Plant-wide Model applied to a full-scale Wastewater Treatment Plant

Kazadi Mbamba, Christian, Flores-Alsina, Xavier, Batstone, Damien John and Tait, Stephan (2016): Plant-wide Model applied to a full-scale Wastewater Treatment Plant. The University of Qeensland. Collection. doi:10.14264/uql.2016.206

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Project description
As part of development of a more widely applicable physicochemical framework, this Project sought to identify a suitable minerals precipitation modelling approach that could give reasonable results in mainstream use with wastewater treatment. In this regard a general physicochemical modelling approach was implemented in a plant-wide platform together with standard biological models, namely activated sludge model No 2 (ASM2d) and Anaerobic Digestion Model No. 1 (ADM1). The plant-wide model evaluation compared simulations with real data from a full-scale wastewater treatment plant, and used steady-state, dynamic and scenario analyses to test the model performance.
Contact name Stephan Tait
Contact email stait@awmc.uq.edu.au
Creator name Kazadi Mbamba, Christian
Flores-Alsina, Xavier
Batstone, Damien John
Tait, Stephan
Creator(s) role PhD Scholar
Dataset name Plant-wide Model applied to a full-scale Wastewater Treatment Plant
Dataset description
The combined biological and physicochemical models together formed a differential-algebraic equation set, which was implemented as Matlab C-MEX files and was solved in MATLAB/SIMULINK (Version 8.1, Mathworks inc) as described elsewhere (Gernaey et al. 2014, Kazadi Mbamba et al. 2015a, Kazadi Mbamba et al. 2015b, Flores-Alsina et al. 2015b, Solon et al. 2015).
Access conditions Open Access
Licencing and terms of access Creative Commons Attribution (only)

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ANZSRC Field of Research (FoR) Code 090407 Process Control and Simulation
090702 Environmental Engineering Modelling
090409 Wastewater Treatment Processes
DOI 10.14264/uql.2016.206
Type of data Plant-wide model codes for WWTPs
Language eng
Keyword Plant-wide model
Phosphorus
Physico-chemistry
Minerals precipitation
Nutrient recovery
BSM2
Collection type Collection
Publisher The University of Qeensland
Publication Year 2016
Copyright notice The University of Qeensland

Document type: Data Collection
Collections: Research Data Collections
Advanced Water Management Centre Publications
 
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Created: Fri, 06 May 2016, 10:53:51 EST by Christian Kazadi Mbamba