2011 Volkswagen Sport Cars Concept By Kyrgyzstanian

2011 Volkswagen Sport Cars Concept By Kyrgyzstanian

Steel Drake Volkswagen Sport Cars Concept is a simple but elegant design. Here are the latest production cars, the 2011 Volkswagen Sport Cars Concept By Kyrgyzstanian, Volkswagen Drake is the type of steel. Kyrgyzstanian graphic designer “Steel Drake” has created something very much fitting with this scenario in the form of his Volkswagen Sport Cars Concept.

2011 Volkswagen Sport Cars Concept By Kyrgyzstanian

It resembles a reduced front Motors Audi R8. Then, at halfway of the project, Audi he cans and presents his sketches and model prototyping of Volkswagen decided to put the two doors cut in production. Steel Drake’s Concept Sports Cars is a simple-yet-sleek design let down only by some questionable design choices.

2011 Volkswagen Sport Cars Concept By Kyrgyzstanian

Get for instance the drooping taillights that seem additional befitting a Chinese automobile than 1 built in Germany, or the peculiar concave curves around the doorways that seems caught on as opposed to an integral part of the style. Otherwise it is rather fantastic seeking, although maybe far more something Infiniti would produce than Volkswagen.

2011 Volkswagen Sport Cars Concept By Kyrgyzstanian

2011 Volkswagen Sports Cars XL1 (SEV) Roadster Diesel-Electric Hybrid Concept

2011 Volkswagen Sports Cars XL1 (SEV) Roadster Diesel-Electric Hybrid Concept

The latest Volkswagen will unveil the 3rd and latest iteration by its roadster diesel-electric hybrid concept serial, the fresh XL1 Super effective Vehicle (SEV) at these week’s Qatar Motor demo, which runs by January 26 to 29. The latest 2011 Volkswagen XL1 Hybrid Concept are motivated by a diminished 800 cc TDI two-cylinder basic rail diesel engine breaking 48 HP.

Vision becomes reality – Volkswagen’s “Formula XL1”:  Volkswagen XL1 prototype consumes just 0.9 l/100 km! Wolfsburg / Doha, 25 January 2011 - Future mobility is one of the most stimulating topics of our time. The key question here: Just how much could the energy consumption of cars be reduced if all the stops were pulled out for efficiency? There is now an answer to this question, and Volkswagen is delivering it in the form of the new XL1. Combined fuel consumption: 0.9 l/100 km. No other hybrid car powered by an electric motor / internal combustion engine combination is more fuel efficient.

2011 Volkswagen Sports Cars XL1 (SEV) Roadster Diesel-Electric Hybrid Concept

Volkswagen will build small run of XL1 plug-in hybrid in two years. “We want to go into series production with this car starting in 2013,” Volkswagen chairman Ferdinand Piech told Automotive News Europe on Tuesday at an event in Doha, Qatar, ahead of the 2011 Qatar auto show where Volkswagen unveiled an XL1 prototype. Pioneering construction techniques, an advanced plug-in hybrid drivetrain and innovative packaging all play a part in allowing the new Volkswagen XL1 Super Efficient Vehicle (SEV) to return 260 mpg on the combined cycle to set a new benchmark for vehicle efficiency.

The most efficient car in the world. The new 2011 Volkswagen Sports Cars XL1 (SEV) Roadster Diesel-Electric Hybrid Concept shows the way forward for extreme economy vehicles and clean technologies. It also demonstrates that such cars can also be fun.  The feeling when driving the XL1 is truly dynamic - not based on pure power, rather on its pure efficiency. Two examples: 1) To travel at a constant speed of 100 km/h, the prototype only needs 6.2 kW/8.4 PS – a fraction of the performance of today’s cars (Golf 1.6 TDI with 77 kW and 7-speed DSG: 13.2 kW/17.9 PS). 2) In electric mode, the XL1 needs less than 0.1 kWh (82 Wh/km) to complete a one kilometre driving course. These are record values.

Powering the 2011 Volkswagen Sports Cars XL1 (SEV) Roadster Diesel-Electric Hybrid Concept is a compact 800 cc TDI two-cylinder common rail diesel engine developing 47 hp. It's linked to an electric motor producing 27 hp, resulting in a total of 74 hp - a modest output yet more than enough when the low kerb weight of 1753 lbs (795 kg) of the vehicle is taken into account. Two-cylinder TDI uses mass production technology: The 0.8 litre TDI (35 kW/48 PS) was derived from the 1.6 litre TDI, which drives such cars as the Golf and Passat. The 0.8 TDI exhibits the same data as the 1.6-litre TDI common rail engine in terms of cylinder spacing (88 mm), cylinder bore (79.5 mm) and stroke (80.5 mm).

2011 Volkswagen Sports Cars XL1 (SEV) Roadster Diesel-Electric Hybrid Concept

In addition, the Volkswagen XL1 Concept's two-cylinder and the mass produced four cylinder share key internal engine features for reducing emissions. They include special piston recesses for multiple injection and individual orientation of the individual injection jets. The excellent, smooth running properties of the common rail engines were transferred to the two cylinder engine. within addition, a balancer shaft that is driven by the crankshaft turning at the same speed optimises smooth engine running.

When the full power of the hybrid system is engaged, the Volkswagen prototype accelerates from 0 to 100 km/h in just 11.9 seconds; its top speed is 160 km/h (electronically limited). Yet these numbers alone do not tell the whole story: Since the XL1 weighs just 795 kg, the drive system has an easy job of propelling the car. When full power is needed, the electric motor, which can deliver 100 Newton metres of torque from a standstill, works as a booster to support the TDI engine (120 Newton metres torque). Together, the TDI and E-motor deliver a maximum torque of 140 Newton metres in boosting mode.

2011 Volkswagen Sports Cars XL1 (SEV) Roadster Diesel-Electric Hybrid Concept

Carbon fibre reinforced polymer (CFRP) the ideal material for the body of the new 2011 Volkswagen Sports Cars XL1 (SEV) Roadster Diesel-Electric Hybrid Concept because of its light weight. The 2011 Volkswagen Sports Cars XL1 (SEV) Roadster Diesel-Electric Hybrid Conceptweighs only 795 kg. Of this figure, 227 kg represents the entire drive unit, 153 kg the running gear, 80 kg the equipment (including the two bucket seats) and 105 kg the electrical system.

That leaves 230 kg, which is precisely the weight of the body - produced largely of CFRP - including wing doors, front windscreen in thin-glass technology as in motorsport and the highly safe monocoque. A total of 21.3 percent of the new Volkswagen XL1, or 169 kg, consists of CFRP. In addition, Volkswagen uses lightweight metals for 22.5 percent of all parts (179 kg). Only 23.2 percent (184 kg) of the new XL1 is constructed from steel and iron materials. The rest of its weight is distributed among various other polymers (e.g. polycarbonate side windows), metals, natural fibres, process materials and electronics.

2011 Volkswagen Sports Cars XL1 (SEV) Roadster Diesel-Electric Hybrid Concept

Design for a new era: The VW XL1 is 3,888 mm long, 1,665 mm wide and just 1,156 mm tall. These are extreme dimensions. The Polo has a similar length (3,970 mm) and width (1,682 m), but it is significantly taller (1,462 mm). The height of the new 2011 Volkswagen Sports Cars XL1 (SEV) Roadster Diesel-Electric Hybrid Concept is about the same as that of a Lamborghini Gallardo Spyder (1,184 mm). So, it is easy to visualise just how spectacular such a Volkswagen would appear on the road – as long and wide as a Polo, but with a low profile like a Lamborghini.

The styling of the 2011 Volkswagen Sports Cars XL1 (SEV) Roadster Diesel-Electric Hybrid Concept is borne out of functional requirements - easy access to the interior is granted via a pair of elegant scissor doors that hinge on the A-pillar while the profile of the car has been honed in the wind tunnel, the result being a remarkable coefficient of drag figure of 0.186. The XL1's overall length and width are similar to those of a Volkswagen Polo yet its height is more akin to that of a Lamborghini Gallardo Spyder.

Although the 2011 Volkswagen Sports Cars XL1 (SEV) Roadster Diesel-Electric Hybrid is still very much a concept, its unveiling marks the next step towards the birth of a new class of Super Efficient Vehicles, while the advent of a process such as RTM is a significant milestone.

Volkswagen London Taxi 2010 Concept

Volkswagen continues to heat up interest in public administrations and the largest cities in taxis based on the concept of Space Up! Blue – recently submitted a prototype designed to London. Previously, the Germans were already showing Berlin Taxi, and Milano Taxi.

Specifications and appearance of the prototype are completely identical to two previously submitted a taxi – the only difference is color. Recall, mass production line of electric Up! should start in 2013.

Volkswagen London Taxi Front

Volkswagen London Taxi Body Design

Volkswagen London Taxi e-Motion

2010 VolksWagen Cars Beetle Bio-Bug Powered by Sewage Waste

Mohammed Saddiq, general manager of GENeco, has another idea, which would take something that's normally thought of as waste, and turn it into a way to power a vehicle. The prototype  2010 VolksWagen Cars Beetle Bio-Bug is powered by methane gas which is produced from human waste at sewage works. Another environmentally friendly car has been shown to the world today by Wessex Water in England.

2010 VolksWagen Cars Beetle Bio-Bug Powered by Sewage Waste. The Bio-Bug is a project from Wessex Water, a sewage treatment company in England. Now there’s Bio-Bug, a VW Beetle that runs on the methane gas generated at a sewage treatment plant, reports The Telegraph. Wessex Water, near Bristol, England, says that human waste from the toilets of 70 homes can power the Bio-Bug for a year.

2010 VolksWagen Cars Beetle Bio-Bug Powered by Sewage Waste

GENeco believes that more gas will be produced at its Avonmouth site when the company embarks on its latest green venture to recycle food waste. Mr Saddiq said: “Waste flushed down the toilets in homes in the city provides power for the Bio-Bug, but it won’t be long before further energy is produced when food waste is recycled at our sewage works.

At first glance, the Beetle appears to be a publicity stunt for GENeco, which owns a number of waste treatment sites in the U.K. But consider this: A single sewage treatment plant in Bristol, England generates 18 million cubic meters of biogas each year. The Bio-Bug squeezes out 5.3 miles per cubic meter of biogas. So just one sewage treatment plant could keep cars running for 5,400,000 miles each year, according to the British Daily Mail.

The Volkswagen Beetle dubbed the “Bio-Bug” was built for GENeco by UK’s The Greenfuel Company. The Bio-Bug’s 2.0-liter four-cylinder engine was converted to run on biogas and still hit about 114 miles per hour. However, the Bio-Bug uses regular unleaded gas to start, then switches over to methane automatically once it’s running. GENeco, a company owned by Wessex Water, supplied the equipment to treat the gas. “If you were to drive the car you wouldn’t know it was powered by biogas, as it performs just like any conventional car,” said Mohammed Saddiq, general manager of GENeco, in the release.

Mr. Saddiq explained that GENeco had been supplying treated compressed methane gas to generate electricity for the plant site and exported to the National Grid. The fuel for the Bio-Bug was surplus gas “we had available” and “we wanted to put it to good use in a sustainable and efficient way.”

The Bio-Bug was built by the Greenfuel Company, which specializes in converting gas cars to run on liquified petroleum gas.

2010 VolksWagen Cars Beetle Bio-Bug Powered by Sewage Waste

“The choice of car was inspired by students who took part in a workshop. They thought it would be appropriate that the poo-powered car should be the classic VW Beetle Bug because bugs naturally breakdown waste at sewage works to start the treatment process which goes on to produce the energy.”

Brilliant! Now, that’s a great marketing hook.

2010 Volkswagen Sports Cars - VW Solar Powered Supercar Concept

It is a luxury supercar, it will only be built in a limited number of 200 units. It was designed to be able to cruise around in the year 2020. Volkswagen supercar presented at the 2010 Swansea Metropolitan University Degree Show in automotive design by Peter Wilkins not only promises to run by solar power with greater efficiency but also offers a competitive design styling.

2010 Volkswagen Sports Cars - VW Solar Powered Supercar Concept

Peter Wilkins has designed one helluva eco-friendly car for the 2010 Swansea Metropolitan University Degree Show. His supercar would run off of an electric motor powered by photovoltaic cells, or a hydrogen fuel cell stack. Peter Wilkins’ design is one of the sexiest eco-cars I have ever seen. Making earth-friendly cars that look good is a great idea.

The unique design of Wilkins permits each of the four wheels of the vehicle to be driven by an independent electric motor powered by solar energy stored in photovoltaic (PV) cells. The upper external surface of the vehicle stores the PV cells that further supply power to the mid-mounted hydrogen fuel-cell stack, which is directly linked to the electric motors. Placement of the PV cells and hydrogen fuel-cell stack form an integral part of the elegant design of the eco car that looks like part of a supercar.

The “VW Solar Powered Supercar” by designer Peter Wilkins is a concept car that demonstrates the aesthetic aspect of eco-friendly vehicles to attract more people toward sustainable commuting.

Simply known as the “VW Solar Powered Supercar”, this vehicle shows how just clean and green travel can get, and fast too. To power up, the car turns its face away from the smelly gas pump and integrates photovoltaic cells in its body instead. It uses these to juice up with solar power.

 2010 Volkswagen Sports Cars - VW Solar Powered Supercar Concept

The energy generated is used to power up a mid-mounted hydrogen fuel cell stack, resulting in a drive without the smoke and the pitch-black carbon footprint supercars usually leave behind these days.

2011 Volkswagen Beetle Ragster Concept Car Second Generation

Volkswagen to Launch the 2011 Beetle Based on the Beetle Ragster Concept car. Continued development of second generation of the Volkswagen Beetle that will be presented this year in November, as a concept car at the Salon in Los Angeles. Volkswagen is working on the second-generation of the new Beetle. The new car is expected to make a debut in concept form at the 2010 LA Motor Show later this year and will go on sale in 2011. A second generation Volkswagen Beetle will be launched next year, which would have more focus on driving dynamics rather than retro styling. The production version will debut at the Geneva Motor Show in 2011, and the year after arriving variant Cabriolet.
The Beetle will continue to be assembled in the plant in Puebla, Mexico, where it will be produced also the new Jetta. The two cars will share the new platform, characterized by a large step that will provide more cabin space for Beetle.

2011 Volkswagen Beetle Ragster Concept Car Second Generation

The second generation Volkswagen Beetle is a 2.0-liter engine producing 210 bhp (213 PS, 157 kW) could be seen on the car, more powerful than any engine currently sold on the vehicle. Also expected are 1.4-liter 160 bhp (162 PS, 119 kW) and 1.2-liter 105 bhp (106 PS, 78 kW) petrol engines. Diesel offerings could include 2.0-liter 140 bhp (142 PS, 104 kW) and 1.6-liter 105 bhp (106 PS, 78 kW) units. Customers in the US might get the chance to purchase the car with a five-cylinder 2.5-liter model cranking out 170 bhp (172 PS, 127 kW).
It is also said that the new car will have a heavily revamped interior. Engines will include the already existing 2.5-liter five-cylinder, a new 2.0-liter turbodiesel and a brand new hybrid version, powered by a 1.4-liter gasoline engine and a 27-horsepower electric motor. The engines will be mated with five and six speed manual transmissions and the new Volkswagen DSG dual-clutch gearbox.

2010 Volkswagen Cars Up! Lite Diesel Electric Hybrid Concept Car

The Up Lite concept car is the harbinger of Volkswagen's new small car platform that should bear fruit in the form of a production Up Lite as early as the second half of 2011. The Up! Lite concept car ontinues the Volkswagen strategy of offering high-tech and high-end quality in all of its vehicle classes, making progress affordable for every car driver. The Up! Lite was designed to be a versatile vehicle that makes trips into the city, commutes to work and naturally long trips as well significantly less expensive and more eco-friendly.

The new concept car, based on Volkswagen’s New Small Family (the Up! models), incorporates a variation on the two-cylinder TDI hybrid powertrain from the L1 concept car unveiled earlier this year at the Frankfurt Motor Show. This small turbo-diesel hybrid possesses a small physical footprint--being much smaller than the VW Golf--and a super small carbon footprint, reaching an astronomical 70 US mpg fuel economy on the EU testing cycle. Volkswagen staged  the world premiere of the Up! Lite concept car at the LA Auto Show.

Naturally, on the Up! Lite there is nothing lacking in comfort or safety. ESP is on board, airbags are on board, ample space is on board, highly advanced information and control features are on board, and it is good to know that occupants are enclosed and protected by a highly innovative safety frame of aluminium, steel and carbon fiber.

The Volkswagen concept car has a top speed of 160 km/h (100 mph) and accelerates to 100 km/h in a respectable 12.5 seconds (0-60 mph in 12 seconds). The Volkswagen Up! Light with its extremely efficient engine might be the perfect example to exemplify this. Ultra light (less than 700 kilograms / around 1,500 pounds) it achieves a mileage of 2.44 liters for a 100 km (70 MPG).

The centerpiece of the Up! Lite powertrain is the newly designed 0.8 TDI two-cylinder turbo-diesel engine with a power of 38 kW / 51 PS. Furthermore, the electric motor (10 kW) – designed as a pulse start module (starter, alternator and E-drive) – also reduces the load of the TDI, provides added propulsion (boosting) and works to recover kinetic energy (regenerative braking). During boost phases – e.g. in a quick passing maneuver – the TDI and E-motor combine for a total power of 48 kW / 65 PS. Incidentally, a version of the TDI used in the Up! Lite was also used aboard the L1 concept car that Volkswagen presented in September at the IAA Motor Show in Frankfurt.

2010 Volkswagen Cars Up! Lite Diesel Electric Hybrid Concept Car

In two of its operating phases, the hybrid drive of the Up! Lite was designed to operate without any TDI propulsion at all. First phase: In so-called coast-down, activated by the driver taking his or her foot off the gas pedal (car coasts, TDI engine is shut off). Second phase: Over shorter distances, e.g. in residential areas, the E-motor can power the Up! Lite all by itself. In this case, a lithium-ion battery supplies the energy. Since it is capable of pure electric driving, the configuration is classified as a full hybrid. Shifting work is handled by a 7-speed Direct Shift Gearbox (DSG) like the one used in the new Polo. Moreover, the Volkswagen is equipped with a Stop-Start system.

2010 Volkswagen Kai-Nalu Concept Design Study - Volkswagen Sport Car

Josep Ferriol is a graduate of Universidad Politécnica de Valencia in Spain, and a designer. Josep Ferriol created this concept car design study called the Volkswagen Kai-Nalu, a wild child with extremely exotic looks, as part of his thesis.

2010Volkswagen Kai-Nalu

The Volkswagen Kai-Nalu is a concept sports car designed by Spanish designer Josep Ferriol. The vehicle is futuristic sports car and is inspired by the waves of the Mediterranean Sea as they smash into the shoreline. The Kai-Nalu also includes a flowing glass upper section, which has been designed to mimic the sea.

 

The Volkswagen Concept Josep Ferriol includes the clear roof, highly stylised wheels and an electric drivetrain with two separate motors and design of Kai-Nalu is somewhat controversial and certainly no please everyone. But in a world where there are many supercars that follow the same formula and same style, the Volkswagen Kai-Nalu is refreshing and different.

 

Ferriol is quite aware of how bold and probably controversial the Kai-Nalu would be, given the tendency for certain modern cars to follow similar design patterns.

 

Designed to be powered by a zero-emission electric engine, the vehicle features highly stylized wheels which have been inspired by the appearance of bicycle wheels.

Volkswagen L1 Concept Redefines Classic and Aesthetic vehicle traits.

Volkswagen L1 Concept

In the world today the Volkswagen L1 Concept is unique. Thanks to a carbon fibre reinforced plastic (CFRP) body, it weighs just 380 kilograms. The two-seater is powered by a new common rail turbo-diesel (two-cylinder TDI) and an electric motor. With its average fuel consumption of 1.49 litres diesel per 100 kilometres, this fully road-ready and extremely aerodynamic L1 (Cd 0.195!) is advancing to become the most fuel-efficient hybrid automobile in the world. CO2 emissions of the 160 km/h fast concept car are just 39 g/km. If the Volkswagen L1 were to also go into production in 2013, it would debut an entirely new lightweight car concept and introduce a new era in automotive production.
The TDI, E-motor and 7-speed DSG are located at the rear, and they combine to create the most fuel efficient road-legal car hybrid drive in the world. Proof of this are its 1.38 litre per 100 kilometres fuel consumption and 36 g/km CO2 emissions.Naturally, the Volkswagen L1 also has a Stop-Start system that automatically shuts down the engine when vehicle has stopped and restarts when the accelerator or E-pedal is pressed.
The TDI engine in the Volkswagen L1 Concept is a new development. Yet, even here Volkswagen has been able to exploit synergies to design an engine that is both innovative and cost-effective.
Gear shifting work aboard the Volkswagen L1 is handled by the 7-speed DSG, which is one of the most innovative automatic transmissions in production.
The Volkswagen L1, equipped with ABS and ESP, has a top speed of up to 160 km/h - this is remarkable considering its fuel efficiency. With maximum acceleration from a standstill, the two-seater reaches 100 km/h after just 14.3 seconds. The fuel tank holds just ten litres yet, this is sufficient for a theoretical driving range of about 670 kilometres, given the car's 1.38 litre average fuel consumption.

Volkswagen L1 Concept

Talking about car driving as 'piloting' might sound out of place, but in the case of the Volkswagen L1 it is wholly appropriate. The driver (in the CFRP tube frame seat) and passenger (in the fixed CFRP seat that is part of the monocoque) sit one behind the other.
To start the Volkswagen L1, the driver pushes a button on the right side of the steering wheel. When it is rotated, the round start button simultaneously serves as a gear selector switch and is used to activate the electronic handbrake (Drive, Neutral, Reverse and Park). The entry canopy and rear hatch are opened electrically by touch controls to the left and right of the driver. Also designed as touch sensors are controls for the entire air conditioning control system. Via multifunctional keys in the steering wheel, the driver controls the on-board computer, navigation and entertainment systems.
The classic door mirror and rear-view mirror have been completely eliminated on the Volkswagen L1. In their place, cameras display images on OLED-active (OLED = organic light emitting diode) displays located on the left and right sides of the instrument panel. A Park Distance Control (PDC) system makes parking easier as well.
Both technically and visually, the CFRP body is already a significant achievement in car design. Unique on this car: the proportions of its dimensions. While the length of the Volkswagen L1 at 3,813 millimetres is still similar to that of a Volkswagen Fox, and its height of 1,143 millimetres nearly matches that of a Lamborghini Murciélago, the car's aerodynamically optimised width (1,200 millimetres) has no comparisons in the world of today's production cars.
The two-seat monocoque, including the tubular frame driver's seat and passenger seat as well as the exterior body skin, all consist of CFRP. There are no doors. Instead, the driver and passenger climb into the Volkswagen L1 from the top.
The reason that CFRP is the ideal material for the Volkswagen L1 body is demonstrated by considering its weight and strength.
And there are other advantages: the material's extremely high stress limits and its ideal forming properties for even the most challenging of design features.
The design and styling of the Volkswagen L1 Concept - function and form - combine to form one uncompromising unit. Walter de Silva, Head of Design for the Volkswagen Group has this to say: "The design of the Volkswagen L1 redefines classic and aesthetic vehicle traits. Especially significant, of course, is how the nearly rocket-shaped lines catch one's attention. All of its moving parts are integrated so accurately that the body resembles a rocket or jet. It is a body that cuts through the air with minimal aerodynamic resistance."