ChiBio – Chitin from fishery waste as a raw material for the production of specialty chemicals

Summary

In the EU-funded ChiBio project, an international team of researchers is aiming to develop new methods of producing specialty and fine chemicals from chitin rich fishing-industry waste. ChiBio is adopting the approach of a biorefinery in order to use the biogenic waste material in a holistic way, in other words materially and energetically and as efficiently and completely as possible. Therefore, various material (monomers for polymeric applications) and energetic (biogas production) uses are developed and optimized. The consortium comprises researchers and industrial partners from Norway, Austria, the Czech Republic, Ireland as well as Tunisia and Indonesia to make available fishery waste from European as well as African and Asian sources.

 

 

Project information

Project title

ChiBio – Development of an integrated biorefinery for processing chitin rich biowaste to specialty and fine chemicals

 

Project duration

November 2011 – October 2014

 

Project partners

  • Fraunhofer IGB, Stuttgart and Straubing (Coordination)
  • Fraunhofer ICT, Pfinztal
  • TU München, AG Industrial biocatalysis, Garching
  • Clariant (former Süd-Chemie AG), Moosburg
  • Apronex Ltd., Prag (Czechia)
  • Energy Institute at the Johannes Kepler University Linz (Austria)
  • Letterkenny Institute of Technology, Letterkenny (Irland)
  • Agricultural University of Norway UMB, As (Norway)
  • Institut National des Sciences et Technologies de la Mer, Karthago (Tunesia)
  • Earagail Eisc Teoranta, Carrick (Irland)
  • Evonik Industries AG, Essen
  • Biotech Surindo PT, Cirebon (Indonesia)

Results

Process chain in the ChiBio project.

Initial situation

The processing of prawns, crabs and shrimps results in the accumulation of large quantities of shell waste that contains chitin. Every year over six million metric tons of these crustacean shells land in the waste, with an estimated several hundred thousand tons of these being within the EU alone [1]. A use has already been found for a small part of this biogenic resource and in Asia, for example, it is utilized for the production of chitosan for the use in biomedical applications or as a food additive [2]. Because of the higher proportions of calcium carbonate, the utilization of European shells is less economical and not very common. Nevertheless, proper disposal of the shell waste – material which poses a contamination risk – is complex and costly owing to EU and country-specific regulations.

 

Stabilization of the shells and mobilization of Chitin

In a first process step, methods are being developed to pre-treat and stabilize the waste shells thereby making them storage-stable and transportable. A further important process step is the mobilization of chitin, a N-containing biopolymer. ChiBio, under the direction of the Letterkenny Institute of Technology, is developing process solutions for mild (benign) mobilization of the chitin, protein and lipid fractions using sustainable chemical, microbiological and enzymatic methods.

 

Enzymatic Cleavage of Chitin

A further fundamental process step is the cleavage of the chitin or of the chitosan obtained through deacetylation into its monomeric sugar units N-acetylglucosamine and glucosamine, respecitively. Chemo-catalytic methods used in this context are not particularly sustainable. ChiBio is therefore developing biocatalytic digestion methods and for this purpose is using chitin-degrading enzymes from prokaryotic and eukaryotic organisms such as strains of Trichoderma, Aspergillus, Bacillus and Aeromonas. Of particular use here is the expertise of our Norwegian partner Prof. Dr. Vincent Eijsink (UMB) in dealing with enzymes from the CBM33 family. These enzymes significantly increase the rates of chitin degradation [3], but in some cases still need to be optimized. This work is being complemented by our own chitinases and also chitin-deacetylases at the Fraunhofer IGB in Stuttgart [4]. Intensive work is currently underway to match the enzyme cocktails in the best way possible and to adapt them to industrial process conditions and/or production methods on an industrial scale.

 

Conversion of glucosamine into N-containing polymers

The degradation products of chitin/chitosan (hydrolysates and monomers) serve as substrates for biotechnology processes for the production of N-containing functional monomers for the polymer industry. N-containing compounds for the production of polyamides and isocyanates are of particular interest for the polymer industry and so far it has not been possible to produce them on the basis of renewable raw materials. ChiBio is taking two different routes here: the Industrial Biocatalysis Working Group at the Technische Universität München under the direction of Prof. Dr. Thomas Brück is developing optimized yeast strains in order to convert the chitin hydrolysates or glucosamine through fermentation into functionalized fats/fatty acids and the corresponding aminocarboxylic acids. In parallel, BioCat is using cell-free biotechnology methods in a multi-enzyme process to produce functionalized heterocycles from glucosamine. A large proportion of the required enzymes is now available recombinantly and is currently being optimized using enzyme engineering methods. The purified products from both routes are then used directly in the polymer industry as bifunctional monomers.

 

Additional work

Work on efficient purification methods is being carried out by the ChiBio partners Clariant and the Fraunhofer ICT. Polymerization trials, together with characterization of the polymer properties, are being carried out at the laboratories of Evonik Industries AG. Biological by-products that accumulate, such as proteins and lipids, are being tested for their suitability as substrates for biogas generation.

Information video: Crab Shells: Future Raw Materials?

© euronews, May 2014

Funding

We would like to thank the European Union for funding the research project “ChiBio” in the Seventh Framework Programme (FP7/2007-2013), grant agreement no. 289284.

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References

[1] FAOSTAT, FAO statistical databases, fisheries data (2001) Food and Agriculture organization of the United Nations, Rome, Italy (http://www.fao.org)

[2] Kandra, P.; Challa, M. M.; Jyothi, H. K. P. (2012) Efficient use of shrimp waste: present and future trends, Appl Microbiol Biotechnol 93: 17-29

[3] Vaaje-Kolstad, G.; Westereng, B.; Horn, S. J.; Liu, Z.; Zhai, L. H.; Sorlie, M.; Eijsink, V.G.H. (2010) An oxidative enzyme boosting the enzymatic conversion of recalcitrant polysaccharides, Science 330: 219-222

[4] Moß, K. S.; Hartmann, S. C.; Müller, I.; Fritz, C.; Krügener, S.; Zibek, S.; Hirth, T.; Rupp, S. (2012) Amantichitinum ursilacus gen. nov., sp. nov., a chitin-degrading bacterium found at the Bärensee, Stuttgart, Germany, Int J Syst Evol Microbiol ijs. ijs.0.034447-0v1-ijs.0.034447-