Integration of complete elemental mass-balanced stoichiometry and aqueous-phase chemistry for bioprocess modelling of liquid and solid waste treatment systems - Part 5: Ionic speciation

Integration of complete elemental mass-balanced stoichiometry and aqueous-phase chemistry for bioprocess modelling of liquid and solid waste treatment systems - Part 5: Ionic speciation

Where aqueous ionic chemistry is combined with biological chemistry in a bioprocess model, it is advantageous to deal with the very fast ionic reactions in an equilibrium sub-model, as was frequently mentioned in the preceding papers in this series. This last paper in the series presents details of...

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Veröffentlicht in:Water S. A. 2022-01, Vol.48 (1), p.32-39
Hauptverfasser: Brouckaert, CJ, Brouckaert, BM, Ekama, GA
Format: Artikel
Sprache:eng
Schlagworte:
Alkalinity
Chemistry
computational efficiency
Computer applications
Equilibrium
equilibrium speciation modelling
Ionic reactions
Liquid wastes
pH
primary search variables
Solid waste treatment
Solid wastes
Speciation
Stoichiometry
tableau representation
Waste treatment
Wastewater treatment
Wastewater treatment plants
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Beschreibung
Zusammenfassung:Where aqueous ionic chemistry is combined with biological chemistry in a bioprocess model, it is advantageous to deal with the very fast ionic reactions in an equilibrium sub-model, as was frequently mentioned in the preceding papers in this series. This last paper in the series presents details of how such an equilibrium speciation sub-model can be implemented, based on well-known open-source aqueous chemistry models. Specific characteristics of the speciation calculations which can be exploited to reduce the computational burden are highlighted. The approach is illustrated using the ionic equilibrium sub-model of a plant-wide wastewater treatment model as an example.
ISSN:0378-4738
1816-7950
1816-7950
DOI:10.17159/wsa/2022.v48.i1.3738