10.16.23
Back in the fall of 2020, SCHOTT announced its intention to become climate neutral in its production by 2030 (Scope 1 & 2 GHG Protocol). Technological change plays an important role in a four-part action plan. The company has now received funding of around €14.8 million for the construction of its first large-scale industrial pilot plant.
In this pioneering project, pharmaceutical glass is to be manufactured largely without causing greenhouse gas emissions. The pilot plant represents a technological milestone for the specialty glass industry.
The glass industry is one of the most energy-intensive industrial sectors in Germany. High CO2 emissions are generated during production. The largest share of the energy requirement is generated in the melting process. The glass raw materials are melted in refractory furnaces at temperatures of up to 1,700 degrees Celsius. Glass melting is a highly complex process. The development of new technologies is therefore associated with major challenges.
SCHOTT is taking on this task and wants to gradually decarbonize its energy-intensive processes. Here, the company is researching innovative ways to melt glass using green electricity and green hydrogen.
“Our technological transformation is a mammoth task. It requires a massive upheaval in glass production with, in some cases, groundbreaking innovations. We ourselves are investing heavily here to achieve our ambitious climate goal,” explained Dr. Frank Heinricht, chairman of the Board of Management of SCHOTT AG. “Such feats of strength can only succeed with the help of government research funding. The approved funding helps us to develop such technical innovations in Germany.”
Around €40 million are being invested in the “PROSPECT Pilot” project for the construction and use of the new glass melting tank. It will be built in Mitterteich, Bavaria.
The project period is the next three years. The pilot plant will be powered primarily by green electricity. Greenhouse gas emissions will be reduced by about 80 percent compared to current technology.
In this pioneering project, pharmaceutical glass is to be manufactured largely without causing greenhouse gas emissions. The pilot plant represents a technological milestone for the specialty glass industry.
The glass industry is one of the most energy-intensive industrial sectors in Germany. High CO2 emissions are generated during production. The largest share of the energy requirement is generated in the melting process. The glass raw materials are melted in refractory furnaces at temperatures of up to 1,700 degrees Celsius. Glass melting is a highly complex process. The development of new technologies is therefore associated with major challenges.
SCHOTT is taking on this task and wants to gradually decarbonize its energy-intensive processes. Here, the company is researching innovative ways to melt glass using green electricity and green hydrogen.
Pioneering Work for the Entire Glass Industry
The group is now demonstrating the technical feasibility of low-CO2 manufacturing of specialty glass for the pharmaceutical industry by setting up a pilot plant on an industrial scale. Over the past two years, the experts at SCHOTT have been doing basic work in various research projects. Now, the company is taking the next step: The research results will be tested on an industrial scale in an innovative melting tank concept. This pilot is pioneering work for the specialty glass industry.“Our technological transformation is a mammoth task. It requires a massive upheaval in glass production with, in some cases, groundbreaking innovations. We ourselves are investing heavily here to achieve our ambitious climate goal,” explained Dr. Frank Heinricht, chairman of the Board of Management of SCHOTT AG. “Such feats of strength can only succeed with the help of government research funding. The approved funding helps us to develop such technical innovations in Germany.”
Around €40 million are being invested in the “PROSPECT Pilot” project for the construction and use of the new glass melting tank. It will be built in Mitterteich, Bavaria.
The project period is the next three years. The pilot plant will be powered primarily by green electricity. Greenhouse gas emissions will be reduced by about 80 percent compared to current technology.