Plant-Wide-Models

This repository contains the different implementations of the plant-wide models developed between Lund University and Technical University of Denmark.

1. BSM2 with decay modifications and reactive settler

The Main developers are: Xavier Flores-Alsina, Ramesh Saagi, Krist V. Gernaey and Ulf Jeppsson. The model is described in the following paper:

Flores-Alsina, X., Gernaey, K. V., & Jeppsson, U. (2012). Benchmarking biological nutrient removal in wastewater treatment plants: Influence of mathematical model assumptions. Water Science and Technology, 65 (8), 1496–1505.

This version of the model is adapated to be run in Matlab 2019b (or newer).

2. BSM2 with GHGs emissions

The Main developers are: Xavier Flores-Alsina, Laura Snip, Lluis Corominas, Peter A Vanrolleghem, Krist V. Gernaey and Ulf Jeppsson. The model is described in the following paper:

Flores-Alsina, X., Arnell, M., Amerlinck, Y., Corominas, Ll., Gernaey, K.V., Guo, L., Lindblom, E., Nopens, I., Porro, J., Shaw, A., Snip, L., Vanrolleghem and P.A., Jeppsson, U. (2014). Balancing effluent quality, economical cost and greenhouse gas emissions during the evaluation of plant-wide wastewater treatment plant control strategies. Sci. Tot. Env., 466-467, 616-624.

This version of the model is adapated to be run in Matlab 2019b (or newer).

3. BSM2 with ion activity corrections

The Main developers are: Kimberly Solon, Xavier Flores-Alsina, Christian Kazadi-Mbamba, Damien J Batstone, Krist V. Gernaey and Ulf Jeppsson. The model is described in the following paper:

Solon, K., Flores-Alsina, X., Mbamba, C. K., Volcke, E. I. P., Tait, S., Batstone, D., Gernaey, K. V., & Jeppsson, U. (2015). Effects of ionic strength and ion pairing on (plant-wide) modelling of anaerobic digestion. Water Research, 70, 235–245.

This version of the model is adapated to be run in Matlab 2019b (or newer).

4. BSM2 with P, S and Fe interactions

The Main developers are: Kimberly Solon, Xavier Flores-Alsina, Christian Kazadi-Mbamba, Damien J Batstone, Krist V. Gernaey and Ulf Jeppsson. The model is described in the following paper:

Solon. K, Flores-Alsina X, Kazadi-Mbama C., Ikumi D, Volcke E.I.P, Vaneeckhaute C., Ekama G., Vanrolleghem P.A, Batstone D.J, Gernaey K.V., Jeppsson U.(2017) Plant-wide modelling of phosphorus transformations in biological nutrient removal wastewater treatment systems: Impacts of control and operational strategies. Water Research, 113, 97-110.

This version of the model is adapated to be run in Matlab 2019b (or newer).

5. BSM2-P with THP and/or reject water treatment options

The Main developers are: Xavier Flores-Alsina, Damien J Batstone and Krist V. Gernaey. The model is described in the following paper:

Flores-Alsina X., Ramin E., Ikumi D., Harding T., Batstone D.J, Brouckaert C., Sotemann S., Gernaey K.V. (2021). Model based assessment of new sludge management strategies in wastewater treatment systems using a plant wide approach. Water Research. 190, 116714

This version of the model is adapated to be run in Matlab 2019b (or newer).

6. Industrial WWTP

The Main developers are: Xavier Flores-Alsina and Krist V. Gernaey. The model is described in the following paper:

Monje V., Owsianiak M., Junicke H., Kjellberg K., Gernaey K,V., Flores-Alsina X. (2022). Economic, technical, and environmental evaluation of retrofitting scenarios in a full-scale industrial wastewater treatment system. Water Research. 223, 118997

This version of the model is adapated to be run in Matlab 2019b (or newer).