Validation of a multi-phase plant-wide model for the description of the aeration process in a WWTP.

Lizarralde-Aguirrezabal, I. (Izaro); Fernández-Arévalo, T.(Tamara); Beltran-Calaff, S. (Segio); Ayesa-Iturrate, E. (Eduardo); Grau-Gumbau, P. (Paloma)

Authors:

Lizarralde-Aguirrezabal, I. (Izaro)

Fernández-Arévalo, T.(Tamara)

Beltran-Calaff, S. (Segio)

Ayesa-Iturrate, E. (Eduardo)

Grau-Gumbau, P. (Paloma)

Keywords:

Liquid-gas transfer modelling.
Mathematical modelling.
Plant-wide modelling.
Water chemistry.

Issue Date:

2018

Publisher:

Elsevier

ISSN:

0043-1354

Citation:

Lizarralde, I., Fernández-Arévalo, T., Beltrán, S., Ayesa, E., & Grau, P. (2018). Validation of a multi-phase plant-wide model for the description of the aeration process in a WWTP. Water research, 129, 305-318.

Abstract

This paper introduces a new mathematical model built under the PC-PWM methodology to describe the aeration process in a full-scale WWTP. This methodology enables a systematic and rigorous incorporation of chemical and physico-chemical transformations into biochemical process models, particularly for the description of liquid-gas transfer to describe the aeration process. The mathematical model constructed is able to reproduce biological COD and nitrogen removal, liquid-gas transfer and chemical reactions. The capability of the model to describe the liquid-gas mass transfer has been tested by comparing simulated and experimental results in a full-scale WWTP. Finally, an exploration by simulation has been undertaken to show the potential of the mathematical model.

URI:

https://hdl.handle.net/10171/68460

DOI:

10.1016/j.watres.2017.10.061

Appears in Collections:

DA - TECNUN - Ingeniería Biomédica y Ciencias - Artículos de revista

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