Dispersed plug flow model for upflow anaerobic sludge bed reactors with focus on granular sludge dynamics

• Published in: Journal of industrial microbiology & biotechnology Vol. 33; no. 3; pp. 221 - 237
• Main Authors: Kalyuzhnyi, S.V, Fedorovich, V.V, Lens, P.N.L
• Format: Journal Article
• Language: English
• Published: Germany Springer Nature B.V 01.03.2006
• Subjects: Anaerobiosis; Bacteria - growth & development; Bacteria - metabolism; blanket; cheese whey; competition; digestion; glucose; Hydrogen-Ion Concentration; liquid flow; Methane - metabolism; methanogenesis; Models, Theoretical; Sensitivity analysis; Sewage - microbiology; Sludge; Studies; sulfate reduction; uasb-reactor; wastewater; Water - chemistry; Water Microbiology; Water Purification - methods
• ISSN: 1367-5435; 1476-5535
• DOI: 10.1007/s10295-005-0217-2

A new approach to model upflow anaerobic sludge bed (UASB)-reactors, referred to as a one-dimensional dispersed plug flow model, was developed. This model focusses on the granular sludge dynamics along the reactor height, based on the balance between dispersion, sedimentation and convection using one-dimensional (with regard to reactor height) equations. A universal description of both the fluid hydrodynamics and granular sludge dynamics was elaborated by applying known physical laws and empirical relations derived from experimental observations. In addition, the developed model includes: (1) multiple-reaction stoichiometry, (2) microbial growth kinetics, (3) equilibrium chemistry in the liquid phase, (4) major solid-liquid-gas interactions, and (5) material balances for dissolved and solid components along the reactor height. The integrated model has been validated with a set of experimental data on the start-up, operation performance, sludge dynamics, and solute intermediate concentration profiles of a UASB reactor treating cheese whey [Yan et al. (1989) Biol Wastes 27:289-305; Yan et al. (1993) Biotechnol Bioeng 41:700-706]. A sensitivity analysis of the model, performed with regard to the seed sludge characteristics and the key model parameters, showed that the output of the dispersed plug flow model was most influenced by the sludge settleability characteristics and the growth properties (especially mu(m)) of both protein-degrading bacteria and acetotrophic methanogens.