of the impact of the 2012 amendments on automakers selling into California, using 2013 data from ARB, if the transition from IVM to LVM was based on sales numbers alone. With these type of sales numbers, the effect is to propel Subaru and Mazda into the LVM tier. Click to enlarge.

At the hearing for the 2012 amendments, the Board directed ARB staff to review how the new regulation affected IVMs who would suddenly find themselves transitioning into large volume manufacturer (LVM) requirements in the 2018 model year and to return to the Board by 31 December 2014, with a recommendation regarding more fair treatment of these manufacturers, ensuring all manufacturers would be successful in commercializing ZEV technologies.

ARB staff subsequently determined that vehicle sales alone is not sufficiently useful in assessing a manufacturer’s ability to bring advanced technology vehicles to market. After consulting with manufacturers, ARB staff decided that a better indicator of this ability is “robust global revenue in conjunction with the established manufacturer sales threshold”.

Staff then proposed a global revenue threshold of $40 billion (calculated from the average of the three consecutive fiscal years immediately preceding the determination). Specifically:

If, in the 2018, 2019, or 2020 fiscal years, an intermediate volume manufacturer would otherwise be subject to the requirements for a large volume manufacturer based on California production volume, and if the intermediate volume manufacturer’s average annual global revenues for that fiscal year, based upon the immediately prior and consecutive three fiscal years, is no greater than 40 billion dollars, then that manufacturer will continue to be considered an intermediate volume manufacturer conditional upon the manufacturer submitting to the Executive Officer, in writing, a report that demonstrates the types and numbers of ZEVs and TZEVs the manufacturer will deliver to California subsequent to the 2020 fiscal year to meet the requirements specified in subdivision 1962.2(b)(1)(A).

The global revenue test is only available to IVMs for the 2018 through 2020 model years. Beginning in the 2021 model year, a manufacturer exceeding the 20,000 vehicle threshold will need to prepare to bring ZEVs to market per the LVM requirements; ARB staff expects most IVMs will make ZEVs available for sale by the 2026 model year.

To accommodate product development lead time, ARB staff is proposing to extend the lead time to 5 three-year averages commencing once the first three-year average exceeds 20,000 vehicles. This provides IVMs a minimum of 5 years and a maximum of 7 years to bring a vehicle to market. This lead time is similar to the lead time provisions established for IVMs that transitioned to LVM status prior to 2018 in ZEV regulation versions prior to the 2012 amendments.

Reducing the ZEV percentage requirement. The current regulation establishes a minimum ZEV credit percentage requirement for manufacturers for the 2018 through 2025 and subsequent model years. The requirement represents the percentage of passenger cars and light duty trucks produced by a manufacturer and delivered for sale in California that must be ZEVs (credit-weighted based on the advanced vehicle technology chosen).

ZEV credit level by type Type Definition 2012-2104 credit level 2015-2107 credit level Type III ZEV 100+ mile range and fast refueling capable or 200 mile range 4 4 Type IV ZEV 200+ mile range and fast refueling capable 5 5 Type V ZEV 300+ mile range and fast refueling capable 7 9

As noted above, the current version of the ZEV Regulation allows an IVM to meet its pre-2018 model year ZEV obligation solely with partial zero emission allowance vehicles (PZEV). The regulation requires an IVM to begin delivering ZEVs in 2018 and subsequent model years.

In recognition of the lower number of vehicle models offered by the typical IVM (each of the IVM5 manufacturers offers 3 to 4 passenger car models while the LVMs offer an average of 12 passenger car models) and their lesser R&D capabilities, the ZEV Regulation allows an IVM to meet its entire ZEV obligation with TZEVs.

ARB staff then decided that the modification would compound the problem for IVMs:

While the intention was to decrease the burden on IVMs, the existing regulation has the practical effect of establishing a double hurdle for IVMs starting in 2018. First, an LVM has had several years to develop ZEV offerings and accrue credits from placement of those ZEVs. For example, LVMs received early introduction multipliers for vehicles introduced in advance of requirements. LVMs also received extended service credit for allowing consumers to either extend a lease or exercise a purchase option at the end of a lease. Neither of these opportunities exists for IVMs under the current regulation. In comparison, the IVMs face the comparatively difficult technological challenge of transitioning from compliance solely with PZEVs to compliance with TZEVs. Second, without the R&D and economic means that LVM have to concurrently develop both TZEVs and greater credit ZEVs, an IVM must plan to offer a significantly greater portion of its sales (potentially in excess of 40 percent in 2025) as TZEVs to meet its obligation. At a time when conventional hybrid market share in California is around 7 percent, this rate of participation in the advanced clean car market does not appear to be realistic for IVMs.—ARB staff ISOR

ARB staff thus proposed adjusting downward the total ZEV credit obligation for IVMs in the 2018 through 2025 model years. (This is under consideration this week.) The proposed obligation would be set at a credit level equivalent to the entire LVM optional (maximum) TZEV obligation plus one-fifth of the LVM pure ZEV obligation. This results in an IVM having an advanced technology vehicle sales percentage (based on a likely compliance scenario) more closely aligned to that of the LVMs.

Minimum ZEV credit requirement Model Year Credit percentage requirement, with proposed reduction for IVMs LVM IVM 2018 4.5% 2.9% 2019 7.0% 3.8% 2020 9.5% 4.7% 2021 12.0% 5.6% 2022 14.5% 6.5% 2023 17.0% 7.4% 2024 19.5% 8.3% 2025 22.0% 9.2% 2026 and subsequent 22.0% 22.0%

Reduced ZEV Credit Percentage Requirement for IVMs Size Credit type Model Years 2018-2026 and Subsequent ‘18 ‘19 ‘20 ‘21 ‘22 ‘23 ‘24 ‘25 ‘26+ LVM ZEV minimum 2 4 6 8 10 12 14 16 16 TZEV maximum 2.5 3 3.5 4 4.5 5 5.5 6 6 Total 4.5 7 9.5 12 14.5 17 19.5 22 22 IVMTZEV + 1/5 ZEV 2.9 3.8 4.7 5.6 6.5 7.4 8.3 9.2 22

Based on these revised percentages, ARB staff projected future sales, and found that under a likely compliance scenario California could see about 26,000 fewer ZEVs and TZEVs delivered in the 2018 through 2025 model years than would be delivered under the existing regulation: the 1.9% noted above.

Section 177 pooling (the ZEV states). Under Section 177 of the federal Clean Air Act, other states can opt in to California’s emission standards, including ZEV. Currently, nine states have done so: Connecticut, Maine, Maryland, Massachusetts, New Jersey, New York, Oregon, Rhode Island, and Vermont.

The 2012 changes established a new optional Section 177 State compliance path. Those provisions allow manufacturers to place extra ZEVs in the Section 177 states one and two years prior to the 2018 model year. In exchange for early placement of these “extra” ZEVs, manufacturers can pool credits across state lines within and between two regional pools. They also earn a reduced TZEV obligation in exchange for early ZEV placement.

Currently, ARB staff notes, only one IVM has a ZEV product or plans to bring a ZEV to market prior to the 2018 model year, so in practice only LVMs have been able to make use of these provisions. However, the IVMs say they need this same ability to pool ZEV and TZEV credits across state lines because some of them have few dealers in some of the Section 177 States.

To accommodate that, ARB staff is proposing additional flexibility for IVMs by allowing them to place extra ZEVs in Section 177 States in the two model years prior to the start of their LVM requirements should they transition into LVM status—but they may take an additional two years to place these extra ZEVs. The IVMs will also be allowed to pool TZEV credits to meet total annual percentage obligations in each Section 177 State. They will not be allowed a reduced TZEV obligation.

Dongfeng Nissan Dalian plant commences production; production hub for SUVs

Pipe: Advanced tech - Mon, 2014-10-20 04:15

The Dalian plant of Dongfeng Nissan Passenger Vehicle Company (DFL-PV) has commenced production, bringing production sites for Nissan cars in China—all bound for the domestic market—to four.

With a gross floor area of 1.32 million m2, the Dalian plant is being developed in two phases. The investment for the first phase totals RMB 5 billion (US$816.5 million), for an initial production capacity of 150,000 units per year. Upon completion of the second phase, the total capacity will expand to 300,000 units per year.

The Dalian plant is positioned as a production hub for Nissan SUVs. The manufacturing technology, quality and eco standard of the construction of the Dalian plant are aligned with the global standards of Nissan, while the factory management comes from existing Chinese plants.

This is a very exciting moment for all of us. It has been just 28 months since we announced the Dalian plant project, and we have overcome many challenges to realize this facility. We are proud of this achievement and poised to deliver high-quality SUVs from this plant to our customers. This plant will strengthen our competitiveness in China, which is the world's largest automotive market.—Susumu Uchikoshi, Managing Director of DFL-PV

The Dalian plant represents DFL-PV’s foothold in Northern China. Together with the Huadu (1st and 2nd) plants in Southern China, Xiangyang and Zhengzhou plants in Central China, DFL-PV is well positioned to provide vehicles throughout the country.

Google iLUC alert: Europe Targets Biofuel Sustainability

ICCT ILUC - Mon, 2014-10-20 04:05
...agreement on the indirect land-use change (ILUC) directive. ILUC relates to the unintended consequence... The LSB warns that the positive impact of finalizing ILUC early next year will be lost if the industry...

Deal of the Day: Peugeot 308 SW

Pipe: Passenger vehicles - Mon, 2014-10-20 04:03
He's been pleasantly surprised by its performance and fuel economy, as well as its practicality. With more than £2500 off its list price, the 308 SW is ...

<b>Fuel economy</b>: from the tank to the bank

Pipe: Passenger vehicles - Mon, 2014-10-20 02:32
The construction industry has long had to weather the storm of fluctuating fuel costs, with the plant, machinery, and vehicles sectors being particularly ...

Oldtimer-Lastwagen: 200 PS stark, 63 km/h lahm

Pipe: Europe - Mon, 2014-10-20 02:05
Sie sind laut, groß und sehr selten: Wer Oldtimer-Lastwagen sammelt, wird leicht für einen Spinner gehalten. Dabei lässt sich die Leidenschaft für alte Lkw leicht erklären.

2015 Range Rover Sport adds hybrid power

Pipe: Passenger vehicles - Mon, 2014-10-20 01:15
Range Rover has introduced a hybrid version of its popular Sport model that offers V8-beating performance and better fuel economy than its V6 ...

Ford steers C-Max ads away from mpg

Pipe: Passenger vehicles - Sun, 2014-10-19 23:56
Since Ford was forced to restate the estimated fuel economy of its C-Max Hybrid -- first in August 2013 and again in June -- the brand's marketers have ...

Falling gasoline prices make alternative-fuel vehicles a tougher sell

Pipe: Passenger vehicles - Sun, 2014-10-19 23:56
Despite their low volume, alternative-powertrain vehicles are central to automakers' plans to comply with toughening federal fuel economy standards.

Google iLUC alert: Dupont, Ethanol Europe To Build Cellulosic Plant In Macedonia

ICCT ILUC - Sun, 2014-10-19 19:01
...with European struggling primarily over food-for-fuel and indirect land use change issues. In this case, utilizing purpose-grown energy crops provides a potential way around the roadblocks to investment...