How well-mixed is well mixed? Hydrodynamic-biokinetic model integration in an aerated tank of a full-scale water resource recovery facility.

Current water resource recovery facility (WRRF) models only consider local concentration variations caused by inadequate mixing to a very limited extent, which often leads to a need for (rigorous) calibration. The main objective of this study is to visualize local impacts of mixing by developing an integrated hydrodynamic-biokinetic model for an aeration compartment of a full-scale WRRF. Such a model is able to predict local variations in concentrations and thus allows judging their importance at a process level. In order to achieve this, full-scale hydrodynamics have been simulated using computational fluid dynamics (CFD) through a detailed description of the gas and liquid phases and validated experimentally. In a second step, full ASM1 biokinetic model was integrated with the CFD model to account for the impact of mixing at the process level. The integrated model was subsequently used to evaluate effects of changing influent and aeration flows on process performance. Regions of poor mixing resulting in non-uniform substrate distributions were observed even in areas commonly assumed to be well-mixed. The concept of concentration distribution plots was introduced to quantify and clearly present spatial variations in local process concentrations. Moreover, the results of the CFD-biokinetic model were concisely compared with a conventional tanks-in-series (TIS) approach. It was found that TIS model needs calibration and a single parameter set does not suffice to describe the system under both dry and wet weather conditions. Finally, it was concluded that local mixing conditions have significant consequences in terms of optimal sensor location, control system design and process evaluation.

[1]  H. Hauduc,et al.  Critical review of activated sludge modeling: State of process knowledge, modeling concepts, and limitations , 2013, Biotechnology and bioengineering.

[2]  Dionysis Assimacopoulos,et al.  Design of two-storey final settling tanks using mathematical models , 2000 .

[3]  C Printemps,et al.  Modelling of wastewater treatment plants--how far shall we go with sophisticated modelling tools? , 2006, Water science and technology : a journal of the International Association on Water Pollution Research.

[4]  J. Keller,et al.  Simultaneous nitrification and denitrification in bench-scale sequencing batch reactors , 1996 .

[5]  Randal W. Samstag,et al.  A Protocol for Optimization of Activated Sludge Mixing , 2014 .

[6]  A. Fenu,et al.  Activated sludge model (ASM) based modelling of membrane bioreactor (MBR) processes: a critical review with special regard to MBR specificities. , 2010, Water research.

[7]  Colin D. Groff,et al.  Field and CFD Analysis of Jet Aeration and Mixing , 2012 .

[8]  Arnaud Cockx,et al.  Oxygen transfer prediction in aeration tanks using CFD , 2007 .

[9]  Willi Gujer,et al.  Using reactive tracers to detect flow field anomalies in water treatment reactors. , 2011, Water research.

[10]  R. T. Kukreja,et al.  Heat (Mass) Transfer in a Rotating Two-Pass Square Channel — Part II:Local Transfer Coefficient, Smooth Channel , 1998 .

[11]  G. Lewis,et al.  Enterococci in the New Zealand environment: Implications for water quality monitoring , 1997 .

[12]  Daniel Braun,et al.  Effects of aeration patterns on the flow field in wastewater aeration tanks. , 2011, Water research.

[13]  J Alex,et al.  Model structure identification for wastewater treatment simulation based on computational fluid dynamics. , 2002, Water science and technology : a journal of the International Association on Water Pollution Research.

[14]  Gérard Bois,et al.  Numerical Investigation of Velocity Flow Field inside an Impeller Air Model of a Centrifugal Pump with Vaned Diffuser Interactions and Comparison with PIV Measurements , 2010 .

[15]  R. Higbie,et al.  The Rate of Absorption of a Pure Gas into a Still Liquid during Short Periods of Exposure , 1935 .

[16]  I Nopens,et al.  Effect of sensor location on controller performance in a wastewater treatment plant. , 2015, Water science and technology : a journal of the International Association on Water Pollution Research.

[17]  Youri Amerlinck Model refinements in view of wastewater treatment plant optimization : improving the balance in sub-model detail , 2015 .

[18]  O Potier,et al.  Activated sludge pilot plant: comparison between experimental and predicted concentration profiles using three different modelling approaches. , 2011, Water research.

[19]  J. Monod,et al.  Recherches sur la croissance des cultures bactériennes , 1942 .

[20]  Ingmar Nopens,et al.  Model-based energy optimisation of a small-scale decentralised membrane bioreactor for urban reuse. , 2010, Water research.

[21]  D. Wilcox Turbulence modeling for CFD , 1993 .

[22]  J. Barnard,et al.  Saving phosphorus removal at the Henderson NV plant. , 2012, Water science and technology : a journal of the International Association on Water Pollution Research.

[23]  W. Gujer,et al.  Activated sludge model No. 3 , 1995 .

[24]  M. Kraume,et al.  Performance of a bioreactor with submerged membranes for aerobic treatment of municipal waste water. , 2002, Water research.

[25]  Mogens Henze,et al.  Activated sludge models ASM1, ASM2, ASM2d and ASM3 , 2015 .

[26]  Ingmar Nopens,et al.  From the affinity constant to the half-saturation index: understanding conventional modeling concepts in novel wastewater treatment processes. , 2015, Water research.

[27]  Karl-Heinz Rosenwinkel,et al.  Analysis and design of suitable model structures for activated sludge tanks with circulating flow , 1999 .

[28]  J D Wicks,et al.  A protocol for the use of computational fluid dynamics as a supportive tool for wastewater treatment plant modelling. , 2014, Water science and technology : a journal of the International Association on Water Pollution Research.

[29]  M. Ishii,et al.  Thermo-Fluid Dynamics of Two-Phase Flow , 2007 .

[30]  Alain Liné,et al.  Modeling hydrodynamics of gas–liquid airlift reactor , 2007 .

[31]  Wolfgang Rodi,et al.  Density Currents and Shear-Induced Flocculation in Sedimentation Tanks , 1992 .