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Isocyanate Production

Bayer MaterialScience Commissions New Hydrogenation Technical Center

| Editor: Dr. Jörg Kempf

Dr. Thorsten Dreier (second from left), who heads the isocyanate research department at polyurethane production at Bayer MaterialScience, has the power of the keys. They are looking forward to the first research results of his team: Dr. Joachim Wolff (second from right), head of the polyurethanes business at Bayer MaterialScience, Dr. Steffen Kühling (left), head of production & technology at the polyurethanes business, and Dr. Klaus Jaeger (right), who is heading the Bayer MaterialScience sites in North Rhine-Westphalia. (Picture: Bayer MaterialScience)
Dr. Thorsten Dreier (second from left), who heads the isocyanate research department at polyurethane production at Bayer MaterialScience, has the power of the keys. They are looking forward to the first research results of his team: Dr. Joachim Wolff (second from right), head of the polyurethanes business at Bayer MaterialScience, Dr. Steffen Kühling (left), head of production & technology at the polyurethanes business, and Dr. Klaus Jaeger (right), who is heading the Bayer MaterialScience sites in North Rhine-Westphalia. (Picture: Bayer MaterialScience)

Bayer MaterialScience has commissioned a new technical center for the development of isocyanate production processes at Chempark Dormagen. The research center was erected in just under a year with an investment of €5 million.

Dormagen/Germany – “All global research activities related to the production of aromatic isocyanates have now been pooled in the new hydrogenation technical center,” said Dr. Joachim Wolff, head of the polyurethanes business and member of the Executive Committee of Bayer MaterialScience, on the occasion of the commissioning. “The associated efficiency gains in the research and optimization of the production processes will help to further expand our global technological leadership.”

The state-of-the-art facility is focused on hydrogenation technology for the production of precursors to diphenylmethane diisocyanate (MDI) and toluene diisocyanate (TDI).

MDI is based on benzene, which is first nitrated into nitrobenzene and then hydrogenated to produce aniline. An additional step then converts the aniline to diphenylmethane diamine, the direct precursor to MDI. A catalyst is used to produce aniline from nitrobenzene and hydrogen gas. With the conventional isothermic process, which is performed at a constant temperature, the substantial heat generated during the reaction must be dissipated using heat transfer oils. The reaction takes place inside a reactor block, in which many thousands of tubes containing the catalyst have been welded together. Finally, the aniline must be painstakingly purified of byproducts before it can be used further.

The adiabatic variant developed by Bayer MaterialScience is a current example of innovative process development in the area of hydrogenation. The technology eliminates the need for heat transfer and enables a substantial gain in efficiency. Here the reaction takes place in a large steel vessel, in which the catalyst is placed on a grating. The heat of reaction is dissipated together with the gas flow, eliminating the need for the circulating oil loop. In addition, the product is also of significantly higher purity.

“The technology is already proving to be extremely successful in our world-scale facility in Shanghai, China, with an annual production capacity of 350,000 metric tons. The conventional process would have been too complex and too expensive for a facility of this size,” said Dr. Thorsten Dreier, who heads the isocyanate research department at polyurethane production.

The researchers plan to concentrate on the further optimization of both process variants at the new technical center. Other focal points will be researching and improving the hydrogenation of dinitrotoluene to obtain toluene diamine, the direct precursor to TDI, and also the Deacon process for the oxidation of hydrogen chloride.

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