Activated-sludge system design for species selection: Analysis of a detailed multispecies model

TY - JOUR

T1 - Activated-sludge system design for species selection

T2 - Analysis of a detailed multispecies model

AU - Sheintuch, M.

AU - Tartakovsky, B.

N1 - Funding Information: This work was supported by the Water Research Institute and the Fund for the Promotion of Research in the Technion.

PY - 1997/9

Y1 - 1997/9

N2 - We analyze a detailed activated sludge model to determine the boundaries for proliferation of floc formers during aerobic or anoxic selection and with soluble or solid substrates. The analysis of competition with several filamentous species shows that the outcome is similar to that of competition with a single species. For the two-species competition we present a general procedure for determining the boundaries of desired operation and compute these boundaries for a slightly modified version of the AEROFIL model [Kappeler and Gujer, 1994a, b Water Resources 28, 303-322). To achieve high conversions in aerobic reactors a substrate concentration gradient should be established implying that the recycle ratio and the sludge-age should be sufficiently small while the dissolved oxygen concentration should be sufficiently large. The analysis of two mixed aerobic reactors suggests that the selector volume should be comparable or larger than that of the reactor. Analysis of an anoxic selector coupled with an aerobic reactor showed that good selection can be obtained with small selectors and a sufficiently large recycle ratio. A control mode based on switching between these two regimes has been suggested. Sustaining the growth of floc formers on a solid-substrate feed that undergoes hydrolysis is a difficult task if the kinetic parameters of the hydrolyzed and soluble substrate are similar. This subject requires further experimental and modeling efforts to account for better selection that has been observed with solid substrates.

AB - We analyze a detailed activated sludge model to determine the boundaries for proliferation of floc formers during aerobic or anoxic selection and with soluble or solid substrates. The analysis of competition with several filamentous species shows that the outcome is similar to that of competition with a single species. For the two-species competition we present a general procedure for determining the boundaries of desired operation and compute these boundaries for a slightly modified version of the AEROFIL model [Kappeler and Gujer, 1994a, b Water Resources 28, 303-322). To achieve high conversions in aerobic reactors a substrate concentration gradient should be established implying that the recycle ratio and the sludge-age should be sufficiently small while the dissolved oxygen concentration should be sufficiently large. The analysis of two mixed aerobic reactors suggests that the selector volume should be comparable or larger than that of the reactor. Analysis of an anoxic selector coupled with an aerobic reactor showed that good selection can be obtained with small selectors and a sufficiently large recycle ratio. A control mode based on switching between these two regimes has been suggested. Sustaining the growth of floc formers on a solid-substrate feed that undergoes hydrolysis is a difficult task if the kinetic parameters of the hydrolyzed and soluble substrate are similar. This subject requires further experimental and modeling efforts to account for better selection that has been observed with solid substrates.

KW - Activated sludge

KW - Filaments

KW - Floc formers

KW - Model

KW - Stability analysis

UR - http://www.scopus.com/inward/record.url?scp=0031239135&partnerID=8YFLogxK

U2 - 10.1016/S0009-2509(97)00087-0

DO - 10.1016/S0009-2509(97)00087-0

M3 - 文章

AN - SCOPUS:0031239135

SN - 0009-2509

VL - 52

SP - 3033

EP - 3046

JO - Chemical Engineering Science

JF - Chemical Engineering Science

IS - 17

ER -