VW Golf VII HyMotion (fuel cells)
Prikaz 2 prispevkov - od 1 do 2 (od skupno 2)
- 20. 11. 2014 ob 21:29 #6347
bundradministrator forumaVozim: Passat 3BG
Golf SportWagen HyMotion Makes Global Debut in Los Angeles
Volkswagen transfers fuel cell technology to high-volume production: Golf is the first car to offer all forms of currently available powertrains.
+ Golf SportWagen HyMotion is first fuel cell vehicle based on the Modular Transverse Matrix (MQB)
+ Concept car showcases versatility of the MQB architecture
+ Estimated range of 310 miles of zero-emissions driving
+ All drive components are VW developments; electric motor and transmission shared with e-Golf
+ Fuel cell was developed at VW’s Technology Center for Electric Traction
+ Total system power of 136 PS, 0 to 62 mph in estimated 10.0 seconds
Wolfsburg/Los Angeles — At the Los Angeles Auto Show, Volkswagen is presenting the world premiere of the Golf SportWagen HyMotion—a research vehicle with a fuel cell powertrain. For this particular power source of the future, hydrogen and oxygen are combined in the fuel cell to form pure water. Energy is released in this “cold combustion” process, energy that is used to power a zero emissions electric motor.
The front-wheel-drive Golf SportWagen HyMotion accelerates from 0 to 62 mph (100 km/h) in 10.0 seconds. The hydrogen is stored safely in four high-tech carbonfiber tanks, which are located in the underbody, where they do not impede on interior space. Their fuel capacity enables a driving range of 310 miles (500 km), and they can be refilled in about three minutes. Unlike many of its competitors, Volkswagen is following the strategy of placing alternative drivetrains in high-volume production vehicles. Just like the all-electric e-Golf and the plug-in hybrid Golf GTE, the SportWagen HyMotion shows how fuel cells could be integrated into a well-engineered, usable, and attractively priced vehicle.
Several research vehicles have been built based on the U.S. version of the Passat, using the same drive components as fitted in the Golf SportWagen HyMotion. The fleet of Passat HyMotion vehicles is currently being tested on the streets of California.
The key drive components of the Golf SportWagen HyMotion were developed by Volkswagen Group Research in Germany. The fuel cell system conceptualized at the Volkswagen Technology Center for Electric Traction has a system power of 100 kW or 136 PS. In addition, the concept car has a high-voltage lithium-ion battery, which stores the kinetic energy recovered from regenerative braking, assists in the starting phase of the fuel cell and adds a dynamic boost to the maximum acceleration of the Golf SportWagen. The fuel cell and battery power an electric motor that has been adapted from the e-Golf.
The mechanical underpinnings for this innovative car are based on the Modular Transverse Matrix (MQB) that was developed by Volkswagen and is used throughout the Group. Thanks to use of the MQB, the current Golf and the new Golf SportWagen have advanced to become the world’s first vehicle model series that can host all conceivable drive types.
Today, the Golf is already offered with gasoline engines (TSI®), diesel engines (TDI®), an electric drive (e-Golf) and, in some markets outside the U.S., natural gas and plug-in hybrid drivetrains. No other car offers such a variety of drive types. Volkswagen is showing the Golf SportWagen HyMotion to demonstrate for the first time how a hydrogen fuel cell could be implemented in an MQB-based vehicle. Before the market launch, a hydrogen infrastructure would have to be created: not only a broad network of hydrogen fuel stations, but also the production of the hydrogen itself. Hydrogen only makes sense as a fuel if the primary energy used to produce it comes from renewable sources.
Volkswagen has integrated the drive components of the Golf SportWagen HyMotion in the front of the car. The battery is housed above the rear suspension, and the tanks are mounted in the vehicle floor. Thus, the interior of the Golf SportWagen HyMotion offers the same amount of space as in all other versions of the model. This optimal space utilization was possible because provisions were included for all technically feasible drivetrains and body versions in the planning of the MQB architecture.
In the Golf SportWagen HyMotion, the components from high-volume production vehicles were merged with entirely new engineering. As noted, the electric motor was adapted from the new e-Golf, and the motor and coaxial two-stage 1-speed transmission are located at the front of the engine compartment; both components were developed by Volkswagen. Also arranged in the engine compartment are the stacks of the hydrogen fuel cell; the cooling system; a tri-port converter that regulates the voltage between the electric motor, the fuel cell and the lithium-ion battery; and the turbo compressor. The latter ensures that oxygen from the surrounding air flows into the fuel cell.
The power electronics are located in the center tunnel area; they convert the direct current (DC) into three-phase alternating current (AC) which is used to drive the motor. The power electronics also integrate a DC/DC converter, which converts energy from the high-voltage battery to 12 volts to supply the 12-volt electrical system.
The high-voltage lithium-ion battery is mounted close to the trunk and rear suspension. The 12-volt battery is also mounted at the rear. Two of the total of four carbonfiber composite hydrogen tanks are housed compactly under the rear seat and the other two in the luggage compartment floor. The hydrogen is stored in the tanks at a pressure of 700 bar (10,150 psi). As in all other Volkswagen vehicles, the tank filler neck is located on the right side at the back of the car.
The lithium-ion battery is the second powerplant in the vehicle, and it plays an important role in the drive system. As mentioned, it stores the energy recovered during regenerative braking. It is also an important component in all phases during which the chemical reaction needs to be initiated by feeding oxygen and hydrogen to the fuel cell (the latter via the turbo compressor), such as when driving off from a start. At this point in time, the fuel cell has not built up enough electrical power to drive the motor by itself. In these phases, the lithium-ion battery jumps into action and supplies energy to the electric motor. The high-voltage battery also operates like a turbocharger during fast acceleration and while accelerating to top speed. In what is referred to as boosting, the fuel cell and battery work in an alliance to supply overall system power of 100 kW or 136 PS.
Functional principle of the fuel cell
Volkswagen Group Research is utilizing the company’s fourth-generation fuel cell in the Golf SportWagen HyMotion Concept—and simultaneously in a research vehicle based on the U.S. Passat. Group brand Audi is also presenting the same fuel cell at the 2015 Los Angeles Auto Show in an A7. All three fuel cells are based on the LT PEM fuel cell stack developed in Germany. LT stands for the type of fuel cell: Low Temperature. PEM stands for Proton Exchange Membrane. The key element of each individual fuel cell—many of which are combined to form a stack—is the proton-conducting membrane (PEM). Each membrane is located between an anode and a cathode in the fuel cell. Hydrogen flows into the cell at the anode end and oxygen at the cathode end. The hydrogen and oxygen react and combine to form water at the cathode end. Energy is released in this process.
At the anode, the hydrogen is split into electrons and protons. The positively charged protons “migrate” through the membrane to the cathode. The negatively charged electrons flow to the cathode via the external electrical circuit. This flow of current supplies electrical energy. At the cathode, the protons react with the inflowing oxygen and the electrons to produce “process water”, most of which escapes via the exhaust system. Around 60 percent of the energy input in the form of hydrogen is converted to electricity. The fuel cell converts the chemical energy of an oxidation process called “cold combustion” directly into electrical energy. The “exhaust gas” is nothing other than clean water vapor.
Technology Center for Electric Traction
Since the 1990s, Volkswagen has been researching the potential of hydrogen fuel cells and transferring this drive technology to production cars. At the end of the past decade Volkswagen decided to build a dedicated Technology Center for Electric Traction near its headquarters in Wolfsburg, to further advance its capabilities in fuel cell development. The Isenbüttel site was chosen for this center and construction of a special research center for electric drivetrains began in 2001. The infrastructure of the technology center includes a dedicated hydrogen fuel station. Volkswagen produces the hydrogen for the pressure tank station from renewable solar-generated electricity. A photovoltaic array was installed at the site for this purpose.
It’s not just a car, it’s the Volkswagen feeling!23. 11. 2014 ob 20:59 #6373
bundradministrator forumaVozim: Passat 3BG
Volkswagen v Los Angelesu predstavlja model Golf Variant HyMotion, napredno eksperimentalno vozilo s pogonom na vodikovo gorivno celico.
Kot gorivo prihodnosti se v gorivni celici vodik in kisik spojita v vodo. Pri tem “hladnem” zgorevanju se sprošča energija – pogonska energija za brezemisijski vrteči se elektromotor. Golf Variant HyMotion, ki je gnan na sprednji kolesni par, pospeši od 0 do 100 km/h v 10,0 sekunde. Vodik ima varno shranjen v štirih visokotehnoloških rezervoarjih iz ogljikovih vlaken, ki so nameščeni pod dnom vozila. Ti rezervoarji omogočajo akcijski radij 500 kilometrov. Ponovno polnjenje goriva traja samo tri minute.
Osrednje pogonske komponente za Golf Variant HyMotion so razvili v Nemčiji v Volkswagnovem koncernskem raziskovalnem oddelku. Sistem gorivne celice, ki so ga zasnovali v Volkswagnovem tehnološkem centru za električno trakcijo, razvije pogonsko moč 100 kW. Konceptno vozilo je poleg tega opremljeno z litij-ionsko visokonapetostno baterijo, ki se uporablja za shranjevanje kinetične energije, pridobljene pri zaviranju (z rekuperacijo), za podporo gorivni celici v fazi zagona in za bolj dinamične maksimalne pospeške. Gorivna celica in baterija poganjata elektromotor; gre za prilagojeni elektromotor iz e-Golfa.
Konstrukcijska osnova za ta inovativni avtomobil je prečni modularni sistem (MQB), ki ga je razvil Volkswagen in se uporablja v celotnem koncernu. Aktualni Golf s kompaktnim zadkom in novi Golf Variant sta po zaslugi platforme MQB prva avtomobilska serija na svetu, ki jo je mogoče realizirati z vsemi obstoječimi vrstami pogonov.
It’s not just a car, it’s the Volkswagen feeling!
Prikaz 2 prispevkov - od 1 do 2 (od skupno 2)
Za objavo odgovora morate biti prijavljeni.