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In Evonik's module for the Rheticus test facility, bacteria<br>convert synthesis gases into specialty chemicals

In Evonik's module for the Rheticus test facility, bacteria<br>convert synthesis gases into specialty chemicals

Siemens, Evonik launch CO2-based chemicals project

2019/10/10

MUNICH

Germany-based Evonik and Siemens have launched a joint research project to develop a test plant that will use carbon dioxide (CO2) and water as well as electricity from renewable sources and bacteria to produce specialty chemicals.

Rheticus II will run until 2021 and will receive funding of around €3.5 million ($3.84 million) from Germany’s Federal Ministry of Education and Research.

In the Rheticus I project, the two companies worked for two years to develop the technically feasible basis for artificial photosynthesis using a bioreactor and electrolysers. Evonik and Siemens are now combining these two, previously separate, plants in a test facility at Evonik’s site in Marl, Germany.

“The innovative technology used for Rheticus has the potential to contribute to the success of Germany's energy transition,” said Thomas Haas, who is responsible for the Rheticus project at Evonik.

“In the future, this platform could be installed anywhere CO2 is available – for example, at power plants or biogas plants. We use available CO2 as the raw material for the production of high-value chemicals using artificial photosynthesis.”

Siemens is contributing the world's first CO2 electrolyser to the Rheticus project. “We are developing a flexible system that can provide answers to various questions raised by the energy transition,” said Karl-Josef Kuhn, who is in charge of Power2X research at Siemens.

 “We are making it possible to store renewable energy by converting it into useful substances such as specialty chemicals or fuel. We are also contributing to the stability of the grid because production is so flexible that we can respond to fluctuations in power supply.”

The test facility is scheduled to start operating in early 2020. It comprises electrolysers and a bioreactor. In a first step, carbon dioxide and water are converted into carbon monoxide (CO) and hydrogen in electrolysers with the aid of electricity.

Special microorganisms then convert the CO in the gases synthesized in this way into chemicals. Siemens and Evonik are each contributing their core competencies – electrolysis and biotechnology – to this artificial photosynthesis process. Artificial photosynthesis means combining chemical and biological steps so that energy can be used to produce viable chemicals from CO2 and water. Plants use natural photosynthesis in a similar way: chlorophyll, enzymes and sunlight are used to synthesize glucose – a vital, energy-rich nutrient.

Another advantage of Rheticus is, that the technology platform also contributes to the reduction of carbon dioxide levels in the atmosphere, as it uses CO2 as a raw material. Three tons of carbon dioxide would be needed to produce one ton of butanol, for example.

The synthesis module came on stream at Evonik in spring 2019. At its heart is an 8-meter high stainless steel bioreactor with capacity of 2,000 litres. Microorganisms work continuously in the reactor. Their main nutrients are hydrogen and carbon monoxide. Siemens has developed a fully automated CO2 electrolyser which was integrated into a container in summer 2019.

The world's first CO2 electrolyser comprises 10 cells and the total surface area of the electrodes is 3,000 sq cm. The electrolyser and the bioreactor will be combined in the coming months. In addition, a unit to process the liquid from the bioreactor is being built to obtain pure chemicals.

In the test facility, bacteria will produce butanol and hexanol for research purposes. These substances are used as starting products, for example, for specialty plastics and food supplements. However other specialty chemicals are conceivable, depending on the bacterial strain and conditions.

Following successful completion of Rheticus II, Evonik and Siemens will have a unique technology platform allowing production of useful, energy-rich substances such as specialty chemicals and artificial fuels from CO2 in a flexible, modular process. – TradeArabia News Service






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