Your search keyword '"pentoze"' showing total 5 results

1. Potencijal bakterija za proizvodnju bioetanola iz lignoceluloznih sirovina.

Author

Petravić-Tominac, Vlatka, Tolvajčić, Martina, Stanzer, D., Mrvčić, Jasna, Hanousek Čiča, Karla, and Šantek, B.

Abstract

Copyright of Glasnik Zastite Bilja is the property of Zadruzna Stampa D.D. and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2018

2. Kvasci za proizvodnju bioetanola iz hidrolizata lignoceluloznih sirovina.

Author

Petravić-Tominac, Vlatka, Tolvajčić, Martina, Stanzer, D., Mrvčić, Jasna, and Šantek, B.

Abstract

Copyright of Glasnik Zastite Bilja is the property of Zadruzna Stampa D.D. and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2017

3. Potential of bacteria for bioethanol production from lignocellulosic raw materials

Author

Jasna Mrvčić, Božidar Šantek, Karla Hanousek-Čiča, Damir Stanzer, Martina Tolvajčić, and Vlatka Petravić-Tominac

Subjects

Physics, bioetanol, lignoceluloza, bakterije, heksoze, pentoze, inhibitori, Food science, bioetanol, lignoceluloza, bakterije, heksoze, pentoze, inhibitori, bioethanol, lignocellulose, bacteria, hexoses, pentoses, inhibitors

Abstract

Poljoprivreda, šumarstvo i prehrambena industrija izvori su velike količine lignocelulozne biomase, koja može poslužiti kao lako dostupna i jeftina obnovljiva sirovina za dobivanje različitih bioproizvoda. Jedan od takvih proizvoda je i bioetanol. Ovaj rad daje pregled bakterija koje se koriste i/ili istražuju za proizvodnju bioetanola iz lignoceluloznih sirovina. U navedenim istraživanjima proizvodnje bioetanola pomoću bakterija primijenjuju se različiti pristupi kako bi se povećala ekološka i ekonomska efikasnost procesa. Pored uobičajenih bioprocesa, koji se provode u više faza i uz pomoć monokulture, razvijaju se i visokointegrirani (konsolidirani) bioprocesi uz primjenu mikrobnih kokultura., Agriculture, forestry and food industry are sources of large quantities of lignocellulosic biomass, which can be used as an easily accessible and cheap renewable raw material for production of different bioproducts. One of these bioproducts is also bioethanol. This paper provides an overview of bacteria used and/or investigated for bioethanol production from lignocellulose-containing feedstocks. In the research of bioethanol production using bacteria, various approaches are applied in order to increase ecological and economic efficiency of bioprocess. In addition to conventional multi-stage bioprocesses that are carried out using monoculture, highly integrated (consolidated) bioprocesses and applications of microbial cocultures are also in developing stage.

Published

2018

4. Kvasci za proizvodnju bioetanola iz hidrolizata lignoceluloznih sirovina

Author

Vlatka Petravić Tominac, Martina Tolvajčić, Damir Stanzer, Jasna Mrvčić, and Božidar Šantek

Subjects

bioethanol, lignocellulose, microorganisms, hexoses, pentoses, inhibitors, bioetanol, lignoceluloza, kvasci, heksoze, pentoze, inhibitori

Abstract

Velika količina lignoceluloznog otpada, kojeg čine uglavnom celuloza, hemiceluloza i lignin, nastaje u šumarstvu, poljoprivredi i prehrambenoj industriji. Obzirom na dostupne količine ovih jeftinih i obnovljivih sirovina u Republici Hrvatskoj, važno je razmotriti mogućnosti njihove primjene u proizvodnji bioetanola i raznih drugih biotehnoloških proizvoda. Lignocelulozni hidrolizati su složene smjese heksoza i pentoza te drugih spojeva od kojih neki mogu djelovati kao inhibitori fermentacije. U ovom radu dan je pregled kvasaca koji se koriste i/ili istražuju za proizvodnju etanola iz lignoceluloznih hidrolizata., Huge amounts of lignocellulosic waste, consisting mainly of cellulose, hemicellulose and lignin, are ge- nerated through forestry, agriculture and food industry. Given the available amount of these cheap and renewable raw materials in the Republic of Croatia, it is important to consider the possibility of their conversion into ethanol and other biotechnological products. Lignocellulosic hydrolysates are complex mixtures of hexoses, pentoses and other compounds, some of which may act as fermentation inhibitors. This paper reviews yeast strains that are used and/or studied for ethanol production by fermentation of lignocellulosic hydrolyzates.

Published

2017

5. Mikroorganizmi za fermentaciju lignoceluloznih hidrolizata

Author

Tolvajčić, Martina and Petravić Tominac, Vlatka

Subjects

pentoses, heksoze, lignocellulose, mikroorganizmi, BIOTEHNIČKE ZNANOSTI. Biotehnologija, hexoses, pentoze, microorganisms, lignoceluloza, BIOTECHNICAL SCIENCES. Biotechnology

Abstract

Velika količina lignoceluloznog otpada, kojeg čine uglavnom celuloza, hemiceluloza i lignin, nastaju u šumarstvu, poljoprivredi i prehrambenoj industriji. Lignoceluloza je jeftina, ali i kompleksna obnovljiva sirovina koja se može prevesti u razne visokovrijedne biotehnološke proizvode. Da bi se iskoristio potencijal lignoceluloze potrebno je primijeniti prikladne metode predobrade. Lignocelulozni hidrolizati su složene smjese heksoza i pentoza te drugih spojeva od kojih neki mogu djelovati kao inhibitori fermentacije. Optimalni radni mikroorganizam trebao bi fermentirati pentoze i heksoze pri čemu se preferira da ih troši istodobno. Također bi trebao imati visoku toleranciju prema inhibitorima i produktima fermentacije, biti otporan na mikrobiološke kontaminacije te postizati visoku produktivnost i prinos proizvoda. Uz to, trebao bi tolerirati visoke temperature i niske pH-vrijednosti kako bi se smanjio rizik od kontaminacije. Poželjno je da radni mikroorganizam posjeduje i izlučuje celulolitičke i hemicelulolitičke enzime. Ova svojstva mogu biti prirodno prisutna u mikroorganizmu ili se mogu postići primjenom metoda genetičkog inženjerstva. U ovom radu dan je pregled prokariotskih i eukariotskih mikroorganizama koji su istraživani za dobivanje etanola, ali i nekih drugih ekonomski važnih proizvoda koji se mogu dobiti biotehnološkom preradom lignoceluloznih sirovina. Huge amounts of lignocellulosic waste, consisting mainly of cellulose, hemicellulose and lignin, are generated through forestry, agriculture and food industry. Lignocellulose is a cheap but complex renewable raw material that can potentially be converted into various value-added biotechnological products. In order to exploit lignocellulose potential, it is necessary to implement appropriate pretreatment methods. Lignocellulosic hydrolysates are complex mixtures of hexoses, pentoses and other compounds, some of which may act as inhibitors of fermentation. Optimal working microorganism should ferment pentoses and hexoses, which should be preferentially simultaneously consumed. It should also have a high tolerance to inhibitors and fermentation products, to be resistant to microbiological contamination as well as to achieve a high productivity and high product yields. In addition, it should tolerate high temperatures and low pH-values in order to reduce the risk of contamination. It is also desirable for working microorganism to produce and secrete cellulolytic and hemicellulolytic enzymes. These properties can be naturally present in the microorganism or can be achieved by using genetic engineering methods. This paper gives an overview of prokaryotic and eukaryotic microorganisms which have been investigated for production of ethanol as well as other economically important products which can be obtained by biotechnological processing of lignocellulosic raw materials.

Published

2016