Individual-based modelling and simulation of microbial processes: yeast fermentation and multi-species composting

Individual-based modelling and simulation of microbial processes: yeast fermentation and multi-species composting

Controlled microbial activity is the core of many industrial processes. Such dynamic microbial processes must be carefully studied to optimize their application. They are usually tackled by means of continuous mathematical modelling at the population level (top-down). An alternative approach is indi...

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Veröffentlicht in:Mathematical and computer modelling of dynamical systems 2010-12, Vol.16 (6), p.489-510
Hauptverfasser: Prats, Clara, Ferrer, Jordi, Gras, Anna, Ginovart, Marta
Format: Artikel
Sprache:eng
Schlagworte:
Agricultura
Bacteria
Compost
Compostatge
Composting
Dynamical systems
Enginyeria agroalimentària
Fermentation
Fertilització
Indexing in process
INDISIM
individual-based model
Models matemàtics
Simulation methods
Yeast
Àrees temàtiques de la UPC
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Beschreibung
Zusammenfassung:Controlled microbial activity is the core of many industrial processes. Such dynamic microbial processes must be carefully studied to optimize their application. They are usually tackled by means of continuous mathematical modelling at the population level (top-down). An alternative approach is individual-based modelling (IbM) (bottom-up). INDISIM is a discrete and spatially explicit IbM. It sets the rules that govern each microbe and its interaction with its local environment, as well as the significant environmental processes. Then it performs simulations that include a large number of microbes, and the behaviour of the whole system emerges. The rules are changed to reproduce the behaviour of microbes depending on the system to be studied. Two adaptations of INDISIM to study yeast fermentations and multi-species composting are presented in this article (INDISIM-YEAST and INDISIM-COMP), proof of INDISIM's versatility. A few representative results are also shown.
ISSN:1387-3954
1744-5051
1744-5051
DOI:10.1080/13873954.2010.481809