Markets & Companies

Innovative and Sustainable Network

The Darmstadt, Germany-based company Röhm was created 5 years ago by spinning off the methycrylate business from Evonik

21.10.2024 - Röhm strives for global technology leadership as a methacrylate specialist.

In 2019, the sale of Evonik Industries' methacrylate network to Advent International created the company Röhm. The investor's declared aim was to develop the independent company into the global market and technology leader in methacrylate chemistry. Today, the Darmstadt, Germany-based company, whose roots go back to the founding of Röhm & Haas in 1907, produces over 1 million tons of chemical products at nine sites in Germany, China and the USA and most recently generated annual sales of €1.6 billion with 2,850 employees worldwide. Andrea Gruß talked to Hans Bohnen, CEO of Röhm, about the growth and sustainability strategy of the young yet traditional company.

CHEManager: Mr. Bohnen, Röhm was founded five years ago. How has the company developed since then?

Hans Bohnen: Personally, I have only experienced the past nine months of this development. However, my colleagues told me that they started with a lot of enthusiasm in 2019. The team was looking forward to building a smaller, independent company outside of the structures of a large corporation and of course inspired by the strong Plexiglas brand and the return to the Röhm name, which stands for quality and pioneering spirit. However, the coronavirus crisis and the war in Ukraine soon followed. The pandemic did not stop us at first. Although it placed a heavy burden on our employees and we also had to deal with supply bottlenecks, the demand for Plexiglas for protective shields boomed and we were able to implement the capacity expansion in China despite the strict isolation regulations there. The situation was different after the start of the war in Ukraine. The high energy and gas costs massively weakened the market and the competitiveness of energy-intensive industries in Europe from one day to the next. This had – and still has – a massive impact on our business.

How did your investor react to this development?

H. Bohnen: Despite the difficult conditions, Advent stuck to the investment program as planned at the time of the carve out – a very courageous decision by our owner. Over the past four years, a total of €1.5 billion has been invested into the development of Röhm's plants and research – a sum that is roughly as high as our annual turnover.

What measures does the investment program include?

H. Bohnen: The measures address all regions and include sites in Germany, the USA and China. We have significantly expanded our production capacities for polymethyl methacrylate, PMMA, in Worms and Shanghai. In Wesseling, the bead polymerization reactor for the production of methacrylate resins was replaced and capacity expanded. And in the USA, we are currently investing into a new production facility for methyl methacrylate, MMA, at the Bay City site in Texas. At this site, a completely new way of producing MMA – the LiMA technology developed by Röhm – will be used for the very first time. The plant in Bay City will have a capacity of 250,000 tons of MMA per year and is scheduled for mechanical completion in the fourth quarter of 2024.

What is behind the LiMA technology?

H. Bohnen: LiMA stands for Leading in Methacrylates. The technology was developed by Röhm and will make us the global technology leader in the production of MMA, the precursor to Plexiglas. There are currently two established processes for producing MMA: the so-called C4 process based on MTBE or isobutene, which we use in China, and the C3 process with acetone and hydrogen cyanide as starting materials, which we use in Worms and Wesseling, among other places. LiMA technology is a C2 technology. It is a two-stage process that converts ethylene-based propionaldehyde, formalin and methanol into methyl methacrylate at very low pressures and temperatures. The environmentally friendly process requires less energy and water and reduces CO2 emissions by around 26% compared to C3 technology and by more than 50% compared to C4 technology. In the future, climate-neutral production would also be possible with the new process if sufficient green ethylene and methanol are available and economically viable.

Why did you choose the USA as the location for the first LiMA plant?

H. Bohnen: Our previous MMA plant in the USA is quite old and can no longer be operated sustainably. The question for us was therefore whether we should either invest significantly into the existing plant or shut it down. The USA is also an important market for Röhm, where we want to expand our capacity in the medium term in order to become the market leader. An investment in China was not an option due to the current overcapacity on the market there, and in Germany we have modern plants in Worms and Wesseling, which we can use to serve the European market. In addition, as just described, C2 technology is not a drop-in technology with which you can expand existing plants. In the USA, we have built the plant at a completely new location where we will produce MMA in the future. Thanks to our targeted investments, we will be the only manufacturer in the world to produce MMA and PMMA in a local network in North America, Europe and China. This is essential to our strategy of becoming the global market leader.

Röhm is not only investing into the efficiency and expansion of its plants, but also into research centers and its future portfolio. What measures have already been implemented here?

H. Bohnen: We have established new research and development centers in all regions. Our innovation center in Worms, in which we have invested around €100 million, was opened in 2023. We are pooling our European research activities in this state-of-the-art research center, which consists of a laboratory building and a technical center with several pilot plants. We have deliberately located the innovation center at our largest site with 1,200 employees, so that research and production work closely together. This has created a total of around 100 new jobs in Worms. Further development centers have been established in Wallingford in the USA and Shanghai in China in recent years. Employees from research, development and application technology work in our global innovation centers on the development and optimization of innovative products, processes and applications. Thanks to our regional presence, we work closely with our customers, for example, on innovations in the medical and automotive sectors, and can quickly pick up on local trends for product developments.

What is the innovation potential of Röhm's most important product, Plexiglas?

H. Bohnen: PMMA is indispensable as a material in a number of industries, for example the automotive industry or medical technology, due to its high heat and weather resistance as well as its light transmission. One driver here is e-mobility and the associated changes in vehicle construction and design.

We also see great future potential – not only for our PMMA products – in the development of sustainable products with a reduced carbon footprint as part of our ProTerra portfolio. With Plexiglas, we offer our customers two different ways to reduce their product carbon footprint while maintaining identical product properties and thus achieve their sustainability goals: firstly, through PMMA with a proportion of up to 30% mechanically recycled PMMA, and secondly, through PMMA for whose production fossil raw materials are replaced by ISCC Plus-certified raw materials and allocated via mass balancing. In addition to the reduced use of fossil raw materials, ProTerra products are also produced using less energy and water.

In the medium and long term, we are also focusing on the use of biomass that is not suitable for food production and on the material use of CO2 as a raw material to further improve the sustainability of our products.

What role does chemical recycling of PMMA play?

H. Bohnen: In principle, PMMA can be chemically recycled several times without any significant loss of properties. Compared to other plastics, the pyrolysis of PMMA to the monomer is already possible at lower temperatures and the material produced is certified without any problems. Chemical recycling can therefore usefully complement mechanical recycling of PMMA and represent another important building block for achieving recycling and climate protection targets.

However, the infrastructure for post-consumer PMMA waste is currently still challenging, as there is no established collection system for this, as there is for PET bottles, for example. However, in order to make chemical recycling of PMMA economically viable, we need very large quantities of the plastic, which tends to represent a niche in the commodities sector.

What measures can be taken to accelerate the transformation to a circular economy?

H. Bohnen: The circular economy can only work if everyone involved in the value chain works together. Products must be designed in such a way that their end-of-life us is. They should be easy and quick to dismantle. We need more monomaterials instead of composite systems and durable materials that can also be recycled at the end of their product life cycle. Clear regulatory requirements, such as recycling quotas, also contribute to the rapid development and expansion of the circular economy for plastics. Credible and traceable certifications, such as the International Sustainable Carbon Certification (ISCC), are essential. This is because only appropriately certified raw materials can be fully traced back to the source.

In principle, there are several suitable technological approaches for realizing the necessary transformation to a circular economy. Nevertheless, there are still many big challenges. Among other things, we are currently lacking the infrastructure for green hydrogen and today's industrial electricity prices and raw material prices are not suitable for supporting the transformation in a competitive way.

Mr. Bohnen, you have already accompanied numerous transformation processes in the chemical industry. As you mentioned at the beginning, you have joined Röhm as CEO in February 2024. What motivated you to take on this new role?

H. Bohnen: I had previously only worked for listed companies. My new role at Röhm is the first time that I am working for a private equity-invested company. What convinced me from the start was Advent International's investment logic and strategy of profitable, sustainable growth for Röhm. And I have not been disappointed so far. Our investor has extensive expertise in our market and is consistently developing Röhm with a long-term perspective. As already mentioned, since the takeover they have invested €1.5 billion not only in plants but also in research. This is unusual for an investment company, as the return on investment in the area of innovation is associated with higher risks and takes longer to realize. In my view, however, this is essential in order to secure and expand the competitiveness of a chemical company. The plants for implementing our growth strategy will be in place by the end of the year; now we have to fill them with life, that is, with the right products – an exciting task to be able to drive and realize this as CEO. With Advent International, we have a courageous investor and a strong owner with long-term perspective at our side – something that one could only wish for across the entire chemical industry in the current situation.

__________________________________________________________________________________________________________________________

Personal Profile

Hans Bohnen was appointed CEO of Röhm in February 2024. In this role, he is the successor of Michael Pack, who retired at that time. Bohnen worked for Clariant until 2023, most recently as a member of the executive board. Before joining the Swiss company in 2009, he held various management positions in Europe and North America at SGL Group, Celanese and Hoechst and worked in strategic management consulting at Booz Allen Hamilton. Hans Bohnen studied chemistry at the University of Duisburg-Essen, holds a doctorate in chemistry from the University of Tübingen and an MBA from Aston Business School.

__________________________________________________________________________________________________________________________

 

Downloads

Contact

Röhm GmbH

Deutsche-Telekom-Allee 9
64295 Darmstadt
Germany

+49 6151 863-7000