Berlin, Germany – 2011 Michelin Challenge Bibendu. Reinhard Otten, Concept Development for Audi AG talked to Lou Ann Hammond, CEO, www.drivingthenation.com about Audi’s CO2 to Natural gas at the 2011 Challenge Bibendum.
Audi’s intention is to make synthetic natural gas out of CO2 from biogas. But I asked Otten about using CO2 from coal, instead of trying to sequester the CO2. The United States is the Saudi Arabia of coal. Coal is filled with CO2 and unless we find a way to sequester and store it there won’t be more coal use in the United States.
Biogas to e-gas from Audi’s press release:
Audi wants to take the lead in the automotive industry regarding sustainable approaches to the use of natural resources. Under the motto of “Audi balanced mobility,” the company is gearing it’s efforts to pursue a major goal: completely CO2-neutral mobility.
The Audi e-gas project, the initial phase of which is now underway, is a cornerstone of the master plan. Audi is the worlds first premium automotive manufacturer to set up a portfolio of sustainable sources of energy “ starting with wind power. This portfolio will be rounded out by clean power, hydrogen and methane. These three sources will make mobile the electric, fuel-cell and methane vehicles of the near future. This new technology offers additional, significant potential: it can aid the energy-supply industry in solving the problem of how to store clean power.
Wind turbines constitute the first component of the Audi e-gas project. Audi is investing in four large power plants at an offshore wind park in the North Sea. Each new wind turbine generates 3.6 megawatts and can collectively produce some 50 GWh of electricity annually “ enough to meet the demand of a medium-sized city. Just a portion of this green power would be enough to manufacture 1,000 unit’s of the A1 e-tron and propel them 10,000 km (6,200 miles) a year “ as per the maxim that electric vehicles from Audi ought to run primarily on sustainably generated electricity.
The projects second component is Audis e-gas plant. The first plant of it’s kind in the world is scheduled to go into operation in Werlte, Germany in 2013. Ground will be broken in July 2011; Audi is investing several tens of millions of euros in the plants construction. Construction of additional plants is expected in the medium term. Four project partners are on board with Audi: Stuttgarts SolarFuel GmbH; the Centre for Solar Energy and Hydrogen Research (ZSW), also based in Stuttgart; the Fraunhofer Institute for Wind Energy and Energy System Technology (IWES) in Kassel, Germany; and EWE Energie AG.
The e-gas plant will comprise two main components, the first of which is an electrolyzer. It will run on clean power “ some of which will be electricity generated by Audis nearby wind turbines. Aided by polymer electrolyte membranes, the electrolyzer split’s water into it’s components: hydrogen and oxygen. In the future, hydrogen can power fuel-cell vehicles such as the Audi
Q5 HFC. Hydrogen is not, howe’ver, used directly during the projects first phase; it is instead placed into a storage tank and then the methanation unit.
The methanation unit thermochemically combines the hydrogen with carbon dioxide to create methane “ synthetic natural gas. The e-gas plant is connected to a waste-biogas plant, which supplies the required CO2 that would otherwise be emitted into the atmosphere and pollute it. Rated at 6.3 MW, the plant in Werlte is expected to produce some 1,000 metric tons of methane annually while consuming 2,800 metric tons of CO2. In January 2011, Audi set up a lab facility in Werlte with an output of 25 kW for testing purposes. It was possible straightaway to manufacture methane of the required quality.
The methane created from renewable sources and known at Audi as e-gas is fed into Germanys natural-gas network and therefore the network of CNG stations as well, where methane replaces fossil-based natural gas imported from abroad. In the future, this new fuel will power Audis specially modified natural-gas vehicles such as the A3 TCNG, scheduled to hit the market in 2013.
The projected quantity of e-gas produced at the plant could propel 1,500 unit’s of the A3 TCNG 15,000 km (9,320 miles) annually “ with 150 metric tons of e-gas left over.
This surplus can be stored in the public gas network and then be used as needed by other consumers such as block-type thermal power stations, which can utilize the surplus gas to produce green power and heat on overcast days with little wind.
The Audi e-gas project has the potential to solve the most pressing problem confronting Germanys sustainable energy-supply industry. Although the future belongs to renewable sources of energy, production is subject to natural fluctuations. Existing means of storage, such as pumped-storage power plants, can handle only a tiny fraction of renewable power, and the expansion of capacities will result in increasingly larger surpluses.
Methanation using renewable energy solves this problem: the power grid is coupled with the underground gas network, which can store surplus power supplies for months. The gas network bears tremendous potential: 220 terawatt hours (TWh) in contrast to electricity-storage systems, with a capacity at present of just 0.04 TWh. Energy can be discharged from the gas network, converted back to electricity, and returned to the power grid at any time, as needed.