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Model-based design of continuous biotransformation in a microscale bioreactor with yeast cells immobilized in a hydrogel film : research data underlying the article
ID
Menegatti, Tadej
(
Avtor
),
ID
Plazl, Igor
(
Avtor
),
ID
Žnidaršič Plazl, Polona
(
Avtor
)
XLSX - Raziskovalni podatki,
prenos
(131,90 KB)
MD5: C93BA9CBDC040A9A8F128750EDDBA3DD
Opis: biomicroreactor_excel_file
PDF - Raziskovalni podatki,
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(170,62 KB)
MD5: 910067F5F640C9E6DFA7693B6F2A1529
Opis: diffussion_hplc_report
XLSX - Raziskovalni podatki,
prenos
(219,53 KB)
MD5: D736460DE62E67F66796ED8BA22F62FB
Opis: effective-diffusivity_+_liquid-diffusivity_may-2020
To gradivo ima še več datotek. Celoten seznam je na voljo
spodaj
.
Galerija slik
Izvleček
Miniaturized flow reactors with immobilized biocatalysts offer enormous potential for process intensification. They enable long-term use of biocatalysts, continuous operation that significantly exceeds the performance of batch processes, and efficient mass and heat transfer leading to highly controlled reaction conditions. Despite their increasing use in biocatalytic processes, optimization of reactor design and operating conditions based on a mathematical description is very rare. This work aims to fill this gap by developing and validating a mathematical model for the continuous biotransformation process in a microreactor between two plates with immobilized whole cells in hydrogel layers on the bottom and top of the reactor. A biocatalytic production of L-malic acid by fumaric acid hydration using permeabilized Saccharomyces cerevisiae whole cells was used as a model reaction. The diffusivity of substrate and product in a liquid phase and in a copolymer hydrogel layer, as well as the reaction kinetic parameters considering the Michaelis-Menten kinetics of the reversible enzymatic reaction, were estimated in initial batch experiments. The results obtained in a continuously operated microbioreactor with immobilized whole cells at different fumaric acid concentrations and flow rates were in excellent agreement with the predictions of the developed mathematical model encompassing transport phenomena and reaction kinetics. Based on the validated model and using time scale analysis with characteristic times, the optimal process and operating conditions for the developed microbioreactor system were determined. By reducing the channel thickness to 200 um and increasing the gel thickness to 900 microns, we were able to increase the complete conversion of the substrate with a residence time of less than 40 minutes.
Jezik:
Angleški jezik
Ključne besede:
microreactor
,
mathematical model
,
immobilization
,
whole-cell biocatalysis
,
continuous biotransformation
,
time-scale analysis
Organizacija:
FKKT - Fakulteta za kemijo in kemijsko tehnologijo
Leto izida:
2023
PID:
20.500.12556/RUL-151814
Metode zbir. podat.:
Meritve in testi
Datum objave v RUL:
20.10.2023
Število ogledov:
816
Število prenosov:
166
Metapodatki:
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Licence
Licenca:
CC BY 4.0, Creative Commons Priznanje avtorstva 4.0 Mednarodna
Povezava:
http://creativecommons.org/licenses/by/4.0/deed.sl
Opis:
To je standardna licenca Creative Commons, ki daje uporabnikom največ možnosti za nadaljnjo uporabo dela, pri čemer morajo navesti avtorja.
Sekundarni jezik
Jezik:
Slovenski jezik
Ključne besede:
mikroreaktor
,
matematični model
,
imobilizacija
,
biokataliza s celimi celicami
,
kontinuirna biotransformacija
,
time-scale analiza
Projekti
Financer:
ARRS - Agencija za raziskovalno dejavnost Republike Slovenije
Številka projekta:
P2-0191
Naslov:
Kemijsko inženirstvo
Financer:
ARRS - Agencija za raziskovalno dejavnost Republike Slovenije
Številka projekta:
J4-4562
Naslov:
Intenzifikacija biokatalitskih procesov z uporabo evtektičnih topil v mikropretočnih sistemih za trajnostno valorizacijo odpadkov - BioInDES
Financer:
ARRS - Agencija za raziskovalno dejavnost Republike Slovenije
Program financ.:
Young Researchers
Financer:
EC - European Commission
Program financ.:
H2020
Številka projekta:
811040
Naslov:
Chair Of Micro Process Engineering and TEchnology
Akronim:
COMPETE
Financer:
Drugi - Drug financer ali več financerjev
Program financ.:
M-ERA.NET
Številka projekta:
337610
Naslov:
Neoteric Biomaterials for hIPSCs Monitorized Differentiation to RGCs: Creation, Microfabrication & Microfluidics
Akronim:
Biomat4eye
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