Propionate accumulates during start-up, restart and process imbalances in anaerobic biowaste digesters and rapidly decreases when obtaining steady-state conditions. In this project, propionate formation and degradation in biowaste (Karlsruhe) or market wastes (Bandung/Indonesia) in different anaerobic digesters or digestion regimes will be investigated. The influence of composition, pH, buffers and of (bioavailable) trace metals on propionate formation and degradation, shock-loading or restart of digesters will be investigated in Karlsruhe. Propionate degradation via the methylmalonyl-CoA or non-randomizing C6-dismutation pathway in different reactor systems and with different substrates will be investigated with pulse addition of specifically 14C-labeled propionate. Results should allow conclusions on the type of predominant propionate degraders. At LIPI, Bandung/Indonesia, the digestion of market waste suspensions in one stage or two-stage (acetogenic and methanogenic stage separated) CSTR reactor systems will be optimized and at ITB, Bandung/Indonesia, waste will first be separated into a liquid and solid phase and both fractions will then be digested either in a fixed-bed reactor (liquid) or in a dry fermentation system (solids). Such process alternatives are state of the art for wastewater treatment, but even in Europe experience with biowaste or biowaste fractions is scarce.

DFG Programme Research Grants

Participating Person Professor Dr. Josef U. Winter