A Friendly-Biological Reactor SIMulator (BioReSIM) for studying biological processes in wastewater treatment processes

<p>Biological processes for wastewater treatments are inherently dynamic systems because of the large variations in the influent wastewater flow rate, concentration composition and the adaptive behavior of the involved microorganisms. Moreover, the sludge retention time (SRT) is a critical fac...

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Main Authors: Raul Molina, M. Isabel Pariente, Ioanna Vasiliadou, Ivan Rodriguez, Fernando Martinez, Juan Antonio Melero
Format: Article
Language:Catalan
Published: Servei de Formació Permanent i Innovació Educativa, Universitat de València 2014-12-01
Series:@tic: Revista d'Innovació Educativa
Subjects:
Online Access:https://ojs.uv.es/index.php/attic/article/view/3886
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spelling doaj-697a94de9c6a49bd900b901b0700b86a2020-11-24T22:31:16ZcatServei de Formació Permanent i Innovació Educativa, Universitat de València@tic: Revista d'Innovació Educativa1989-34772014-12-0101310411310.7203/attic.13.38863488A Friendly-Biological Reactor SIMulator (BioReSIM) for studying biological processes in wastewater treatment processesRaul Molina0M. Isabel Pariente1Ioanna Vasiliadou2Ivan Rodriguez3Fernando Martinez4Juan Antonio Melero5Universidad Rey Juan CarlosUniversidad Rey Juan CarlosUniversidad Rey Juan CarlosUniversidad Rey Juan CarlosUniversidad Rey Juan CarlosUniversidad Rey Juan Carlos<p>Biological processes for wastewater treatments are inherently dynamic systems because of the large variations in the influent wastewater flow rate, concentration composition and the adaptive behavior of the involved microorganisms. Moreover, the sludge retention time (SRT) is a critical factor to understand the bioreactor performances when changes in the influent or in the operation conditions take place. Since SRT are usually in the range of 10-30 days, the performance of biological reactors needs a long time to be monitored in a regular laboratory demonstration, limiting the knowledge that can be obtained in the experimental lab practice. In order to overcome this lack, mathematical models and computer simulations are useful tools to describe biochemical processes and predict the overall performance of bioreactors under different working operation conditions and variations of the inlet wastewater composition. The mathematical solution of the model could be difficult as numerous biochemical processes can be considered. Additionally, biological reactors description (mass balance, etc.) needs models represented by partial or/and ordinary differential equations associated to algebraic expressions, that require complex computational codes to obtain the numerical solutions. Different kind of software for mathematical modeling can be used, from large degree of freedom simulators capable of free models definition (as AQUASIM), to closed predefined model structure programs (as BIOWIN). The first ones usually require long learning curves, whereas the second ones could be excessively rigid for specific wastewater treatment systems. As alternative, we present <strong><em>Bio</em></strong><em>logical <strong>Re</strong>actor <strong>SIM</strong>ulator (BioReSIM),</em> a <em>MATLAB</em> code for the simulation of sequencing batch reactors (SBR) and rotating biological contactors (RBC) as biological systems of suspended and attached biomass for wastewater treatment, respectively. This <em>BioReSIM</em> allows the evaluation of simple and complex kinetic biological models, as well as operational conditions of the bioreactors through a friendly and graphic user interface, avoiding the development of complex codes.</p> <p> </p>https://ojs.uv.es/index.php/attic/article/view/3886Mathematical modeling, Wastewater treatment, Sequencing Batch Reactor, Rotating Biological Contactors
collection DOAJ
language Catalan
format Article
sources DOAJ
author Raul Molina
M. Isabel Pariente
Ioanna Vasiliadou
Ivan Rodriguez
Fernando Martinez
Juan Antonio Melero
spellingShingle Raul Molina
M. Isabel Pariente
Ioanna Vasiliadou
Ivan Rodriguez
Fernando Martinez
Juan Antonio Melero
A Friendly-Biological Reactor SIMulator (BioReSIM) for studying biological processes in wastewater treatment processes
@tic: Revista d'Innovació Educativa
Mathematical modeling, Wastewater treatment, Sequencing Batch Reactor, Rotating Biological Contactors
author_facet Raul Molina
M. Isabel Pariente
Ioanna Vasiliadou
Ivan Rodriguez
Fernando Martinez
Juan Antonio Melero
author_sort Raul Molina
title A Friendly-Biological Reactor SIMulator (BioReSIM) for studying biological processes in wastewater treatment processes
title_short A Friendly-Biological Reactor SIMulator (BioReSIM) for studying biological processes in wastewater treatment processes
title_full A Friendly-Biological Reactor SIMulator (BioReSIM) for studying biological processes in wastewater treatment processes
title_fullStr A Friendly-Biological Reactor SIMulator (BioReSIM) for studying biological processes in wastewater treatment processes
title_full_unstemmed A Friendly-Biological Reactor SIMulator (BioReSIM) for studying biological processes in wastewater treatment processes
title_sort friendly-biological reactor simulator (bioresim) for studying biological processes in wastewater treatment processes
publisher Servei de Formació Permanent i Innovació Educativa, Universitat de València
series @tic: Revista d'Innovació Educativa
issn 1989-3477
publishDate 2014-12-01
description <p>Biological processes for wastewater treatments are inherently dynamic systems because of the large variations in the influent wastewater flow rate, concentration composition and the adaptive behavior of the involved microorganisms. Moreover, the sludge retention time (SRT) is a critical factor to understand the bioreactor performances when changes in the influent or in the operation conditions take place. Since SRT are usually in the range of 10-30 days, the performance of biological reactors needs a long time to be monitored in a regular laboratory demonstration, limiting the knowledge that can be obtained in the experimental lab practice. In order to overcome this lack, mathematical models and computer simulations are useful tools to describe biochemical processes and predict the overall performance of bioreactors under different working operation conditions and variations of the inlet wastewater composition. The mathematical solution of the model could be difficult as numerous biochemical processes can be considered. Additionally, biological reactors description (mass balance, etc.) needs models represented by partial or/and ordinary differential equations associated to algebraic expressions, that require complex computational codes to obtain the numerical solutions. Different kind of software for mathematical modeling can be used, from large degree of freedom simulators capable of free models definition (as AQUASIM), to closed predefined model structure programs (as BIOWIN). The first ones usually require long learning curves, whereas the second ones could be excessively rigid for specific wastewater treatment systems. As alternative, we present <strong><em>Bio</em></strong><em>logical <strong>Re</strong>actor <strong>SIM</strong>ulator (BioReSIM),</em> a <em>MATLAB</em> code for the simulation of sequencing batch reactors (SBR) and rotating biological contactors (RBC) as biological systems of suspended and attached biomass for wastewater treatment, respectively. This <em>BioReSIM</em> allows the evaluation of simple and complex kinetic biological models, as well as operational conditions of the bioreactors through a friendly and graphic user interface, avoiding the development of complex codes.</p> <p> </p>
topic Mathematical modeling, Wastewater treatment, Sequencing Batch Reactor, Rotating Biological Contactors
url https://ojs.uv.es/index.php/attic/article/view/3886
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