Immobilization of yeast cells in small alginate beads using electrostatic droplet generation
Primena postupka elektrostatičke ekstruzije pri dobijanju alginatnih čestica malih dimenzija sa imobilisanim ćelijama pivskog kvasca

2000
Authors
Nedović, Viktor
Leskošek-Čukalović, Ida
Trifunović, Olivera
Pešić, Radojica
Bugarski, Branko

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In beer brewing with immobilized yeast cells it is very important to minimize the mass transfer resistance, problem associated with large diameter beads, because the mass transfer limitations may force the cells to alter their metabolic states and thus, impact the efficiency of fermentation process and quality of final beer. Internal mass transfer can be optimized by adjusting the immobilization matrix size, texture and porosity. The classical dripping method, that is commonly used to produce gel beads, has a limitation in the large diameter of the produced beads, which is typically 2 to 3 mm. In recent time other techniques have been developed to produce smaller particles of equal size. The major objective of this study was to optimize the bead size by using the new technique, electrostatic droplet generation. We have obtained promising results since in this way it was possible to produce very small uniform microbeads (in the diameter range of several hundreds of micrometers to 2 mm) ...under stable conditions. The size of beads was strongly influenced by applied potential, needle size and electrode distance.
Pri primeni imobilisanih ćelija kvasca u fermentaciji piva važno je, kako sa aspekta produktivnosti sistema, tako i sa aspekta hemijskog sastava piva, da se otpori prenosu mase supstrata i proizvoda metabolizma ćelija unutar matrice nosača svedu na najmanju moguću meru. Ovo se može postići podešavanjem veličine, teksture i poroznosti matrice nosača. Obzirom da klasična tehnika imobilizacije kvasca u matrici Ca-alginata daje čestice većih dimenzija (prečnika od 2 do 3 mm), danas je razvijeno vise različitih tehnika koje pružaju mogućnost dobijanja čestica malih dimenzija. Jedna od novih tehnika, čije su mogućnosti primene u cilju optimizacije veličine alginatnih čestica ispitivane u sklopu ovog istraživanja, je postupak elektrostatičke ekstruzije. Dobijeni rezultati su pokazali daje primenom ove tehnike moguće dobiti kontrolisanu i stabilnu proizvodnju mikro čestica uniformne veličine, čiji se prečnik kretao u rasponu od nekoliko stotina mikrometara do 2 mm, u zavisnosti od primenjene r...azlike potencijala, prečnika igle i rastojanja između elektroda.
Keywords:
imobilizacija / pivski kvasac / elektrostatička ekstruzija / mikročestice / alginatSource:
Acta periodica technologica, 2000, 31, 591-597Publisher:
- Univerzitet u Novom Sadu - Tehnološki fakultet, Novi Sad
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Poljoprivredni fakultetTY - JOUR AU - Nedović, Viktor AU - Leskošek-Čukalović, Ida AU - Trifunović, Olivera AU - Pešić, Radojica AU - Bugarski, Branko PY - 2000 UR - http://aspace.agrif.bg.ac.rs/handle/123456789/172 AB - In beer brewing with immobilized yeast cells it is very important to minimize the mass transfer resistance, problem associated with large diameter beads, because the mass transfer limitations may force the cells to alter their metabolic states and thus, impact the efficiency of fermentation process and quality of final beer. Internal mass transfer can be optimized by adjusting the immobilization matrix size, texture and porosity. The classical dripping method, that is commonly used to produce gel beads, has a limitation in the large diameter of the produced beads, which is typically 2 to 3 mm. In recent time other techniques have been developed to produce smaller particles of equal size. The major objective of this study was to optimize the bead size by using the new technique, electrostatic droplet generation. We have obtained promising results since in this way it was possible to produce very small uniform microbeads (in the diameter range of several hundreds of micrometers to 2 mm) under stable conditions. The size of beads was strongly influenced by applied potential, needle size and electrode distance. AB - Pri primeni imobilisanih ćelija kvasca u fermentaciji piva važno je, kako sa aspekta produktivnosti sistema, tako i sa aspekta hemijskog sastava piva, da se otpori prenosu mase supstrata i proizvoda metabolizma ćelija unutar matrice nosača svedu na najmanju moguću meru. Ovo se može postići podešavanjem veličine, teksture i poroznosti matrice nosača. Obzirom da klasična tehnika imobilizacije kvasca u matrici Ca-alginata daje čestice većih dimenzija (prečnika od 2 do 3 mm), danas je razvijeno vise različitih tehnika koje pružaju mogućnost dobijanja čestica malih dimenzija. Jedna od novih tehnika, čije su mogućnosti primene u cilju optimizacije veličine alginatnih čestica ispitivane u sklopu ovog istraživanja, je postupak elektrostatičke ekstruzije. Dobijeni rezultati su pokazali daje primenom ove tehnike moguće dobiti kontrolisanu i stabilnu proizvodnju mikro čestica uniformne veličine, čiji se prečnik kretao u rasponu od nekoliko stotina mikrometara do 2 mm, u zavisnosti od primenjene razlike potencijala, prečnika igle i rastojanja između elektroda. PB - Univerzitet u Novom Sadu - Tehnološki fakultet, Novi Sad T2 - Acta periodica technologica T1 - Immobilization of yeast cells in small alginate beads using electrostatic droplet generation T1 - Primena postupka elektrostatičke ekstruzije pri dobijanju alginatnih čestica malih dimenzija sa imobilisanim ćelijama pivskog kvasca EP - 597 IS - 31 SP - 591 UR - https://hdl.handle.net/21.15107/rcub_agrospace_172 ER -
@article{ author = "Nedović, Viktor and Leskošek-Čukalović, Ida and Trifunović, Olivera and Pešić, Radojica and Bugarski, Branko", year = "2000", abstract = "In beer brewing with immobilized yeast cells it is very important to minimize the mass transfer resistance, problem associated with large diameter beads, because the mass transfer limitations may force the cells to alter their metabolic states and thus, impact the efficiency of fermentation process and quality of final beer. Internal mass transfer can be optimized by adjusting the immobilization matrix size, texture and porosity. The classical dripping method, that is commonly used to produce gel beads, has a limitation in the large diameter of the produced beads, which is typically 2 to 3 mm. In recent time other techniques have been developed to produce smaller particles of equal size. The major objective of this study was to optimize the bead size by using the new technique, electrostatic droplet generation. We have obtained promising results since in this way it was possible to produce very small uniform microbeads (in the diameter range of several hundreds of micrometers to 2 mm) under stable conditions. The size of beads was strongly influenced by applied potential, needle size and electrode distance., Pri primeni imobilisanih ćelija kvasca u fermentaciji piva važno je, kako sa aspekta produktivnosti sistema, tako i sa aspekta hemijskog sastava piva, da se otpori prenosu mase supstrata i proizvoda metabolizma ćelija unutar matrice nosača svedu na najmanju moguću meru. Ovo se može postići podešavanjem veličine, teksture i poroznosti matrice nosača. Obzirom da klasična tehnika imobilizacije kvasca u matrici Ca-alginata daje čestice većih dimenzija (prečnika od 2 do 3 mm), danas je razvijeno vise različitih tehnika koje pružaju mogućnost dobijanja čestica malih dimenzija. Jedna od novih tehnika, čije su mogućnosti primene u cilju optimizacije veličine alginatnih čestica ispitivane u sklopu ovog istraživanja, je postupak elektrostatičke ekstruzije. Dobijeni rezultati su pokazali daje primenom ove tehnike moguće dobiti kontrolisanu i stabilnu proizvodnju mikro čestica uniformne veličine, čiji se prečnik kretao u rasponu od nekoliko stotina mikrometara do 2 mm, u zavisnosti od primenjene razlike potencijala, prečnika igle i rastojanja između elektroda.", publisher = "Univerzitet u Novom Sadu - Tehnološki fakultet, Novi Sad", journal = "Acta periodica technologica", title = "Immobilization of yeast cells in small alginate beads using electrostatic droplet generation, Primena postupka elektrostatičke ekstruzije pri dobijanju alginatnih čestica malih dimenzija sa imobilisanim ćelijama pivskog kvasca", pages = "597-591", number = "31", url = "https://hdl.handle.net/21.15107/rcub_agrospace_172" }
Nedović, V., Leskošek-Čukalović, I., Trifunović, O., Pešić, R.,& Bugarski, B.. (2000). Immobilization of yeast cells in small alginate beads using electrostatic droplet generation. in Acta periodica technologica Univerzitet u Novom Sadu - Tehnološki fakultet, Novi Sad.(31), 591-597. https://hdl.handle.net/21.15107/rcub_agrospace_172
Nedović V, Leskošek-Čukalović I, Trifunović O, Pešić R, Bugarski B. Immobilization of yeast cells in small alginate beads using electrostatic droplet generation. in Acta periodica technologica. 2000;(31):591-597. https://hdl.handle.net/21.15107/rcub_agrospace_172 .
Nedović, Viktor, Leskošek-Čukalović, Ida, Trifunović, Olivera, Pešić, Radojica, Bugarski, Branko, "Immobilization of yeast cells in small alginate beads using electrostatic droplet generation" in Acta periodica technologica, no. 31 (2000):591-597, https://hdl.handle.net/21.15107/rcub_agrospace_172 .