New panes from recycled car windows for the Audi Q4 e-tron

Irreparable windshields are usually turned into insulation material or hollow glass. Audi and its partner companies want to change that. The idea is to make irreparable car glass into recyclable material for series production – the only process of its kind thus far.

04/25/2022 Reading Time: 4 min

Audi Q4 e-tron: Power consumption (combined*) in kWh/100 km: 19.4–16.2CO₂ emissions (combined*) in g/km: 0
Information on fuel/power consumption and CO₂ emissions with ranges depending on the selected equipment of the vehicle.
Only consumption and emission values according to WLTP and not according to NEDC are available for the vehicle.

Audi Q4 e-tron: Power consumption (combined*) in kWh/100 km: 19.4–16.2CO₂ emissions (combined*) in g/km: 0
Information on fuel/power consumption and CO₂ emissions with ranges depending on the selected equipment of the vehicle.
Only consumption and emission values according to WLTP and not according to NEDC are available for the vehicle.

Damaged car windows: material with potential?

Together with its partner companies, Audi is taking on the challenge of establishing a closed material cycle 1  for car glass as part of a one-year pilot project. Recycling damaged class into new windowpanes saves not only resources, but also energy and water in window manufacturing. Audi hopes to use car windows produced that way in Audi Q4 e-tron model production – the only cycle of its kind thus far.

Audi Q4 e-tron: Power consumption (combined*) in kWh/100 km: 19.4–16.2CO₂ emissions (combined*) in g/km: 0
Information on fuel/power consumption and CO₂ emissions with ranges depending on the selected equipment of the vehicle.
Only consumption and emission values according to WLTP and not according to NEDC are available for the vehicle.

Audi Q4 e-tron: Power consumption (combined*) in kWh/100 km: 19.4–16.2CO₂ emissions (combined*) in g/km: 0
Information on fuel/power consumption and CO₂ emissions with ranges depending on the selected equipment of the vehicle.
Only consumption and emission values according to WLTP and not according to NEDC are available for the vehicle.

“We see an opportunity here to put additional materials into circulation. The goal is to increase the proportion of secondary materials in our cars. In our research, we have identified car glass recycling as a potential. Together with our partner companies, we are taking that on in the pilot project.”

“We see an opportunity here to put additional materials into circulation. The goal is to increase the proportion of secondary materials in our cars. In our research, we have identified car glass recycling as a potential. Together with our partner companies, we are taking that on in the pilot project.”

― Philipp Eder, Project Manager for Circular Economy Procurement Strategy at Audi

The first step in recycling: crushing, separating, and processing recycled glass

In Audi’s pilot project, irreparably damaged car windows first go to Reiling, where the old windows are broken into small pieces and processed. The objective: to reintroduce car glazing into plate glass production. “Until now, recycled material has mostly been turned into beverage bottles,” explains Daniel Rottwinkel, Plant Manager at Reiling. And that is precisely where the joint pilot project starts: namely, recycling damaged glass back to its original quality for car windows. In order to be able to produce recyclable material from old glass, the company meticulously sorts out non-glass materials like the PVB plastic layer (polyvinyl butyral) in the glass, window edgings, metals, and wires. The elimination process is carried out using magnets, non-ferrous metal separators, extraction units, and electro-optical sorting units.

Shards turned into new base glass

In the next recycling step after Reiling has processed the glass recyclate and removed all the waste materials it can, Saint-Gobain Glass turns it into plate glass on its float line in Herzogenrath, Germany. That means roughly 3 x 6 meter (10 x 20 feet) rectangles, from which the affiliated company Saint-Gobain Sekurit makes automotive glazing in a subsequent process. One requirement for the final base glass product: the purest and most homogeneous glass recyclate possible.

 

Along with the shards, Saint-Gobain also mixes the recyclate with basic glass components that do not come from automotive sources, like quartz sand, sodium carbonate, and chalk, at a ratio of 30-50 percent. “For us, this cycle of making new car windows out of defective ones is an important step toward producing automotive glass in a way that conserves resources and energy,” says Markus Obdenbusch, production manager in charge of the Saint-Gobain float at the Herzogenrath site. 

Delivery of the glass recyclate at Saint Gobain Glass.
Delivery of the glass recyclate at Saint Gobain Glass.

Considerable savings potential

“We’re just starting to look at glass as a recyclate, so we anticipate that there will be more potential for improvement,” Obdenbusch says. Beyond the pilot project with Audi, Saint Gobain plans to put up to 30,000 tons of shards into production in Herzogenrath within the next three years, which will in turn save energy and reduces carbon emissions. That will mean that the company will emit up to 75 tons less CO₂ from a typical day’s tonnage. Consumption of water, which otherwise would have been used in the production of new glass, will also be reduced.

Vision: Application in Audi Q4 e-tron model production

The three partner companies have decided to put the process to an initial one-year test so that they can learn about material quality, stability, and costs. If glass can be recycled in an economical and ecologically meaningful way, the resulting car windows will be used in the Audi Q4 e-tron series.

Audi Q4 e-tron: Power consumption (combined*) in kWh/100 km: 19.4–16.2CO₂ emissions (combined*) in g/km: 0
Information on fuel/power consumption and CO₂ emissions with ranges depending on the selected equipment of the vehicle.
Only consumption and emission values according to WLTP and not according to NEDC are available for the vehicle.

Audi Q4 e-tron: Power consumption (combined*) in kWh/100 km: 19.4–16.2CO₂ emissions (combined*) in g/km: 0
Information on fuel/power consumption and CO₂ emissions with ranges depending on the selected equipment of the vehicle.
Only consumption and emission values according to WLTP and not according to NEDC are available for the vehicle.

More sustainable value chains

The pilot project is one example of how Audi and its partner companies are working to move materials – of which a great many are needed – into intelligent cycles. The goal is to use secondary materials wherever that is technically possible and economically sensible to do so in order to shape value chains more sustainably and conserve resources.

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