Fuel cells, C[O.sub.2] & composite supercars: the scene in Stuttgart: German automakers probably debut more cutting edge technology than any of their competitors and the legendary region of Stuttgart, home to both DaimlerChrysler and Porshce, is at the center of much of what is new.If you remove Detroit from the ranking, in the world of distributed automotive centers, Stuttgart is preeminent. Home to DaimlerChrysler, Porsche and mega-supplier Bosch, Stuttgart is a place where many automotive suppliers, ranging from software developers to plastic injection molders, feel they must have a presence in order to stay on the cutting edge. And unlike many areas where the importance of the automotive industry The automotive industry is the industry involved in the design, development, manufacture, marketing, and sale of motor vehicles. In 2006, more than 69 million motor vehicles, including cars and commercial vehicles were produced worldwide. has been eclipsed by other high-tech industries, the Stuttgart region  Stuttgart Region has actually seen the percentage of its total manufacturing output represented by automotive manufacturing rise from 28.7% in 1980 to 41.1% in 2000. The majority of that growth has been in small and medium-sized companies; to keep them flowing into the area the Stuttgart Region Economic Development Corporation has helped create a network of 17 "Competence Centers," each of which focus on a specific area of technology like telematics or fuel cells. These centers allow smaller companies to pool resources with local universities to carry out RED projects that would otherwise be out of their reach. But many of the more well-established players have the deep pockets needed to stay at the forefront of technological development. Here's a look at some of the latest developments to come from companies based in Stuttgart. DAIMLERCHRYSLER: FUEL CELL FOREFRONT. In 1994 the company then Known as Daimler-Benz unveiled its first Fuel cell vehicle. It was a full-size van with a massive fuel cell unit that took up the entire rear cargo area, effectively turning the van into a heavy two-seater with no storage space. Not exactly a marketable commodity. Since then, DaimlerChrysler's research center at Nabern near Stuttgart has refined its fuel cell system to the point that it now fits into an A-Class without any intrusion into the passenger compartment. It can be assembled into vehicles on the same line as its internal combustion-powered counterparts. Dr. Andreas Truckenbrodt, director, Fuel Cell and Alternative Powertrain Vehicles, says that the tremendous advances in reducing the size and increasing the range of fuel cell vehicles
1. Market preparation. This initial research phase has greatly matured fuel cell hardware and is nearly complete. 2. "Fit for Daily Use." This phase is kicking off now and will encompass a program to provide 30 fuel cell buses for regular routes in 10 European cities. In addition, by the end of 2004 the company plans to have 100 of its A-Class-based fuel cell vehicles (each with a range of about 150 km) in daily use. 3. Ramp-up. This phase will run from 2007 through 2010 and see the gradual increase of production. 4. Commercialization. Truckenbrodt says fuel cell vehicles will be a mass-production reality by 2010, though they will remain a small part of the overall market for a long time. Arriving at this strategy required abandoning some other alternatives. For example, there's using hydrogen as a fuel for modified internal combustion engines (an approach often touted by BMW BMW in full Bayerische Motoren Werke AG German automaker. Founded as an aircraft engine manufacturer in 1916, the company assumed the name Bayerische Motoren Werke and became known for its high-speed motorcycles in the 1920s. ). About that, Truckenbrodt says, "We have spent a lot of money on hydrogen combustion engines and we have given up." He explains that the lower power density of hydrogen compared to gasoline or diesel fuel together with the greater inefficiency of an internal combustion engine (due to the excessive amount of energy that must be dissipated as waste heat) essentially drives a stake in the heart of this alternative. Truckenbrodt also reveals that DaimlerChrysler has essentially given up on on-board fuel reformers that crack hydrogen from fuels like methanol: "Reformation is a non-starter from the efficiency point of view. And the reformer itself adds too much weight and complexity. Also, you usually need to provide a separate water supply which opens up problems with freezing." Though he embraces hydrogen, Truckenbrodt rejects using it in liquid from which has to be stored hundreds of degrees below zero, "You can't stop it from getting warmer and it will evaporate from the tank within two weeks," he explains. Compressed hydrogen is what DaimlerChrysler engineers think is the best form, and though range is a problem, the standard for hydrogen compression in the industry will soon double from 5,000 psi to 10,000 psi, which Truckenbrodt says will increase range by 80%. DaimlerChrysler's research teams are currently focusing on ways to improve the power density of their fuel cells by experimenting with the use of bi-polar metallic plates that would more efficiently lead the hydrogen over the membranes, and membrane materials that can function at higher temperatures. With an eye toward reducing cost and complexity the teams are also determining if the sophisticated electronic sensors that measure the voltage in each fuel cell are really necessary. And though every vehicle development program targets weight reduction, it is particularly important for the A-Class since the fuel cell version is currently 300 kg heavier than a conventional model. BEHR: GLOBAL COOLING
Global cooling in general can refer to a cooling of the Earth. . Behr GmbH and Co. is the number-one supplier of air conditioning air conditioning, mechanical process for controlling the humidity, temperature, cleanliness, and circulation of air in buildings and rooms. Indoor air is conditioned and regulated to maintain the temperature-humidity ratio that is most comfortable and healthful. systems for the European passenger car market--a fact that is all the more impressive when you know that in the last decade automotive air conditioning installation rates in Europe have soared from about 20% to 80%. But Europeans' new found love for A/C has raised environmental concerns about increases in global warming global warming, the gradual increase of the temperature of the earth's lower atmosphere as a result of the increase in greenhouse gases since the Industrial Revolution. gasses. So the European Union European Union (EU), name given since the ratification (Nov., 1993) of the Treaty of European Union, or Maastricht Treaty, to the European Community is discussing a ban of the refrigerant re·frig·er·ant adj. 1. Cooling or freezing; refrigerating. 2. Reducing fever. n. 1. A substance, such as air, ammonia, water, or carbon dioxide, used to provide cooling either as the working substance of R13ka that would begin phasing in in 2008. That doesn't give suppliers much time to come up with alternatives, but Behr already has a working system that uses simple carbon dioxide carbon dioxide, chemical compound, CO2, a colorless, odorless, tasteless gas that is about one and one-half times as dense as air under ordinary conditions of temperature and pressure. (C[O.sub.2]) as its refrigerant. The benefits of using C[O.sub.2] are clear: its global warming potential Global warming potential (GWP) is a measure of how much a given mass of greenhouse gas is estimated to contribute to global warming. It is a relative scale which compares the gas in question to that of the same mass of carbon dioxide (whose GWP is by definition 1). is 1,300 times less than that of R134a, and if A/C units are charged using the C[O.sub.2] that is the waste byproduct by·prod·uct or by-prod·uct n. 1. Something produced in the making of something else. 2. A secondary result; a side effect. Noun 1. of many industrial operations, the impact on the environment is nil. C[O.sub.2] also cools more efficiently. Behr estimates that its C[O.sub.2] system consumes 14 to 25% less fuel lot the same cooling output as current units, reducing both operating costs operating costs npl → gastos mpl operacionales and emissions. So, what's the catch? Pressure. C[O.sub.2] systems must operate at much higher pressures (120 bar vs. 30 bar for R134a) to be effective, which means that inexpensive rubber seals must be replaced with costlier metal (though not necessarily stainless steel stainless steel: see steel. stainless steel Any of a family of alloy steels usually containing 10–30% chromium. The presence of chromium, together with low carbon content, gives remarkable resistance to corrosion and heat. ) that can stand up to the increased pressure. Still, the efficiency savings alone should outweigh the increased part costs once the units are in mass production. "We think C[O.sub.2] will be the future of automotive air conditioning," says Dr. Thomas Heckenberger, director of Behr's Group Technology Center. PORSCHE: MATERIAL BENEFITS. The grounds of the Porsche Development Center in Weissach are a vision of a world in which everyone owns a Porsche but are forbidden garages, 911s, Boxsters and Cayennes are shoehorned into every nook and cranny Noun 1. nook and cranny - something remote; "he explored every nook and cranny of science" nooks and crannies detail, item, point - an isolated fact that is considered separately from the whole; "several of the details are similar"; "a point of information" of asphalt along the road, leading to a Porsche-per-square-foot ratio that must top even Southern California Southern California, also colloquially known as SoCal, is the southern portion of the U.S. state of California. Centered on the cities of Los Angeles and San Diego, Southern California is home to nearly 24 million people and is the nation's second most populated region, . But the one Porsche product not found in this cheek-by-jowl arrangement is the yet-to-be-released Carrera GT supercar Supercar is a term used for a high-end sports car, typically an exotic or rare one, whose performance is highly superior to that of its contemporaries. The proper application of the term is subjective and disputed, especially among enthusiasts. . Since the car will go for about $400,000 a copy when it debuts this fail, avoiding door dings is a high priority. In addition to being by far the most expensive vehicle in Porsche's model line, the Carrera GT is by far its most technically advanced. It is essentially a street-legal F-1 machine, so it's no coincidence that its development criteria would be familiar to any F-1 designer: minimal weight, maximal stiffness, lowest center of gravity, and a midship mid·ship adj. Of or located in the middle of a ship. engine. To help meet the first two criteria Porsche designed the most carbon fiber-intensive chassis in the world. The passenger box portion is fashioned from carbon fiber reinforced plastic Carbon fiber reinforced plastic (CFRP or CRP), is a very strong, light and expensive composite material or fiber reinforced plastic. Similar to glass-reinforced plastic, which is sometimes simply called fiberglass, the composite material is commonly referred to by (CFRP CFRP Carbon Fiber Reinforced Plastic CFRP carbon-fiber-reinforced polymer CFRP Conceptual Framework for Reuse Processes CFRP Central Florida Research Park CFRP Consolidated Fuel Reprocessing Program CFRP Chehalis Fisheries Restoration Program ) and integrates the windshield frame and roll bar lot maximum rigidity. (The Carrera GT is an open top car but it has better torsional tor·sion n. 1. a. The act of twisting or turning. b. The condition of being twisted or turned. 2. stiffness than the closed 911.) The CFRP is made up of an upper and lower layer of carbon fiber that sandwiches a honeycomb honeycomb a mosaic of closely packed units with depressed centers giving a honeycomb appearance. honeycomb ringworm see favus. honeycomb stomach reticulum. layer of aluminum or a resin-impregnated material called Nomex, which is widely used in aircraft and spacecraft. The rear subframe A subframe is a structural component of a vehicle, such as an automobile or an aircraft, that uses a discrete, separate structure within a larger body-on-frame or unit body to carry certain components, such as the engine, drivetrain, or suspension. which houses the engine and is bolted onto the passenger box also uses CFRP, but it features a heat-resistant honeycomb and a special resin in the matrix that can withstand the heat generated by the engine without deforming. (In a gentle jab at archrival arch·ri·val n. A principal rival. Ferrari, Porsche engineers point out that the subframe of their competitor's supercar the Enzo is merely constructed of welded aluminum.) In all, 1,000 different pieces of CFRP are used on the chassis and each one is arranged by hand to provide maximum strength. For example, where bending loads are high--like in the door sills--unidirectional weaves are used to enhance bending strength. After the CFRP pieces are laid up, the chassis is rolled into an autoclave autoclave Vessel, usually of steel, able to withstand high temperatures and pressures. The chemical industry uses various types of autoclaves in manufacturing dyes and in other chemical reactions requiring high pressures. where it is subjected to 180[degrees]C and 6 bar of pressure lot four hours in order to harden the structure. Each chassis takes five days to produce, so Porsche will need to have 10 identical sets of tooling on hand to reach the planned production of two Carrera GTs a day. All of this handwork is not cheap, but according to Michael Holscher, the supercar's general project manager, "We use the most expensive way of making carbon fiber because it is the most efficient." Porsche didn't stint on using other lightweight materials in the Carrera GT, either. The wheels (19-in. in the front and 20-in. in the rear) are made of forged magnesium which offers what the company describes as "optimum durability" while being 25% lighter than aluminum. Even interior parts like the center console panel and the gearshift lever frame are made from magnesium. In fact, Porsche had to use a special magnesium alloy that is heated to 400[degrees]C before stamping in order to get the garnish right. When Porsche's engineers were forced to use something as quotidian quotidian /quo·tid·i·an/ (kwo-tid´e-an) recurring every day; see malaria. quo·tid·i·an adj. Recurring daily. Used especially of attacks of malaria. as steel they managed to make that exotic, as well. The front and rear side members, suspension push rods and rear-axle wishbone wishbone see furcula. are all made of a newly developed grade of stainless steel, Ha00. H400 was chosen because it has high formability and a lower gauge of the steel can be used to absorb more impact energy in a crash while reducing overall weight. Porsche also went to extraordinary lengths to ensure that the Carrera GT would have the lowest center of gravity of any production car in the world. The first step in doing that was to make sure that it had the lowest crankshaft height, which is key to determining center of gravity. The car is powered by a 68[degrees] V-10 engine instead of one of Porsche's signature horizontally opposed designs. The reason, as Holscher explains, is that though the crankshaft height on a horizontally opposed engine is lower than that of a "V," the exhaust components hang below the bottom of the block, inhibiting the engine from being mounted as low as possible. On the Carrera GT's V-10 the exhaust components sit above the bottom of the block, allowing the crankshaft height to be lowered a few crucial (at least to Porsche) millimeters. An even bigger factor in achieving the lowest center of gravity is an all-new compact, lightweight clutch that was developed specifically for the Carrera GT. Porsche engineers needed something small and light but knew they could not use the kind of carbon fiber clutch common in race cars since customers would have to replace them more often than their oil. So they developed a clutch that uses carbon fiber reinforced ceramic discs mated with titanium backing plates that achieves maximum power density at a low rotational mass, while giving a service life ten times that of racing clutches. |
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