BMW ActiveE Concept, 2010

 

 

 

BMW ActiveE Concept, 2010

Introducing the BMW ActiveE Concept, the latest electric vehicle project under BMW Group's initiative to produce vehicles that explore solutions to minimize environmental impacts while preserving the kinetic driving experience for which BMW has long been known. The BMW ActiveE Concept follows the all-electric MINI E as the second large-scale electric vehicle test program to be conducted in the hands of interested customers.

The BMW Group presents yet another milestone along the way to achieving CO2-free mobility. The BMW ActiveE Concept provides a taste of a purely electrically powered BMW. Focused on the requirements of practical use, the study is based on the BMW 1-Series Coupe and embodies the outstanding agility and characteristic driving pleasure of the BMW 1-Series for the first time as part of an emissions-free drive concept.

With the world premiere of the BMW ActiveE Concept at the 2010 North American International Auto Show (NAIAS) in Detroit, the BMW Group is highlighting the continuation of its research and development activities in the field of electro-mobility. The field tests with the MINI E as part of project i in the US and Europe have already provided important insights into the demands required of future production electric vehicles. As a second step, project i has begun development of a second trial fleet of electric vehicles based on the BMW ActiveE Concept. These vehicles are likewise intended for everyday use by private and select fleet customers as part of a large-scale field test. The insights gathered in the process will be fed into the development of an electrically powered serial production vehicle which the BMW Group will put on the market under a sub-brand of BMW in the first half of the next decade.

The BMW ActiveE Concept has allowed BMW to explore new vehicle packaging solutions and components which will be crucial to the success of the Megacity Vehicle. The intelligent integration of drive components within the existing vehicle package of the BMW 1-Series Coupe offers the opportunity to provide four full-size seats and a luggage compartment with a capacity of 200 litres / 7 cu ft. The motor, specially developed for the model and located in the rear axle, delivers 125 kW/170 hp and provides maximum torque of 250 Nm / 184 lb-ft. It accelerates the vehicle in less than 9 seconds from zero to 100 km/h (0-60 mph in approx. 8.5 seconds).

The electric drive system draws its energy from new, advanced lithium-ion battery pack developed jointly by BMW and the co-operation partner SB LiMotive especially for the BMW ActiveE Concept. They enable a range of approx. 160 kilometres (100 miles) in everyday use. An intelligent battery management system helps achieve this range largely independently of external climatic conditions. Additionally, the charging period required for the lithium-ion batteries is very short. On the European power grid, the battery pack can be fully charged in just 3 hours at a wall box with a current of 50 ampere at 230/240 volts. In North America, using a high-current (32 ampere continuous) residential wall box, the charge time is about 4.5 hours.

Innovative technology for sheer driving pleasure without CO2 emissions.

The BMW ActiveE Concept embodies a whole new dimension of purely electrically powered mobility. The dynamic potential and high torque of the drive system, along with the rear-wheel drive which is a hallmark of the brand, guarantees the characteristic sheer driving pleasure which is typical of BMW - but without any CO2 emissions. An impressive range of functions and a high level of suitability for everyday use are additional features of this concept, which defines electro-mobility in true BMW style.

The BMW Group attaches key importance to electro-mobility in the development of future-oriented vehicle concepts and drive systems as part of its EfficientDynamics strategy. In the medium term, BMW Group is developing innovative vehicle concepts for emissions-free mobility in urban areas. This so-called Megacity Vehicle will also be offered with an electrical drivetrain. The BMW ActiveE Concept represents a further step towards the realization of this concept. Components of the vehicle may be developed further for later integration into the Megacity Vehicle.

Electric drive: emissions-free, powerful and compact.
The BMW ActiveE Concept offers the prospect of characteristic BMW driving pleasure without exhaust emissions. The requirements for electro-mobility with characteristic BMW properties are being created based on ongoing development in the powertrain. The latest outcome is a new synchronous electric motor tailored to the BMW ActiveE Concept. It offers a high level of efficiency, power delivery, and compact construction.

The maximum output of the new electric drive is 125 kW/170 hp. The maximum torque of 250 Nm / 184 lb-ft is available from a standstill as is typical for electric motors. The torque remains available over an unusually broad load range. Unlike asynchronous electric motors, the new power unit provides a relatively high level of torque even at higher engine speeds and road speeds; at increased load the torque is not reduced abruptly but decreases gradually. The torque curve at higher engine speeds is therefore much more similar to the pattern familiar from combustion engines.

The vehicle concept and drive system provide the agility and dynamic acceleration performance which are characteristic of the BMW 1-Series Coupe. Based on realistic simulations, a figure of less than 9 seconds was measured for the sprint from zero to 100 km/h (0-60 miles in 8.5 seconds), with the 60 km/h mark being reached after less than

4.5 seconds. The maximum speed of the vehicle is electronically limited at around 145 km/h or 90 mph.

The innovative character of the electric drive is also reflected in the optimized ratio between engine output and space requirements: the compact power package is fully integrated in the rear axle of the BMW ActiveE Concept. Here the drive system occupies the space required in conventional vehicles by the differential, whose function is integrated in the drive system.

Recuperation of energy increases range.
In the purely electric powered BMW, the driver may control deceleration as well as acceleration through the movement of the accelerator pedal. As soon as the driver's foot is removed from the accelerator, the electric motor performs the function of a generator, converting the vehicle's kinetic energy into electric power and storing it in the battery pack. Intensive use of this so-called energy recuperation process by the motor increases the range by up to 20%.

At the same time, a brake torque is created which results in effective deceleration of the vehicle. This response enables a very comfortable driving style, especially at medium and constantly varying speeds. In urban traffic, some 75 percent of all deceleration manoeuvres are initiated without the need for the brake pedal. During Brake Energy Regeneration function, the vehicle's brake lights are illuminated.

This brake effect acts on the rear wheels only. When the driver requires a higher level of deceleration, stepping on the brake pedal engages the conventional hydraulic braking system. If an emergency braking maneuver is required during braking, the Dynamic Stability Control (DSC) system applies selective braking and motor management measures to ensure that safe braking is always guaranteed.

The brake system is fitted with an electric vacuum pump which is activated on demand. Along with the Electric Power Steering (EPS) familiar from the production models of the BMW 1-Series, these features contribute to an increase in the overall efficiency of the vehicle.

Innovative lithium-ion battery pack with its own liquid cooling.
The lithium-ion battery pack specially developed for this vehicle supplies energy to the motor and all other functions of the BMW ActiveE Concept. The high-voltage battery units offer a particularly high storage capacity and durability. For the first time, storage cells are used which were developed especially for use in automobiles by the BMW Group in collaboration with the co-operation partner SB LiMotive. Powerful battery cells are key when it comes to designing production vehicles with electric drive. Through the collaboration of the BMW Group with a joint venture of the companies Bosch and Samsung SDI [SB LiMotive], leading expertise in the area of battery technology and electro-mobility has been brought together. The aim is to use the best available technology in the area of energy storage as part of the development of the Megacity Vehicle.

For some time now, lithium-ion technology has demonstrated its particularly high storage capacity and deep-cycle resistance - for example in mobile phones and laptops. The technological expertise of SB LiMotive ensures that these properties are retained even under the special conditions of use in an automobile and the relevant demands in terms of durability, endurance and safety.

The lithium-ion batteries of the BMW ActiveE Concept have their own liquid cooling system and intelligent battery management system, which are key elements in increasing both the storage capacity and the durability of the battery cells. These systems also ensure that the long range can be maintained largely independent of external climatic conditions. The high storage capacity is the decisive factor in achieving as long a range as possible. The storage system developed for the BMW ActiveE Concept enables a real-world range of about 160 km / 100 miles on a single charge, depending on conditions (FTP72 cycle range is calculated to be 240 km / 150 miles in simulation).

Modular structure, compact construction, space-saving integration.

Another special feature of the battery pack is its outstanding compactness, despite its output and capacity. The arrangement of battery cells, grouped into several modules, is ideal in terms of packaging, functionality and vehicle balance. The battery pack is located where a combustion engine and fuel tank would normally be located. The largest portion of the battery pack in the BMW ActiveE Concept is located where the conventional propshaft and fuel tank would be in the lower section of the vehicle. In addition, a portion of the battery pack is located where the combustion engine would normally reside. Using intelligent lightweight design and the highly-efficient lithium-ion battery cells, vehicle curb weight is limited to about 1800 kg / 3900 lbs.

Characteristic BMW driving experience, space of a BMW 1-Series Coupe.
The positioning of the battery pack shifts the vehicle's center of gravity downwards. Also, the battery cell layout within the vehicle preserves the near 50-50 weight distribution characteristic of BMW vehicles. In this respect, the BMW ActiveE Concept offers ideal conditions for driving experience characterized by a high level of agility.

In terms of the space available in the interior, the BMW ActiveE Concept has no disadvantage compared to the BMW 1-Series Coupe with conventional combustion engine. It offers four full-size seats with the same measures of head, leg and shoulder space.

The optimum positioning of the power electronics above the motor integrated in the rear axle, for reasons of safety and functionality, results in a reduction of trunk capacity. Nonetheless, the BMW ActiveE Concept still has a luggage compartment which provides considerable versatility in everyday use. With a volume of approx. 200 litres / 7 cu ft, it even exceeds the trunk capacity of the BMW 1-Series Convertible with an open top and can hold two 46-inch golf bags, for example.

BMW X1, 2010

 

 

 

BMW X1, 2010

Its agile, versatile and modern character, the BMW X1 guarantees a new driving experience in the premium compact segment. It expands and enhances the range of BMW X models by yet another innovative vehicle concept.

Through its body design the BMW X1 demonstrates self-confident elegance, a versatile and sporting character, as well as spontaneous agility. For the first time the features and characteristics of a BMW X model are carried over in modern style into a unique vehicle in the premium compact segment.

The interior of the BMW X1 is characterised by clear function and trendsetting, modern style. The driver orientation so typical of BMW is additionally accentuated by the forward-pushing lines within the cockpit area. Sophisticated materials and natural colours accentuate the youthful and dynamic flair of the vehicle.

The elevated seating position, a generous feeling of space, the wide range of storage options and the variable interior offer ideal conditions for enjoying the BMW X1 both in an urban environment and beyond, with agility, spontaneity and versatility of the highest calibre. Three full-sized seats at the rear offer generous space and freedom of movement. The rear-seat backrest is adjustable for angle and folds down in a 40/20/20 split. Luggage compartment capacity may be increased from 420 litres/14.7 cu ft to a maximum of 1,350 litres/47.3 cu ft. An electrically operated Panorama glass roof is available as an option.

The modern drivetrain technology gives the BMW X1 superior performance and supreme efficiency all in one. Depending on the model variant, the driver benefits from powerful, economical and low-emission gasoline and diesel engines, BMW's intelligent xDrive all-wheel-drive technology, as well as a wide range of BMW EfficientDynamics features including Brake Energy Regeneration, Auto Start Stop, and a gearshift point indicator. The BMW X1 sDrive18d with rear-wheel drive and average fuel consumption to the EU standard of 5.2 litres/100 kilometres (equal to 54.3 mpg imp) and a CO2 rating of 136 grams/ kilometre offers the highest standard of efficiency all round.

The cutting-edge suspension technology featured in the BMW X1 comprises a double-joint thrust bar or, respectively, an aluminium double-joint tiebar axle at the front and a five-arm rear axle in lightweight steel, high-precision power steering, high-performance brakes, Dynamic Stability Control including Dynamic Traction Control and, as an option, Performance Control acting on the brakes for particularly dynamic driving behaviour.

The BMW X1 features a special body structure designed from the outset for maximum occupant safety. Standard features include three-point inertia-reel seat belts all round, frontal and side airbags as well as head airbags at the side, adaptive Brake Lights and daytime driving lights. Xenon headlights, Adaptive Headlights and a High-Beam Assistant are all available as an option.

In conjunction with the optional Business and Professional navigation systems, the BMW X1 is equipped with the latest generation of BMW iDrive including a Controller and direct selection buttons on the centre console, a Control Display harmoniously integrated in the instrument panel, and favourite buttons beneath the control panel for the air conditioning featured as standard.

BMW 135i Coupe, 2010

 

 

BMW 135i Coupe, 2010

Starting immediately the BMW 135i Coupe and the BMW 135i Convertible come with a straight-six power unit of the latest generation for the first time combining BMW TwinPower Turbo Technology, High Precision Injection and fully variable VALVETRONIC valve management, all interacting with one another to set new standards for economy with the highest level of performance.

In conjunction with the seven-speed double-clutch gearbox (DKG) featuring Sport Automatic available as an option for the first time in the BMW 1-Series as of March 2010, these superior technologies offer a further significant reduction of fuel consumption and emissions on these top-flight performers, setting up new records in acceleration and dynamic performance.

The top engine featured in both versions of the BMW 1-Series develops maximum output of 225 kW/306 hp at 5,800 rpm from a capacity of three litres, combining spontaneous and direct response with unleashed free-revving driving qualities. Peak torque of the six-cylinder is 400 Newton-metres/295 lb-ft delivered from just 1,200 rpm all the way to 5,000 rpm.

The seven-speed double-clutch gearbox with Sport Automatic shifting gears without the slightest interruption in power and torque, is likewise designed and built for dynamic performance of the highest standard.

Sport Automatic offers not just the option to shift gears manually on the electronic gear selector lever or via the shift paddles on the steering wheel, but also the usual comfort and convenience of a BMW automatic transmission.

The combination of these two innovations in a compact car naturally guarantees driving pleasure of a new standard never seen before. Accelerating from 0 - 60 mph in just 5.0 and from 0 - 100 km/h in 5.2 seconds, the BMW 135i Coupe with its double-clutch gearbox offers the same supreme standard as a thoroughbred sports car even more than in the past.

A truly unique achievement in this performance class is average fuel consumption in the EU test cycle of 8.5 litres/100 kilometres (equal to provisional combined of approx. 22 mpg US), almost one litre/100 kilometres better than the comparable figure in the former model with its six-speed automatic transmission.

This significant reduction of fuel consumption, together with acceleration to 60 mph improved once again by 0.2 seconds, clearly confirms the progress made through BMW EfficientDynamics with this new engine and transmission technology.

Land Rover Freelander 2 TD4 e, 2009

 

 

 

Land Rover Freelander 2 TD4 e, 2009

The new Land Rover Freelander 2 TD4_e is Land Rover's most fuel-efficient vehicle to date. Featuring a new intelligent Stop/Start system, it is the first production vehicle to incorporate technologies from the company's programme of sustainable engineering initiatives, collectively named 'e_TERRAIN TECHNOLOGIES'.

On the standard EU4 cycle, the CO2 emissions of the Land Rover Freelander 2 TD4_e are reduced by 8 per cent, compared with the outgoing manual diesel Land Rover Freelander 2. Moreover, in additional tests, Land Rover engineers have measured fuel savings approaching 20 per cent in heavy urban traffic.

The 8 per cent improvement equates to a CO2 emissions reduction of 15 g/km compared with the standard Freelander 2 TD4 manual (from 194 g/km to 179 g/km). In terms of fuel efficiency, consumption is reduced from 7.5 l/100 km to 6.8 l/100 km, a saving of 0.7 litres of fuel every 100 km (62 miles).

These gains, coupled with the added benefits of the gearshift indicator light, software developments and efficiencies from low-rolling-resistance tyres, make the Land Rover Freelander 2 TD4_e the most fuel-efficient production Land Rover ever built.

Phil Popham, Land Rover's managing director, said: "The Stop/Start Freelander 2 is the first production vehicle to benefit from the massive £700 million investment in sustainable technologies by Jaguar and Land Rover. From mid-2009, the Stop/Start feature will be included as standard on all Land Rover Freelander 2 TD4 manual models, with no associated increase in list prices."

Land Rover's new Stop/Start system improves fuel efficiency in urban and stop-start driving. The vehicle automatically shuts down the engine in appropriate conditions, resulting in zero tailpipe emissions and saving fuel that would otherwise be used idling the engine when stationary. When the driver is ready to move off, the engine instantly re-starts.

Sophisticated controls ensure that the Stop/Start system does not compromise the needs of either the driver or the vehicle. For the engine to shut down, the vehicle must be stationary, the gearbox in neutral and the clutch pedal raised. To re-start, the driver simply depresses the clutch and the enhanced starter motor engages the engine, ready for when first gear is selected.

The Stop-Start system is automatically activated each time the ignition is turned on, although there is a switch on the fascia to disable the system, if the driver so desires.

Land Rover Discovery 3, 2009

 

 

 

 

Land Rover Discovery 3, 2009

The 2009 Land Rover Discovery 3 made its global debut at the 78e Salon International de l'Automobile, Geneva (March 6-16, 2008). The eye-catching exterior revisions for 2009 add fresh refinement to the acclaimed exterior design - incorporating new front and rear body colour bumpers, body coloured wheel arches and revised exterior detailing.

The pure and clean exterior design has been refined with a re-profiled front bumper, (body coloured on all models), and revised rear bumper and wheel arches, which are body coloured on higher trim levels [SE and HSE -application varies by market]. The distinctive, asymmetric two-piece tailgate now comes with body coloured tailgate lift handle and the attention to detail continues with the revised coloured side vent, door handles on higher trim levels, and clear-lens side repeaters across the range.

A new 19-inch 7-spoke wheel style and three new exterior metallic paint colours - Santorini Black, Galway Green and Bournville [black with a hint of brown] - complete the exterior changes for 2009. Interior upgrades include a new "almond" trim colour and an updated Bluetooth system.

Land Rover LRX Geneva Concept, 2008

 

 

 

Land Rover LRX Geneva Concept, 2008

A striking black and silver version of Land Rover's acclaimed LRX cross-coupe concept makes its global debut at the 78e Salon International de l'Automobile, alongside the original white LRX revealed earlier to widespread acclaim (at NAIAS, Detroit, in January).
No production plans have been confirmed yet for the LRX concept, and both versions will now be used to gauge public, dealer and media response to Land Rover's cross-coupe concept, as well as its interesting new opportunities for vehicle personalisation.

Using lightweight material technologies, Land Rover has developed a series of bespoke features for the black and silver LRX that add to the vehicle's individuality and flexibility. The removable carbon composite roof panel contrasts with the silver-coloured roof, and has integral anchor points for fixing snowboards and other sports equipment. The sleek black roof bars provide another option for roof-top loads, and a compact step above the rear bumper provides for easy roof-top access. More carbon composite is used for the protective underbody plates at front and rear, while new, lightweight alloy wheels with unique-design tyres signal purposefulness. And to protect the vehicle when the going gets tough - in either urban or off-road situations - there are smart, resilient mouldings on bumpers and sills.

BOLD EVOLUTION
The LRX concept marks a bold evolution of Land Rover design, signalling the brand's potential shift into new areas of the market, while remaining true to its core values. As the company celebrates its 60th anniversary during 2008, the three-door LRX, with its more compact size, lighter weight and sustainability-focused technologies, clearly addresses the needs of a changing world and offers the potential of 120 g/km CO2 emissions and fuel economy of 60 mpg (4.7 l/100km) on the European combined cycle.

COMPACT AND PREMIUM
LRX is described as a cross-coupé and dramatically extends the scope of what Land Rover represents. Though 149 mm (5.9 in) shorter than the Freelander 2 / LR2 and 205 mm (8.1 in) lower, LRX is conceived as a premium car, designed to appeal to new customers in the luxury and executive sector - those who want many of the benefits of a 4x4 and the presence of a larger vehicle, but in a more compact package.

The first all-new Land Rover revealed since Gerry McGovern became the company's design director, LRX is a natural extension of the Land Rover range, complementing the existing models and helping to define a new segment. Its many recognisable Land Rover design cues include bold new interpretations of the signature clamshell bonnet, the floating roof and the solid 'wheel-at-each-corner' stance.

Its compact size is one of its greatest assets, which will appeal to anyone who wants the versatile ability of an agile 4x4 with the cachet of the Land Rover name. In addition, its lower weight and the reduced aerodynamic drag resulting from the smaller frontal area would help give significant gains in fuel efficiency and reduced CO2 emissions.

HIGHLY EFFICIENT POWERTRAIN
The white LRX is conceived as a highly fuel-efficient 2.0-litre, turbodiesel hybrid, capable of running on bio-diesel. In combination with other Land Rover technologies, this powertrain could reduce fuel consumption by as much as 30% compared with other 4x4s of comparable size, and reduce CO2 emissions to approximately 120 g/km.

LRX's improved efficiencies are the result of advanced mechanical and electrical energy-saving elements, which are combined to achieve cumulative gains in many areas.

The concept's integrated Electric Rear Axle Drive (ERAD) is particularly significant in Land Rover terms as it would allow LRX to use electric drive alone at lower speeds while retaining full (even improved) 4x4 ability in tough conditions. Unlike the hybrid technology used by some 4x4 rivals, Land Rover's unique solution retains mechanical drive to all four wheels.

Off-road, the ERAD would provide additional torque only when it is needed, and with maximum electrical torque from standstill, this solution offers even better low-speed control and enhanced pull-away on difficult surfaces (such as packed snow or wet grass) or when towing.

On the road, the ERAD would allow low-speed traffic creep up to 20 mph (32 km/h) on electric power alone, with the Integrated Starter-Generator (ISG) function re-starting the engine automatically when needed. The electric drive would then continue to assist the mechanical drive until the engine is running in its most efficient range, benefiting both fuel consumption and CO2 emissions.

The ISG would also stop the engine automatically when the vehicle halts in traffic, so the engine does not idle needlessly, and restart it quickly and smoothly as required.

The electrical drive system uses power stored in a dedicated high-voltage, high-capacity, lithium-ion battery pack, independent of the normal 12-volt battery. This is charged by a regenerative braking energy system, also working through the ERAD.

LRX also incorporates Hill Descent Control and Land Rover's acclaimed and user-friendly Terrain Response system, which optimises vehicle drivability and comfort, as well as maximising traction. On LRX, this has five modes, including the new and efficiency-focused 'Eco' mode. Principally for on-road use, this configures all the integrated elements of the car's system for optimised fuel economy. The other four Terrain Response modes provided are sports (also new), general driving, sand and 'grass/gravel/snow' (a single programme for slippery surfaces).

EXTENDING 'BREADTH OF CAPABILITY'

The positioning of LRX could be described as moving subtly from traditional SUV to crossover, with its more car-like appearance and dynamics that are sportier and on-road biased. But while its character is underlined by excellent agility, handling and performance, LRX also promises the widest breadth of capability in the class.

The design of LRX was developed entirely in-house by Gerry McGovern's team, driven by a passion to create a car that truly represents Land Rover's future thinking. It has a very dynamic profile, with a distinctive taper to the floating roofline and a muscular shoulder running the length of the car, accentuated by the rising beltline. The glazing wraps right around LRX, with no exposed pillars, creating a bold design graphic. The architectural structure of the upper body can be glimpsed through the windows and roof - echoing some of the best contemporary buildings.

Pushing the wheels out to the four corners helps give the car its purposeful stance, and its front-end design makes a powerful and instantly recognisable statement of Land Rover's identity. The carefully sculpted corners dramatically reduce the car's visual overhangs front and rear.

There are new interpretations of Land Rover's traditional clamshell bonnet, distinctive headlamps and perforated two-bar grille. The car has jewel-like, tapering blade indicator clusters front and rear, and the wheelarches are wide but softly integrated, housing highly polished, 20-inch alloy wheels.

The fine detailing includes additional polished aluminium in the form of side-strips, side and bonnet vents, and the exterior door releases, which are concealed in the car's shoulders. Graphic details such as these appear to be 'punched out' of the smooth body surfaces rather than overlaid on them. The 'frosted' white paint colour was especially developed for LRX and its visual depth helps to highlight the car's form.