Abstract

Abstract Biotreatment of industrial wastewater is often challenged by operation under transient states with respect to organic loads, pollutants, and physical characteristics. Furthermore, the potential presence of inhibitory compounds requires careful monitoring and adequate process design. This review describes difficulties encountered in biological treatment of wastewater with highly variable influent characteristics. Typical design aspects of biological processes are presented and discussed with respect to their success in treating highly fluctuating wastewaters. In general, biomass retention is a key factor for dealing with highly fluctuating and/or inhibitory wastewater, but the how it operates also affects the stability of performance, as it was shown that dynamic operation instead of operation at a constant flow enhances biodegradation onset and more evenly distributed activity. Although ultimately stable effluent quality must be achieved, the microbial population stability is not necessarily high, as it was shown that microbial diversity and flexibility may play a critical role in functional stability. KEY WORDS: biological treatmentindustrial wastewatertransient statesbiomass retentionextracellular polymeric substances (EPS)adsorptionbioreactor stabilitybiomass dynamics ACKNOWLEDGMENTS This research was supported by the EU Research Training Network Biotreatment of sequentially alternating pollutants in wastewaters, contract number HPRTN-CT-2002-00213. J. Sipma and M.B. Osuna gratefully acknowledge their Marie Curie Post-Doctoral grants and M.A.E. Emanuelsson gratefully acknowledges her Marie Curie Pre-Doctoral grant.