Can camphor offer a viable alternative to castor oil for production bio-PA?


Within the scope of the Camphor-based polymers international research project, the Fraunhofer Institute for Interfacial Engineering and Biotechnology IGB will, in the coming year, research sustainable production processes for biobased monomers.

nAlthough crude oil continues to be an essential raw material for the production of plastics, it is a finite resource, a fact which has led science and industry to search for biobased alternatives. The “Camphor-based polymers” project, a collaborative effort between the IGB branch Bio, Electro and Chemocatalysis BioCat in Straubing, Germany and research and industry partners, aims to develop technology that will make it possible to use residual materials from pulp production for the manufacture of plastics.

Castor (ricinus) oil is one biobased alternative to crude oil as a starting material for the production of polyamides; however, it has some disadvantages: processing is complex and several synthesis steps are required to convert castor oil into monomers.

BioCat and its project partners are investigating the use of terpene camphor, which due to its chemical structure has a high potential for the production of biobased monomers for polyamides and polyesters. Moreover, in contrast to castor oil production, both the extraction and processing of camphor is unproblematic. The terpene is produced in large quantities in China from by-products of the pulp industry and is therefore not only a sustainable raw material, but also readily available. In addition, only a single synthesis step is required to produce the targeted biomonomers.

As part of the “Camphor-based polymers” project, BioCat and its partners are working on an efficient biocatalytic process for the selective functionalization of the camphor into biobased monomers.
“The ultimate goal of our project is the sustainable production of biobased polymers, which ranges from the use of natural terpenes from the Chinese pulp industry to the production of polymeric materials in Germany,” said IGB scientist Dr. Michael Hofer, who heads the project at BioCat.

In order to achieve this goal and to map out the entire value-added chain, Hofer and his team are working together with scientific and industrial project partners from China and Germany. Worldwide, pulp-based camphor production currently amounts to 17 000 tonnes per year, mainly produced by just five Chinese pulp manufacturers. One of these was enlisted as an industrial partner for the project “Camphor-based polymers”. The potential for global camphor production based on pulp is estimated by the project partners to be 100 000 tonnes.

The project, which was launched in January 2018, is scheduled to run until December 2020 and is coordinated by the Chair of Chemistry of Biogenic Raw Materials at the Technical University of Munich. The Federal Ministry of Education and Research is funding the project as part of the “Bioeconomy international” program.


bioplastics MAGAZINE
Polymedia Publisher GmbH

Dammer Str. 112
D-41066 Mönchengladbach

Dr. Michael Thielen
Handelsregister: Amtsgericht Mönchengladbach, HR B 11601
UST-IdNr.(VAT-No) DE 248015976

Tel. +49 2161-6884469

© 2015 bioplastics MAGAZINE