bibtype C - Conference Paper (international conference)
ARLID 0432206
utime 20240111140851.6
mtime 20141017235959.9
DOI 10.1007/978-3-319-10759-2_29
title (primary) (eng) Modeling and Optimization of Microalgae Growth in Photobioreactors: A Multidisciplinary Problem
specification
page_count 10 s.
media_type P
serial
ARLID cav_un_epca*0432198
ISBN 978-3-319-10758-5
ISSN 2194-7287
title ISCS 2014: Interdisciplinary Symposium on Complex Systems
part_num Part III
page_num 277-286
publisher
place Cham
name Springer
year 2014
editor
name1 Sanayei
name2 A.
editor
name1 Rossler
name2 E. O.
editor
name1 Zelinka
name2 I.
keyword Microalgae
keyword photobioreactor
keyword optimization
keyword multiscale modeling
keyword flashing light effect
author (primary)
ARLID cav_un_auth*0014364
name1 Papáček
name2 Š.
country CZ
author
ARLID cav_un_auth*0314067
name1 Jablonský
name2 J.
country CZ
author
ARLID cav_un_auth*0016460
name1 Petera
name2 K.
country CZ
author
ARLID cav_un_auth*0216347
name1 Rehák
name2 Branislav
full_dept (cz) Teorie řízení
full_dept Department of Control Theory
department (cz)
department TR
institution UTIA-B
full_dept Department of Control Theory
fullinstit Ústav teorie informace a automatizace AV ČR, v. v. i.
author
ARLID cav_un_auth*0100790
name1 Matonoha
name2 Ctirad
full_dept (cz) Oddělení optimalizace a systémů
full_dept Department of Optimization and Systems
institution UIVT-O
full_dept Department of Computational Mathematics
fullinstit Ústav informatiky AV ČR, v. v. i.
source
source_type textový dokument
source_size 733 kB
cas_special
abstract (eng) Microalgae have the potential to be a major biofuel source in the future. Computational biology plays a key role in understanding biological processes within microalgae and optimizing biofuel production. Here, we present a multidisciplinary, multi-timescale modeling approach of microalgae growth in photobioreactors. Our modeling framework bridges biology (cell growth), physics (hydrodynamics and light distribution), and optimization together. This framework consists of (i) the state system (mass balance equations in form of advectiondiffusion- reaction PDEs), (ii) the fluid flow equations (the Navier-Stokes equations), and (iii) the optimization problem formulation. The modeling and optimization of microalgae growth in a Couette-Taylor reactor is presented to demonstrate this method. We show how the flashing light effect can be an intrinsic part of the model. Finally, we discuss further methodological integration with the metabolomic-transcriptomic kinetic model, which explains cellular concentrations of key metabolites in connection with cell growth.
action
ARLID cav_un_auth*0307020
name ISCS 2014: The Interdisciplinary Symposium on Complex Systems
place Florencie
dates 15.09.2014-18.09.2014
country IT
reportyear 2015
RIV BC
num_of_auth 5
mrcbC52 4 O 4o 20231122140445.3
presentation_type PR
mrcbC55 UIVT-O BA
inst_support RVO:67985556
inst_support RVO:67985807
permalink http://hdl.handle.net/11104/0236720
cooperation
ARLID cav_un_auth*0307027
name University of South Bohemia in Ceske Budejovice, FFPW USB, CENAKVA, Institute of Complex Systems
country CZ
confidential S
arlyear 2014
mrcbTft \nSoubory v repozitáři: 0432206.pdf
mrcbU56 textový dokument 733 kB
mrcbU63 cav_un_epca*0432198 ISCS 2014: Interdisciplinary Symposium on Complex Systems Part III 978-3-319-10758-5 2194-7287 277 286 Cham Springer 2014 Library of Congress Control Number: 2014949171 Emergence, Complexity and Computation ECC 14
mrcbU67 Sanayei A. 340
mrcbU67 Rossler E. O. 340
mrcbU67 Zelinka I. 340