Monday, May 4, 2009
5-64

Evaluation of oxalate decarboxylase and oxalate oxidase for industrial applications

Pierre Cassland1, A. Sjöde2, S. Winestrand2, L.J. Jönsson3, and Nils-Olof Nilvebrant4. (1) Novozymes, Krogshøjvej 36, 2880, Bagsværd, Denmark, (2) Department of Chemistry and Biomedical Sciences, Karlstad University, Universitetsgatan 2, SE-651 88, Karlstad, Sweden, (3) Department of Chemistry, Umeå University, SE-901 87, Umeå, Sweden, (4) Department of Chemical Engineering, Karlstad University, SE-651 88, Karlstad, Sweden

Increased recirculation of industrial process water can result in problems with calcium oxalate precipitation. Calcium oxalate precipitation (scaling) is a well known problem in the pulp and paper industry, where it gives rise to calcium oxalate incrusts on process equipment. The oxalic acid comes from the raw material and is formed in reactions with strong oxidizing agents. The potential in using oxalate decarboxylase from Aspergillus niger for oxalic acid removal in industrial bleaching plant filtrates containing oxalic acid was examined and compared with barley oxalate oxidase. Ten different filtrates from chemical pulp mills were selected for the evaluation. Oxalate decarboxylase degraded oxalic acid faster than oxalate oxidase in eight of the filtrates, while oxalate oxidase performed better in one filtrate. One of the filtrates inhibited both enzymes. The potential inhibitory effect of various compounds in industrial pulp mill process waters on the enzymatic activity was tested. Oxalate decarboxylase was more sensitive than oxalate oxidase to hydrogen peroxide. Oxalate decarboxylase was not as sensitive to chlorate and chlorite as oxalate oxidase. Up to 4 mM chlorate ions, the highest concentration tested, had no inhibitory effect on oxalate decarboxylase. Analysis of the filtrates suggests that high concentrations of chlorate present in some of the filtrates were responsible for the higher sensitivity of oxalate oxidase in these filtrates. Oxalate decarboxylase was thus a better choice than oxalate oxidase for treatment of filtrates from chlorine dioxide bleaching.

See more of Poster Session 2/Reception
See more of The 31st Symposium on Biotechnology for Fuels and Chemicals (May 3-6, 2009)