As the first European car manufacturers smart and Mercedes-Benz are entering the age of electric mobility with vehicles that are fully suitable for everyday use. The new smart fortwo electric drive has taken on a pioneering role among battery-powered electric vehicles. With a range of up to 135 kilometres the two-seater car is the ideal solution for zero-emission motoring in towns and cities. The Mercedes-Benz B-Class F-CELL is the perfect complement. As an electric vehicle with a fuel cell it combines driving without any local emissions with the advantage of a large range of up to 400 kilometres which makes it suitable for longer trips as well. Both vehicles are now being handed over to customers.
Dr. Dieter Zetsche, Daimler CEO and Head of Mercedes-Benz cars says “As a global supplier of premium cars we want to meet the mobility requirements of our customers all over the world. This is why we are broadly positioned and have developed a modular drive mix to suit different requirements. The smart fortwo electric drive and the Mercedes-Benz B-Class F-CELL are already demonstrating the contribution that electric cars can make to sustainable mobility. Experts are unanimous in their belief that the “coexistence” of different drive technologies will shape the face of road traffic for years to come. This is why Daimler’s approach is to develop vehicle concepts with modular drive technologies which ensure that the focus is always on both customer benefits and environmental compatibility. In addition to the optimisation of vehicles with state-of-the-art combustion engines and further efficiency increases with hybridisation tailored to customer needs, the third central focus of development is on fuel cell and battery-powered vehicles that do not produce any local emissions. Dr. Thomas Weber, Daimler AG board member responsible for Group Research and Development at Mercedes-Benz Cars says “Each of these technologies demonstrates its advantages with regard to optimum consumption and emission figures in specific fields of application. We are the only manufacturer worldwide to offer our customers appropriate solutions for all fields of application – from personal mobility to local public transport and goods transport on the roads.”
Electric cars are now being delivered to customers
With the electric cars from smart and Mercedes-Benz that are fully suitable for everyday use, zero-emission driving is already a reality. The new smart fortwo electric drive is a pioneer among battery electric vehicles which are primarily suited to use in urban areas. The second generation is already being built and now boasts a highly efficient lithium-ion battery which enables a range of 135 kilometres and impressive performance. Following the start of series production in Hambach, France in mid November 2009, the first small series of 1000 vehicles will be handed over to customers in Berlin on 17 December.
The two-seater car will initially be delivered to selected customers in six European countries plus the USA and Canada within the framework of a leasing or rental model. Volume production will start in 2012 and the smart fortwo electric drive will then be available to anyone interested.
Thanks to its range of around 400 kilometres, the Mercedes-Benz B-Class F-CELL is suitable for both zero-emission driving in city traffic and also for travelling longer distances. Small series production of this electric car has also started. Next year the first of approximately 200 vehicles will be delivered to customers in Europe and the USA.
Both electric cars are fully suitable for everyday use. All the main components are housed in a space-saving position between the axles where they are optimally protected, and this means that the interior space is not compromised in the electric versions of the standard cars. Furthermore, the smart – the ultimate city car – has an extremely comfortable range for city driving and it can be charged at any household socket. The B-Class F-CELL offers a large range and is suitable for travelling longer distances as well. As its hydrogen tanks can be fully refuelled in around three minutes it is also the electric car with the shortest charging time.
Infrastructure is essential
An appropriate refuelling and electricity charging infrastructure is essential for wide customer acceptance and quick widespread use of electric vehicles. This is why Daimler is committed to setting up a comprehensive network of electricity charging stations and hydrogen filling stations. In September 2009 together with the Federal Ministry of Transport and partners from the energy sector the company presented a plan for establishing a hydrogen infrastructure in Germany. At the same time Daimler reached an agreement with other leading car manufacturers to bring several hundred thousand fuel cell cars to the roads from 2015.
Parallel to this, together with various partners in Europe the Stuttgart car manufacturer is advancing the expansion of a public electricity charging infrastructure. This is because although electric vehicles like the smart fortwo electric drive can easily be charged at a domestic garage socket, around 40 percent of European vehicle owners do not have a parking space of their own. Publicly accessible charging stations are therefore needed. To enable this to be realised Europe-wide as far as possible with standardised framework conditions, Daimler is developing corresponding standards together with other car manufacturers and utility companies.
Electric mobility – an affordable alternative?
New technologies generally entail high investments and costs. This means that at the current stage of development electric cars are still more expensive than comparable models with combustion engines. Daimler is applying all available levers to reduce the costs to a level that is economically acceptable and attractive to customers. For example, by industrialising lithium-ion technology with the company Deutsche Accumotive GmbH and the economies of scale resulting from this. Furthermore, in product development Daimler is systematically using a modular E-drive system. This enables synergies to be ideally used between the different vehicle segments.
There are also numerous other factors that make electric mobility attractive for customers. Tax relief and other government subsidies are an important aspect. For example, the state of Monaco offers tax relief of up to €9,000 to electric car owners. Other countries have also set up funding programmes for sustainable mobility. France offers a “super environment incentive” of €5000 for vehicles that emit less than 60 grams of CO2 per kilometre. China and Japan have announced subsidies of €6,500 and €11,000 respectively.
Customers benefit from lower running costs
In addition, owners of electric cars can benefit from lower running costs. For example, in Germany the electricity costs for a distance of 100 kilometres currently stand at between two and three euros. And many experts believe that in the long-term the costs for hydrogen will level out at a price that makes it an inexpensive alternative to fossil fuels.
However, the question of the future taxation of new fuels has not yet been clarified. Dr. Thomas Weber says “It would make sense to find a solution that supports the introduction of new drives during the transitional period – for example with temporary tax exemption for electricity and hydrogen, just as various countries offer tax relief today for natural gas used to power vehicles.”
For example, electric cars like the smart fortwo electric drive are exempted from the city congestion charge in London, enabling their owners to save considerable sums of money.
Dr. Joachim Schmidt, Head of Sales and Marketing at Mercedes-Benz Cars says “All things considered we see good prospects for electric mobility with fuel cells and batteries. Whilst other companies are still presenting electric show cars, we at smart and Mercedes-Benz are already bringing two vehicles that are fully suitable for everyday use to the roads.”
Mercedes-Benz is launching its first series-produced fuel cell car on the road: the new B‑Class F-CELL. The environmentally friendly electric car has better a performance similar to than a 2,0-litre petrol car and is fully suited for everyday driving. The zero-emission drive system consumes the equivalent of 3.3 litres of diesel per 100 kilometres in the NEDC (New European Driving Cycle). Production of the B‑Class F-CELL will commence in late 2009 with a small lot. The first of around 200 vehicles will be delivered to customers in Europe and the USA at the beginning of next year.
The new fuel cell vehicle offers everything that people expect from a Mercedes-Benz: High comfort and safety as well as no reduction in interior space and boot capacity. Customers will not have to sacrifice any driving pleasure either, because the electric motor has a peak performance of 100 kW/136 hp and a maximum torque of 290 Nm, which is available from the first rotation. It ensures that the B‑Class F-CELL, whose impressive dynamic handling properties are in some cases far better than those of a two-litre petrol car, gets off to an excellent start. Despite these qualities, the zero-emission fuel cell drive consumes the equivalent of only 3.3 litres of diesel fuel per 100 kilometres (NEDC). Thanks to its great range of about 400 kilometres and short refuelling times of around three minutes, the B‑Class F-CELL ensures local zero-emission mobility even for long stretches.
“2009 is the year in which we are establishing further milestones where sustainable mobility is concerned. The B-Class F-CELL is taking on a pioneering role as the world’s first fuel cell powered automobile to be produced under series production conditions”, says Dr. Thomas Weber, Member of the Board of Management of Daimler AG, responsible for Group Research and Development for Mercedes-Benz Cars.
The vehicle’s technological heart is the new generation of the compact, high-performance fuel cell system, in which gaseous hydrogen reacts with atmospheric oxygen at 700 bar to generate a current for the electric motor. The fuel cell system of the B‑Class F-CELL has a very good cold-start capability even at temperatures as low as minus 25 degrees Celsius. The drive system was completely newly developed versus the F-CELL A-Class presented in 2004, with Mercedes-Benz engineers achieving considerable improvements in output, torque, operating range, reliability, starting characteristics and comfort. The B-Class F-CELL now offers driving pleasure and day-to-day suitability at Mercedes level – without local emissions.
As in hybrids with combustion engines, the fuel-cell car uses a lithium-ion battery with an output of 35 kW and a capacity of 1.4 kWh to boost power and recover braking energy. Lithium-ion technology offers several advantages over conventional batteries, including compact dimensions, high performance, great recharge efficiency and a long service life.
The B‑Class F-CELL employs the unique sandwich floor architecture that is well-known from the A- and B-Class. The advantage of this design is that the drive components are located in the sandwich floor, where they are protected and don’t take up much space so that the vehicle’s interior remains fully usable and a boot capacity of 416 litres is available.
The B-Class F-CELL does not need to fear comparison where equipment is concerned either. Eye-catching features include a bonamite silver paint finish and exclusive light-alloy wheels in a 10-spoke design. In the interior, leather upholstery, seat heating, automatic climate control and the COMAND-system, as well as other features, continue to ensure a high level of comfort.
Same level of safety as in other Mercedes cars
No matter what the conditions, the operational reliability of the B‑Class F-CELL is of the same high level as in Mercedes vehicles with conventional combustion engines. The B‑Class F-CELL’s integrated safety concept takes the specific characteristics of the innovative drive system into account. The concept incorporates the expertise from the many years of experience Mercedes-Benz has had with fuel cell drives and high-voltage applications. Mercedes engineers have tested and optimised the drive-specific components’ safety in more than 30 additional crash tests.
Network of filling stations required for car’s widespread use
With more than 100 test vehicles and a combined total of over 4.5 million kilometres of trial testing, Daimler and Mercedes-Benz have the most extensive experience with fuel cell vehicles of any manufacturer worldwide. The B‑Class F-CELL is further testimony of this technology’s high level of development for automotive use. However, a comprehensive network of hydrogen filling stations still has to be set up before locally zero-emission driving can become a widespread reality. To make this possible, Daimler is cooperating with government authorities, energy utilities and oil companies in joint projects in places such as Hamburg, Stuttgart and California.
Mercedes-Benz views the development of electric cars with battery and fuel cell drives for local zero-emission driving as a means of supplementing vehicles with high-tech internal combustion engines. Advanced diesel and petrol engines will remain important for automotive applications for a long time to come – not only for individual mobility in passenger cars – especially over long distances – but, more importantly, for freight transport in trucks. Electric vehicles, on the other hand, will increasingly be used in urban transport.
Mercedes-Benz is launching its first series-produced fuel cell car on the road: the new B‑Class F-CELL. The environmentally friendly electric car has better a performance similar to than a 2,0-litre petrol car and is fully suited for everyday driving. The zero-emission drive system consumes the equivalent of 3.3 litres of diesel per 100 kilometres in the NEDC (New European Driving Cycle). Production of the B‑Class F-CELL will commence in late 2009 with a small lot. The first of around 200 vehicles will be delivered to customers in Europe and the USA at the beginning of next year.
The new fuel cell vehicle offers everything that people expect from a Mercedes-Benz: High comfort and safety as well as no reduction in interior space and boot capacity. Customers will not have to sacrifice any driving pleasure either, because the electric motor has a peak performance of 100 kW/136 hp and a maximum torque of 290 Nm, which is available from the first rotation. It ensures that the B‑Class F-CELL, whose impressive dynamic handling properties are in some cases far better than those of a two-litre petrol car, gets off to an excellent start. Despite these qualities, the zero-emission fuel cell drive consumes the equivalent of only 3.3 litres of diesel fuel per 100 kilometres (NEDC). Thanks to its great range of about 400 kilometres and short refuelling times of around three minutes, the B‑Class F-CELL ensures local zero-emission mobility even for long stretches.
“2009 is the year in which we are establishing further milestones where sustainable mobility is concerned. The B-Class F-CELL is taking on a pioneering role as the world’s first fuel cell powered automobile to be produced under series production conditions”, says Dr. Thomas Weber, Member of the Board of Management of Daimler AG, responsible for Group Research and Development for Mercedes-Benz Cars.
The vehicle’s technological heart is the new generation of the compact, high-performance fuel cell system, in which gaseous hydrogen reacts with atmospheric oxygen at 700 bar to generate a current for the electric motor. The fuel cell system of the B‑Class F-CELL has a very good cold-start capability even at temperatures as low as minus 25 degrees Celsius. The drive system was completely newly developed versus the F-CELL A-Class presented in 2004, with Mercedes-Benz engineers achieving considerable improvements in output, torque, operating range, reliability, starting characteristics and comfort. The B-Class F-CELL now offers driving pleasure and day-to-day suitability at Mercedes level – without local emissions.
As in hybrids with combustion engines, the fuel-cell car uses a lithium-ion battery with an output of 35 kW and a capacity of 1.4 kWh to boost power and recover braking energy. Lithium-ion technology offers several advantages over conventional batteries, including compact dimensions, high performance, great recharge efficiency and a long service life.
The B‑Class F-CELL employs the unique sandwich floor architecture that is well-known from the A- and B-Class. The advantage of this design is that the drive components are located in the sandwich floor, where they are protected and don’t take up much space so that the vehicle’s interior remains fully usable and a boot capacity of 416 litres is available.
The B-Class F-CELL does not need to fear comparison where equipment is concerned either. Eye-catching features include a bonamite silver paint finish and exclusive light-alloy wheels in a 10-spoke design. In the interior, leather upholstery, seat heating, automatic climate control and the COMAND-system, as well as other features, continue to ensure a high level of comfort.
Same level of safety as in other Mercedes cars
No matter what the conditions, the operational reliability of the B‑Class F-CELL is of the same high level as in Mercedes vehicles with conventional combustion engines. The B‑Class F-CELL’s integrated safety concept takes the specific characteristics of the innovative drive system into account. The concept incorporates the expertise from the many years of experience Mercedes-Benz has had with fuel cell drives and high-voltage applications. Mercedes engineers have tested and optimised the drive-specific components’ safety in more than 30 additional crash tests.
Network of filling stations required for car’s widespread use
With more than 100 test vehicles and a combined total of over 4.5 million kilometres of trial testing, Daimler and Mercedes-Benz have the most extensive experience with fuel cell vehicles of any manufacturer worldwide. The B‑Class F-CELL is further testimony of this technology’s high level of development for automotive use. However, a comprehensive network of hydrogen filling stations still has to be set up before locally zero-emission driving can become a widespread reality. To make this possible, Daimler is cooperating with government authorities, energy utilities and oil companies in joint projects in places such as Hamburg, Stuttgart and California.
Mercedes-Benz views the development of electric cars with battery and fuel cell drives for local zero-emission driving as a means of supplementing vehicles with high-tech internal combustion engines. Advanced diesel and petrol engines will remain important for automotive applications for a long time to come – not only for individual mobility in passenger cars – especially over long distances – but, more importantly, for freight transport in trucks. Electric vehicles, on the other hand, will increasingly be used in urban transport.
As you may remember, about a month ago we brought you the details of a special concept vehicle known simply as the F-Cell Roadster. Inspired by the legendary Benz patent motor car and featuring design traits of modern F1 race cars, the F-Cell’s 1.2 kW hybrid drive allows the model to reach a top speed of 15 mph and achieve an operating range of 217 miles.
Over the weekend, the F-Cell Roadster took to the road, completing a portion of the historic route once traveled by Bertha Benz – a journey that has since been recognized as the first long distance journey in an automobile. Specifically, the F-Cell Roadster started in Manheim, where it was then driven via Ladenburg and Heidelberg before passing its symbolic finish line at the chemist’s shop in Wiesloch – the location where Bertha Benz stopped to refuel in 1888.
Commenting on the F-Cell Roadster’s journey, Dr. Thomas Weber, the member of the Daimler AG Executive Board responsible for corporate research and development at Mercedes-Benz Cars, notes: “This trip by the F-CELL Roadster is symbolic of the current change taking place in automobile engineering. At that time Bertha Benz was not yet able to purchase the petrol she needed at a filling station, and for emission-free mobility we are also dependent on the widespread distribution of fuels for the future – electric power and hydrogen. But just as Bertha Benz refused to be discouraged by inconveniences in her day, we are just as determined to help ensure that these technologies achieve their breakthrough.”
To see photos from the Mercedes F-Cell’s trip, keep scrolling for the full photo gallery highlighting the event (click any picture to enlarge). You can also read more about the F-Cell Roadster as well as Bertha Benz’ historic route in the official press release, also included below.