Your search keyword '"Mladen Pavlečić"' showing total 20 results

1. Development of an Integrated Bioprocess System for Bioethanol and Arabitol Production from Sugar Beet Cossettes

Author

Mario Novak, Nenad Marđetko, Antonija Trontel, Mladen Pavlečić, Zora Kelemen, Lucija Perković, Vlatka Petravić Tominac, and Božidar Šantek

Subjects

sugar beet cossettes, acid pretreatment, bioethanol, arabitol, integrated bioprocess system, biorefinery concept, Biotechnology, TP248.13-248.65, Food processing and manufacture, TP368-456

Abstract

Research background. An innovative integrated bioprocess system for bioethanol production from raw sugar beet cossettes (SBC) and arabitol from remaining exhausted sugar beet cossettes (ESBC) was studied. This integrated three-stage bioprocess system is an example of the biorefinery concept to maximise the use of raw SBC for the production of high value-added products such as sugar alcohols and bioethanol. Experimental approach. The first stage of the integrated bioprocess system was simultaneous sugar extraction from SBC and its alcoholic fermentation to produce bioethanol in an integrated bioreactor system (vertical column bioreactor and stirred tank bioreactor) containing a high-density suspension of yeast Saccharomyces cerevisiae (30 g/L). The second stage was the pretreatment of ESBC with dilute sulfuric acid to release fermentable sugars. The resulting liquid hydrolysate of ESBC was used in the third stage as a nutrient medium for arabitol production by non-Saccharomyces yeasts (Spathaspora passalidarum CBS 10155 and Spathaspora arborariae CBS 11463). Results and conclusions. The obtained results show that the efficiency of bioethanol production increased with increasing temperature and prolonged residence time in the integrated bioreactor system. The maximum bioethanol production efficiency (87.22 %) was observed at a time of 60 min and a temperature of 36 °C. Further increase in residence time (above 60 min) did not result in the significant increase of bioethanol production efficiency. Weak acid hydrolysis was used for ESBC pretreatment and the highest sugar yield was reached at 200 °C and residence time of 1 min. The inhibitors of the weak acid pretreatment were produced below bioprocess inhibition threshold. The use of the obtained liqiud phase of ESBC hydrolysate for the production of arabitol in the stirred tank bioreactor under constant aeration clearly showed that S. passalidarum CBS 10155 with 8.48 g/L of arabitol (YP/S=0.603 g/g and bioprocess productivity of 0.176 g/(L.h)) is a better arabitol producer than Spathaspora arborariae CBS 10155. Novelty and scientific contribution. An innovative integrated bioprocess system for the production of bioethanol and arabitol was developed based on the biorefinery concept. This three-stage bioprocess system shows great potential for maximum use of SBC as a feedstock for bioethanol and arabitol production and it could be an example of a sustainable ‘zero waste’ production system.

Published

2024

2. The Production of Water Kefir Drink with the Addition of Dried Figs in the Horizontal Rotating Tubular Bioreactor

Author

Mladen Pavlečić, Mario Novak, Antonija Trontel, Nenad Marđetko, Vlatka Petravić Tominac, Ana Dobrinčić, Monika Kralj, and Božidar Šantek

Subjects

water kefir production, functional drink, horizontal rotating tubular bioreactor (HRTB), dried fruits addition, Chemical technology, TP1-1185

Abstract

Water kefir is a product obtained through the fermentation of sucrose solution, usually with some kind of dried fruit addition, by a combined culture of micro-organisms which are contained within kefir grains. Its popularity is rising because of the simplicity of its preparation and its anti-inflammatory, antioxidant, probiotic, and antibacterial effects. In this research, the water kefir production was studied in 250 mL jars, as well as in a horizontal rotating tubular bioreactor (HRTB). The first part of the research was conducted in smaller-scale (jars), wherein the optimal fruit and fruit portions were determined. These experiments included the addition of dried plums, apricots, raisins, dates, cranberries, papaya, and figs into 150 mL of initial sugar solution. Also, the optimal ratio between dried fruit and sucrose solution (0.2) at the beginning of the bioprocess was determined. The second part of this research was conducted using HRTB. The experiments in the HRTB were carried out by using different operational modes (constant or interval bioreactor rotation). A total of six different bioreactor setups were used, and in all experiments, figs were added at the beginning of the bioprocess (0.2 ratio between dried figs and sucrose solution). On the basis of the obtained results, the interval bioreactor rotation mode proved to be the better HRTB mode for the production of the water kefir, as the yield of the main fermentation products was higher, and their ratios were the most adequate for the quality of water kefir drink. The optimal results were obtained via HRTB setup 3/57 (3 min rotation, 57 min pause within 1 h) and rotation speed of 3 rpm. Furthermore, it is clear that HRTB has great potential for water kefir production due to the fact that HRTB experiments showed shorter fermentation times (at least five times) than water kefir production in jars.

Published

2024

3. Pozitivni društveno-ekonomski i ekološki učinci proizvodnje bioplina anaerobnom digestijom

Author

Vlatka Petravić Tominac, Mario Novak, Antonija Trontel, Mladen Pavlečić, Nenad Marđetko, Marina Grubišić, Blanka Didak Ljubas, Karla Miličević, and Božidar Šantek

Subjects

anaerobna digestija, anaerobni digestor, bioplin, obnovljivi izvori energije, Plant ecology, QK900-989, Agriculture

Abstract

Glavni proizvod anaerobne digestije je bioplin, koji je obnovljivo gorivo, a sporedni proizvod ovog procesa je digestat, koji se koristi kao gnojivo bogato hranjivim tvarima. Dodatni pozitivni učinci anaerobne digestije su razgradnja organskog otpada te smanjenje neugodnih mirisa i koncentracije patogenih mikroorganizama. Bioplin se uglavnom koristi za proizvodnju električne energije i topline, a u nekim slučajevima se pročišćava da bi se dobio biometan koji se koristi u mreži prirodnog plina, kao gorivo za motore s unutarnjim sagorijevanjem ili kao polazna kemikalija za kemijsku industriju. Zbog svega navedenog, razvoj proizvodnje bioplina ima pozitivne društveno-ekonomske i ekološke učinke. Bioplin proizveden u Hrvatskoj većinom se koristi za proizvodnju električne i toplinske energije u kogeneracijskim postrojenjima. Iako su u Hrvatskoj dostupne različite obnovljive sirovine koje bi se mogle iskoristiti za proizvodnju bioplina, njihov je potencijal do sada bio nedovoljno iskorišten. Kao sirovine za proizvodnju bioplina u nas se pretežno koriste gnojovka i nusproizvodi poljoprivrede, klaonica i prehrambene industrije. Racionalnijim korištenjem zemljišta i razvojem prehrambene industrije mogla bi se povećati količina poljoprivrednih ostataka i nusproizvoda koji nastaju preradom hrane. Usmjeravanjem i poticanjem korištenja ovih nusproizvoda za anaerobnu digestiju može se stimulirati brži razvoj proizvodnje bioplina u Hrvatskoj. Pored mogućeg povećanja vlastite proizvodnje električne energije i goriva, radi se o ekološki povoljnoj tehnologiji koja ima pozitivan društveno-ekonomski učinak.

Published

2023

4. Positive socio-economic and ecological effects of biogas production by anaerobic digestion

Author

Vlatka Petravić Tominac, Mario Novak, Antonija Trontel, Mladen Pavlečić, Nenad Marđetko, Marina Grubišić, Blanka Didak Ljubas, Karla Miličević, and Božidar Šantek

Subjects

anaerobic digestion, anaerobic digester, biogas, renewable energy sources, Plant ecology, QK900-989, Agriculture

Abstract

The main product of anaerobic digestion is biogas, which is a renewable fuel, and the by-product of this process is digestate, which is used as a nutrient-rich fertilizer. Additional positive effects of anaerobic digestion are the decomposition of organic waste and the reduction of unpleasant odors and the concentration of pathogenic microorganisms. Biogas is mainly used for the production of electricity and heat, and in some cases it is purified to obtain biomethane which is used in the natural gas network, as a fuel for internal combustion engines or as a starting chemical for the chemical industry. Due to all of the above, the development of biogas production has positive socio-economic and ecological effects. Biogas produced in Croatia is mostly used for the production of electricity and thermal energy at cogeneration plants. Although various renewable raw materials are available in Croatia that could be used for biogas production, their potential has been underutilized until now. Manure and by-products of agriculture, slaughterhouses and the food industry are mainly used as raw materials for the production of biogas in our country. More rational use of land and development of the food industry could increase the amount of agricultural residues and by-products resulting from food processing. Directing and encouraging the use of these by-products for biogas production can stimulate a faster development of biogas production in our Croatia. In addition to the possible increase in own production of electricity and fuel, it is an environmentally friendly technology that has a positive socio-economic effect.

Published

2023

5. Production of Different Biochemicals by Paenibacillus polymyxa DSM 742 From Pretreated Brewers’ Spent Grains

Author

Blanka Didak Ljubas, Mario Novak, Antonija Trontel, Ana Rajković, Zora Kelemen, Nenad Marđetko, Marina Grubišić, Mladen Pavlečić, Vlatka Petravić Tominac, and Božidar Šantek

Subjects

Paenibacillus polymyxa DSM 742, biochemicals, 2,3-butanediol, lactate, brewers’ spent grains, Microbiology, QR1-502

Abstract

Brewers’ spent grains (BSG) are a by-product of the brewing industry that is mainly used as feedstock; otherwise, it has to be disposed according to regulations. Due to the high content of glucose and xylose, after pretreatment and hydrolysis, it can be used as a main carbohydrate source for cultivation of microorganisms for production of biofuels or biochemicals like 2,3-butanediol or lactate. 2,3-Butanediol has applications in the pharmaceutical or chemical industry as a precursor for varnishes and paints or in the food industry as an aroma compound. So far, Klebsiella pneumoniae, Serratia marcescens, Clostridium sp., and Enterobacter aerogenes are being used and investigated in different bioprocesses aimed at the production of 2,3-butanediol. The main drawback is bacterial pathogenicity which complicates all production steps in laboratory, pilot, and industrial scales. In our study, a gram-positive GRAS bacterium Paenibacillus polymyxa DSM 742 was used for the production of 2,3-butanediol. Since this strain is very poorly described in literature, bacterium cultivation was performed in media with different glucose and/or xylose concentration ranges. The highest 2,3-butanediol concentration of 18.61 g l–1 was achieved in medium with 70 g l–1 of glucose during 40 h of fermentation. In contrast, during bacterium cultivation in xylose containing medium there was no significant 2,3-butanediol production. In the next stage, BSG hydrolysates were used for bacterial cultivation. P. polymyxa DSM 742 cultivated in the liquid phase of pretreated BSG produced very low 2,3-butanediol and ethanol concentrations. Therefore, this BSG hydrolysate has to be detoxified in order to remove bacterial growth inhibitors. After detoxification, bacterium cultivation resulted in 30 g l–1 of lactate, while production of 2,3-butanediol was negligible. The solid phase of pretreated BSG was also used for bacterium cultivation after its hydrolysis by commercial enzymes. In these cultivations, P. polymyxa DSM 742 produced 9.8 g l–1 of 2,3-butanediol and 3.93 g l–1 of ethanol. On the basis of the obtained results, it can be concluded that different experimental setups give the possibility of directing the metabolism of P. polymyxa DSM 742 toward the production of either 2,3-butanediol and ethanol or lactate.

Published

2022

6. Mathematical Modelling of Bioethanol Production from Raw Sugar Beet Cossettes in a Horizontal Rotating Tubular Bioreactor

Author

Mladen Pavlečić, Mario Novak, Antonija Trontel, Nenad Marđetko, Marina Grubišić, Blanka Didak Ljubas, Vlatka Petravić Tominac, Rozelindra Čož Rakovac, and Božidar Šantek

Subjects

bioethanol, sugar beet cossettes, horizontal rotating tubular bioreactor, mathematical modelling, Andrews model, Fermentation industries. Beverages. Alcohol, TP500-660

Abstract

Alternative to the use of fossil fuels are biofuels (e.g., bioethanol, biodiesel and biogas), which are more environmentally friendly and which can be produced from different renewable resources. In this investigation, bioethanol production from raw sugar beet cossettes (semi-solid substrate) by yeast Saccharomyces cerevisiae in a horizontal rotating tubular bioreactor (HRTB) was studied. Obtained results show that HRTB rotation mode (constant or interval) and rotation speed have considerable impact on the efficiency of bioethanol production in the HRTB. The main goal of this research was to develop a non-structural mathematical model of bioethanol production from raw sugar beet cossettes in the HRTB. The established mathematical model of bioethanol production in the HRTB describes substrate utilization and product formation (glycerol, ethanol and acetate) and presumes negative impact of high substrate concentration on the working microorganism (substrate inhibition) by using Andrews inhibition kinetics. All simulations of bioethanol production in the HRTB were performed by using Berkeley Madonna software, version 8.3.14 (Berkeley Madonna, Berkeley, CA, USA). The established non-structural bioprocess model describes relatively well the bioethanol production from raw sugar beet cossettes in the HRTB.

Published

2021

7. Screening of Lignocellulolytic Enzyme Activities in Fungal Species and Sequential Solid-State and Submerged Cultivation for the Production of Enzyme Cocktails

Author

Nenad Marđetko, Antonija Trontel, Mario Novak, Mladen Pavlečić, Blanka Didak Ljubas, Marina Grubišić, Vlatka Petravić Tominac, Roland Ludwig, and Božidar Šantek

Subjects

different fungal species, lignocellulolytic enzymes, Fusarium sp., pretreated corn cobs, sequential solid state and submerged cultivation, single and mixed fungal species cultivation, Organic chemistry, QD241-441

Abstract

Various fungal species can degrade lignocellulolytic materials with their enzyme cocktails composed of cellulolytic and lignolytic enzymes. In this work, seven fungal species (Mucor indicus DSM 2185, Paecilomyces variotii CBS 372.70, Myceliophthora thermophila CBS 663.74, Thielavia terrestris CBS 456.75, Botryosphaeria dothidea JCM 2738, Fusarium oxysporum f.sp. langenariae JCM 9293, and Fusarium verticillioides JCM 23107) and four nutrient media were used in the screening for effective lignocellulose degrading enzymes. From the seven tested fungi, F. oxysporum and F. verticilliodes, along with nutrient medium 4, were selected as the best medium and producers of lignocellulolytic enzymes based on the determined xylanase (>4 U mg−1) and glucanase activity (≈2 U mg−1). Nutrient medium 4 supplemented with pretreated corn cobs was used in the production of lignocellulolytic enzymes by sequential solid-state and submerged cultivation of F. oxysporum, F. verticilliodes, and a mixed culture of both strains. F. oxysporum showed 6 times higher exoglucanase activity (3.33 U mg−1) after 5 days of cultivation in comparison with F. verticillioides (0.55 U mg−1). F. oxysporum also showed 2 times more endoglucanase activity (0.33 U mg−1). The mixed culture cultivation showed similar endo- and exoglucanase activities compared to F. oxysporum (0.35 U mg−1; 7.84 U mg−1). Maximum xylanase activity was achieved after 7 days of cultivation of F. verticilliodes (≈16 U mg−1), while F. oxysporum showed maximum activity after 9 days that was around 2 times lower compared to that of F. verticilliodes. The mixed culture achieved maximum xylanase activity after only 4 days, but the specific activity was similar to activities observed for F. oxysporum. It can be concluded that both fungal strains can be used as producers of enzyme cocktails for the degradation of lignocellulose containing raw materials, and that corn cobs can be used as an inducer for enzyme production.

Published

2021

8. Ethanol Production from Different Intermediates of Sugar Beet Processing

Author

Mladen Pavlečić, Ivna Vrana, Kristijan Vibovec, Mirela Ivančić Šantek, Predrag Horvat, and Božidar Šantek

Subjects

ethanol, fermentation, raw sugar beet juice, raw sugar beet cossettes, stirred tank bioreactor, horizontal rotating tubular reactor (HRTB), Biotechnology, TP248.13-248.65, Food processing and manufacture, TP368-456

Abstract

In this investigation, the production of ethanol from the raw sugar beet juice and raw sugar beet cossettes has been studied. For ethanol production from the raw sugar beet juice, batch and fed-batch cultivation techniques in the stirred tank bioreactor were used, while batch ethanol production from the raw sugar beet cossettes was carried out in horizontal rotating tubular bioreactor (HRTB). In both cases, Saccharomyces cerevisiae was used as a production microorganism. During batch ethanol production from the raw sugar beet juice, ethanol yield was 59.89 g/L and production efficiency 78.8 %, and in fed-batch process the yield was 92.78 g/L and efficiency 93.4 %. At the same time, ethanol production in HRTB from the raw sugar beet cossettes with inoculum of 16.7 % V/m (raw sugar beet cossettes) resulted in the highest ethanol yield of 54.53 g/L and production efficiency of 79.5 %. The obtained results clearly show that both intermediates of sugar beet processing can be successfully used for ethanol production.

Published

2010

9. Mathematical Modelling of Bioethanol Production from Raw Sugar Beet Cossettes in a Horizontal Rotating Tubular Bioreactor

Author

Mladen Pavlečić, Mario Novak, Antonija Trontel, Nenad Marđetko, Marina Grubišić, Blanka Didak Ljubas, Vlatka Petravić Tominac, Rozelindra Čož Rakovac, and Božidar Šantek

Subjects

TP500-660, bioethanol, sugar beet cossettes, horizontal rotating tubular bioreactor, mathematical modelling, Andrews model, Fermentation industries. Beverages. Alcohol, Plant Science, Biochemistry, Genetics and Molecular Biology (miscellaneous), Food Science, Biotechnology

Abstract

Alternative to the use of fossil fuels are biofuels (e.g., bioethanol, biodiesel and biogas), which are more environmentally friendly and which can be produced from different renewable resources. In this investigation, bioethanol production from raw sugar beet cossettes (semi-solid substrate) by yeast Saccharomyces cerevisiae in a horizontal rotating tubular bioreactor (HRTB) was studied. Obtained results show that HRTB rotation mode (constant or interval) and rotation speed have considerable impact on the efficiency of bioethanol production in the HRTB. The main goal of this research was to develop a non-structural mathematical model of bioethanol production from raw sugar beet cossettes in the HRTB. The established mathematical model of bioethanol production in the HRTB describes substrate utilization and product formation (glycerol, ethanol and acetate) and presumes negative impact of high substrate concentration on the working microorganism (substrate inhibition) by using Andrews inhibition kinetics. All simulations of bioethanol production in the HRTB were performed by using Berkeley Madonna software, version 8.3.14 (Berkeley Madonna, Berkeley, CA, USA). The established non-structural bioprocess model describes relatively well the bioethanol production from raw sugar beet cossettes in the HRTB.

Published

2022

10. Production of Different Biochemicals by

Author

Blanka, Didak Ljubas, Mario, Novak, Antonija, Trontel, Ana, Rajković, Zora, Kelemen, Nenad, Marđetko, Marina, Grubišić, Mladen, Pavlečić, Vlatka Petravić, Tominac, and Božidar, Šantek

Abstract

Brewers' spent grains (BSG) are a by-product of the brewing industry that is mainly used as feedstock; otherwise, it has to be disposed according to regulations. Due to the high content of glucose and xylose, after pretreatment and hydrolysis, it can be used as a main carbohydrate source for cultivation of microorganisms for production of biofuels or biochemicals like 2,3-butanediol or lactate. 2,3-Butanediol has applications in the pharmaceutical or chemical industry as a precursor for varnishes and paints or in the food industry as an aroma compound. So far

Published

2021

11. Kinetic analysis of purple non-sulphur bacteria Rhodovulum adriaticum DSM 2781 growth on carbon sources from lignocellulosic hydrolysates

Author

Mario, Novak, Mladen, Pavlečić, Nenad, Marđetko, Antonija, Trontel, Manda, Madaras, Marko, Sarić, and Božidar, Šantek

Subjects

purple non sulphur bacteria, lignocellulosic materials, cultivation, growth kinetics

Abstract

Purple non-sulfur bacteria isolated from different habitats are interesting in sustainable processes for production of hydrogen, in medicine for synthesis of biochemicals such as aminolevulinic acid, for production of eco-friendly biopolymers (PHB) and biomass along with synthesis of specific compounds such as carotenoids and pigments. As they can grow phototrophic and photoheterotrophic, various cultivation have been recognized for years. However, in order to achieve an ecologically and economically sustainable production, it is necessary to select the appropriate feedstock and cultivation conditions. The aim of this study was to determine growth kinetics, substrate utilization and the ability of Rhodovulum adriaticum DSM 2781 to grow under different carbon sources obtained after acidic pre-treatment of waste lignocellulosic feedstock in high-pressure reactor. Selected strain can be cultivated in broad range of glucose and/or xylose concentrations, and highest biomass yields were achieved with glucose as a carbon source, although growth is partially inhibited when carbon source concentrations are above 10 g/L. Considering certain limitations under photosynthetic conditions, the chemoheterotrophic dark/aerobic growth on glucose and xylose from pre-treated lignocellulosic biomass as carbon sources and with DAP and yeast extract as nitrogen sources in a stirred tank bioreactor was also investigated. During batch cultivation highest bioprocess productivity of 0, 154 g L-1 h-1 was achieved with of biomass yield of 3, 7 g L-1, YX/S = 0.521 g g-1 and with observed growth rate (µ) of 0.551 h-1.

Published

2020

12. Fotoheterotrofni uzgoj ljubičaste nesumporne bakterije Rhodovulum adriaticum na hranjivim podlogama s različitim izvorima ugljika

Author

Mario Novak, Antonija Trontel, Nenad Marđetko, Veronika Matoković, Marko Sarić, Mladen Pavlečić, Božidar Šantek, Mario Novak, Antonija Trontel, Nenad Marđetko, Veronika Matoković, Marko Sarić, Mladen Pavlečić, and Božidar Šantek

Abstract

Ljubičaste nesumporne bakterije zanimljive su s ekološkog i ekonomskog stajališta u održivim biotehnološkim procesima proizvodnje biogoriva, biokemikalija, biopolimera, biomase odnosno sintezi specifičnih spojeva kao što su npr. karotenoidi i pigmenti. Za uspostavu ekološki i ekonomski održivih bioprocesa nužan je adekavatan odabir radnih mikroorganizama, sirovina i uvjeta kultivacije, a dobar primjer za to je razvoj bioprocesa na obnovljivim sirovinama kao što su to lignocelulozne sirovine. U ovom istraživanju proučavan je fotoheterotrofni uzgoj ljubičaste nesumporne bakterije Rhodovulum adriaticum DSM 2781 na tekućim hranjivim podlogama koje sadrže glukozu i/ili ksilozu kao izvore ugljika s ciljem dobivanja bakterijske biomase i fotosintetskih pigmenata. Rezultati istraživanja pokazuju da su najveće vrijednosti pokazatelja uspješnosti bioprocesa (YX = 2,095 g L-1; YX/S = 0,54 g g-1i Pr = 0,022 g L-1h-1) vezanih u dobivanje biomase ostvareni kod uzgoja na hranjivoj podlozi s 5 g L-1 glukoze. Uzgoj R. adriaticum DSM 2781 na hranjivoj podlozi s 3 g L-1 glukoze i ksiloze pokazao se najuspješnji za dobivanje fotosintetskih pigmenata (ukupni pigmenti 13,27 mg g-1 biomase) uz zadovoljavajuće ostale pokazatelje uspješnosti bioprocesa (YX = 1,507 g L-1; YX/S = 0,22 g g-1i Pr = 0,017 g L-1h-1)., Purple non-sulphur bacteria are interesting from ecologic and economic point of view in sustainable biotechnological production of biofuels, biochemicals, biopolymers and biomass as well as specific compounds such as carotenoids and pigments. In order to establish ecological and economic sustainable bioprocesses it is necessary to select adequate working microorganisms, raw materials and cultivation conditions. Development of bioprocesses on the renewable raw materials (e.g. lignocellulose containing feedstocks) are good example for such bioprocess types. In this research, the photoheterotrophic cultivation of purple non-sulfur bacteria Rhodovulum adriaticum DSM 2781 was studied on the liquid media containing glucose or /and xylose as a carbon sources in order to produce bacterial biomass and photosynthetic pigments. Results obtained in this study show that the highest values of bioprocess efficiency parameters (YX = 2,095 g L-1; YX/S = 0,54 g g-1i Pr = 0,022 g L-1h-1) related to the biomass production were observed during bacterial cultivation on media with 5 g L-1. Cultivation of R. adriaticum DSM 2781 on the media with 3 g L-1 glucose and xylose shows the highest total photosynthetic pigments content (13,27 mg g-1 biomass) together with satisfy other bioprocess efficiency parameters (YX = 1,507 g L-1; YX/S = 0,22 g g-1i Pr = 0,017 g L-1h-1).

Published

2020

13. Influence of Glycine, Succinate, Levulinic Acid and Glutamate Concentrations on Growth of Purple Non-Sulfur Photosynthetic Bacteria and 5-Aminolevulinic Acid Production

Author

Baghish Harutyunyan, Vigen Goginyan, Mario Novak, Mladen Pavlečić, Inna Melkumyan, Božidar Šantek, and Ruzanna Hovhannesyan

Subjects

chemistry.chemical_compound, chemistry, Biochemistry, Glycine, Glutamate receptor, Levulinic acid, chemistry.chemical_element, Photosynthetic bacteria, Sulfur, Acid production

Published

2018

14. Heterotrophic cultivation of Euglena gracilis on chemically pretreated media

Author

Božidar Šantek, Dijana Crnić, Ena Jurković, Mirela Ivančić Šantek, Tonči Rezić, and Mladen Pavlečić

Subjects

0106 biological sciences, 0301 basic medicine, inorganic chemicals, Euglena gracilis, General Chemical Engineering, ved/biology.organism_classification_rank.species, Heterotroph, antimycin, 01 natural sciences, law.invention, 03 medical and health sciences, Laboratory flask, different cultivation media, H2O2, Erlenmeyer flask, Algae, law, 010608 biotechnology, Bioreactor, heterotrophic cultivation, Food science, lcsh:Chemical engineering, Bioprocess, biology, Chemistry, ved/biology, lcsh:TP155-156, Contamination, biology.organism_classification, 030104 developmental biology

Abstract

In this research, the impact of chemical agents on the growth of Euglena gracilis and contaminants (S. cerevisiae and B. subtilis) in different cultivation media was studied. E. gracilis was cultivated on modified Hutner and complex medium in Erlenmeyer flasks and a stirred tank bioreactor. H2O2 and antimycin were used as suppressors of contaminant growth activities during algae cultivation. The use of antimycin as a chemical suppressor of contaminants is not recommendable because of its significant impact on the E. gracilis growth. At a H2O2 concentration of 5 mg L-1 contaminant growth activities were almost completely suppressed. In these conditions, E. gracilis is capable to grow, but a further increase of H2O2 concentration is related to significant reduction of algae growth. H2O2 as a suppressor of contaminants has great potential for industrial application, but its optimal concentration for a particular bioprocess has to be determined in order to obtain the maximal bioprocess efficiency.

Published

2018

15. Bioethanol production from raw sugar beet cossettes in horizontal rotating tubular bioreactor

Author

Mirela Ivančić Šantek, Božidar Šantek, Predrag Horvat, Mladen Pavlečić, and Tonči Rezić

Subjects

0106 biological sciences, 020209 energy, Bioengineering, 02 engineering and technology, 01 natural sciences, Bioreactors, 010608 biotechnology, 0202 electrical engineering, electronic engineering, information engineering, Bioreactor, Bioprocess, Bioethanol, raw sugar beet cossettes, horizontal rotating tubular bioreactor (HRTB), different HRTB operational conditions, biology, Waste management, Ethanol, business.industry, Fossil fuel, General Medicine, biology.organism_classification, Pulp and paper industry, Renewable energy, Biofuel, Biofuels, Environmental science, Sugar beet, Industrial and production engineering, Beta vulgaris, business, Energy source, Biotechnology

Abstract

Fossil fuels are still major energy sources, but the search for renewable energy sources has been encouraged. Bioethanol has been recognized as an alternative to fossil fuels and nowadays it represents more than 90% of the global biofuel production. Bioethanol production from raw sugar beet cossettes as a semi-solid substrate was studied. The study was carried out in the horizontal rotating tubular bioreactor (HRTB) with Saccharomyces cerevisiae as a microbial production strain. The impact of different combinations of HRTB operational parameters such as, rotation speed (5-15 min(-1)), rotation type [constant or interval (3-15 min h(-1))] and working volume (ratio V (W)/V (T) = 0.2-0.7) on the bioethanol production was examined. In this study, the highest bioprocess efficiency parameters ( = 0.47 g g(-1), E = 87.36% and Pr = 0.618 g L-1 h(-1)) were observed at 0.20 V (W)/V (T), interval rotation of 12 min h(-1) and rotation speed of 15 min(-1). It has to be pointed out that bioethanol production efficiency in the HRTB was on the similar level as observed by bioethanol production from the raw sugar beet juice. Naturally present microorganisms of sugar beet could have a significant impact on bioethanol production. Higher yeast inoculation rate could reduce contaminant activities and, consequently, the bioethanol production efficiency would be improved.

Published

2017

16. Anaerobni uzgoj kvasca Saccharomyces cerevisiae na hidrolizatima lignoceluloznih sirovina

Author

Mario Novak, Antonija Trontel, Mladen Pavlečić, Lucija Mušak, Darija Govedarica, Anja Lauder, Fran Ivančić, and Božidar Šantek

Subjects

lignocelulozne sirovine, anaerobni uzgoj, Saccharomyces cerevisiae, visokotlačni reaktor, horizontalni rotirajući bioreaktor (HRTB), lignocelulozne sirovine, anaerobni uzgoj, Saccharomyces cerevisiae, visokotlačni reaktor, horizontalni rotirajući bioreaktor (HRTB)

Abstract

Zbog velike rasprostranjenosti u prirodi i relativno niske cijene, lignocelulozne sirovine postaju zanimljive za primjenu u različitim biotehnološkim procesima. Međutim, zbog svoje kompleksne strukture, te sirovine moraju proći postupak predobradbe u kojem uglavnom nastaju nuspodukti koji imaju inhibitorno djelovanje na proizvodni mikroorganizam i time utječu na ukupnu učinkovitost bioprocesa. U ovom istraživanju ispitivana je mogućnost korištenja hidrolizata pšenične slame i kukuruzovine za anaerobni uzgoj kvasca S. cerevisiae odnosno s ciljem proizvodnje etanola. Postupak blago kisele predobrade lignoceluloznih sirovina u visokotlačnom reaktoru (pri 210°C ; 20 bara ; vrijeme zadržavanja 1 - 10 minuta ; do 1, 0 % H2 SO4) korišten je za dobivanje hidrolizata lignoceluloznih sirovima pri čemu je najveći udjel ukupnih fermentabilnih šećera zabilježen kod postupka predobrade s 1, 0 % H2SO4 i vremenom zadržavanja od 5 minuta. Anaerobni uzgoj kvasca na hranjivim podlogama s hidrolizatima lignoceluloznih sirovina proveden je u Erlenmeyer tikvicama, te dodatno testiran u horizontalnom rotirajućem cijevnom bioreaktoru (HRCB). Rezultati ovog istraživanja pokazuju da su veće vrijednosti pokazatelja uspješnosti anaerobnog uzgoja kvasca zabilježene na hranjivoj podlozi s hidrolizatom pšenične slame (u odnosu na hidrolizat kukuruzovine) u HRCB-u pri čemu su ostvarene ove vrijednosti pokazatelja uspješnosti bioprocesa: YP/S = 0, 261 g g-1, Pr = 0, 0678 g L-1h-1 i E= 42 %. Na osnovi rezultata ovog istraživanja vidljivo je da je potrebno dodatno optimizirati postupak predobrade lignoceluloznih sirovina kao i selekcionirati novi soj mikroorganizma koji ima sposobnost korištenja heksoza i pentoza odnosno visoku tolerantnost na nusprodukte koji nastaju postupkom predobrade lignoceluloznih sirovina.

Published

2017

17. Characteristics and selection of cultures of photosynthetic purple non-sulphur bacteria as a potential 5-aminolevulinic acid producers

Author

Novak Mario, Mladen Pavlečić, Baghish Harutyunyan, Vigen Goginyan, Predrag Horvat, and Božidar Šantek

Subjects

purple non-sulphur bacteria, Rhodobacter capsulatus, 5-aminolevulinic acid, optimization of cultivation conditions, bacteria

Abstract

Wild strains of purple non-sulphur bacteria: Rhodospirillum rubrum B-6505, Rhodopseudomonas palustris B-6506, Rhodobacter capsulatus B-6508 and Rhodobacter spheroides B-6509 were studied as 5-ALA (5 aminolevulinic acid) producers. Selected strains were subjected to mutagenesis with N-methyl-N-nitro-N-nitrosoguanidine to obtain a strain with high 5-ALA producing capacity. After mutagenesis 19 stable mutant strains were selected from Rhodobacter capsulatus B-6508 and Rhodobacter sphaeroides B-6509. On the basis of obtained results, mutant strain of Rhodobacter capsulatus B-6508 has shown the highest potential for 5-ALA production. The most favorable conditions for growth and 5-ALA production by mutant strain R. capsulatus B-6508 were observed in media composed of glutamate and malate, light at 2000 Lux, microaerophilic conditions and temperature of 28 °C. In these conditions, the highest 5- ALA concentration (179 mg/L) was detected together with the highest bacterial physiological activity. The prolongation of mutant strain R. capsulatus B-6508 cultivation time after glycine, succinate and levulinic acid addition is related to the reduction of 5- ALA concentrations (e.g. 124.5 mg/L after 48 h and 89.5 mg/L after 72 hours). In the light/aerobic conditions R. capsulatus B-6508 produced only 58.1 mg/L of 5 ALA. Furthermore, in dark conditions even lower biomass and 5-ALA concentrations were observed during R. capsulatus B-6508 cultivation.

Published

2017

18. Cultivation of the bacterium Azotobacter chroococcum for preparation of biofertilizers

Author

Damir Oros, Mladen Pavlečić, Božidar Scaron antek, and Srđan Novak

Subjects

biology, business.industry, Azotobacter chroococcum, chemically defined and complex media, different cultivation techniques, biofertilizers, Biofertilizer, Industrial scale, Biomass, Pulp and paper industry, medicine.disease_cause, biology.organism_classification, Applied Microbiology and Biotechnology, Biotechnology, Azotobacter chroococcum, chemically defined and complex media, different cultivation techniques, biofertilizers, Genetics, medicine, Bioreactor, Bioprocess, Sugar, business, Agronomy and Crop Science, Molecular Biology, Bacteria

Abstract

The biomass of the bacterium Azotobacter chroococcum can be used as a biofertilizer due to its ability to fix nitrogen from the atmosphere. In order to optimize the production of bacterial biomass for this purpose, a cultivation of A. chroococcum was done by using different media and cultivation techniques (batch, fed batch and repeated batch). Chemically defined and complex media with 20 g/l of sugar were selected as the most appropriate media for batch cultivation in stirred tank bioreactor. In order to obtain higher fed batch and repeated batch techniques were examined. During these cultivations, increase of bioprocess efficiency parameters (yield coefficient and productivity) were observed compared with the batch cultivation. On the basis of the obtained results, repeated batch technique appeared to be the most suitable for the bacterial biomass production at industrial scale.Key words: Azotobacter chroococcum, chemically defined and complex media, different cultivation techniques, biofertilizers.

Published

2011

19. Utjecaj ukupne koncentracije kisika u boci na kakvoću piva tijekom skladištenja

Author

Mladen Pavlečić, Dino Tepalović, Mirela Ivančić Šantek, Tonči Rezić, and Božidar Šantek

Subjects

lager beer, glass bottle, oxidation, trans-2-nonenal, sensory analysis, beer quality, flavour, pivo donjeg vrenja, staklene boce, oksidacija, senzorska analiza, kakvoća piva (aroma i okus)

Abstract

U ovom istraživanju provedeno je ispitivanje utjecaja ukupne koncentracije kisika u staklenoj boci na kakvoću piva donjeg vrenja tijekom skladištenja. Pivo je bilo skladišteno na temperaturi od 22 - 25°C u tamnoj prostoriji, a u pivu je bio prisutan kisik u tri različite ukupne početne koncentracije: 0,09 mg/L, 0,29 mg/L i 0,63 mg/L. Tijekom skladištenja (98 dana) u pivu je praćena promjena koncentracije trans-2-nonenala kao indikatora procesa oksidacije (starenja) piva, a dobiveni rezultati pokazuju da koncentracija trans-2-nonenala nije direktno ovisna o ukupnoj koncentraciji kisika u boci piva. U ovom istraživanju provedena je i senzorska analiza uzoraka piva koja je pokazala da povećane ukupne koncentracije kisika u boci izravno utječu na ocjenu kakvoće piva., In this research the effect of total packaging oxygen on the quality of bottled (glass bottle) lager beer during storage was studied. The beer was stored in a dark room at temperature of 22 - 25°C and it contained three different concentrations of total packaging oxygen: 0,09, 0,29 and 0,63 mg/L. During the 98 days storage period the concentration of trans-2-nonenal, a well known indicator of oxidation processes in the beer, was monitored. The results obtained in this research clearly show that the concentration of trans-2-nonenal is not directly related to the total oxygen concentration in the bottled beer. Sensory analysis of beer was also performed and obtained results clearly show that higher concentrations of total packaging oxygen directly effects beer quality and flavour.

Published

2012

20. Usporedba različitih tehnika proizvodnje bioetanola na svježem soku šećerne repe

Author

Mladen Pavlečić, Vedran Lulić, Slavica Gašpari, Mirela Ivančić Šantek, Predrag Horvat, Božidar Šantek, Mladen Pavlečić, Vedran Lulić, Slavica Gašpari, Mirela Ivančić Šantek, Predrag Horvat, and Božidar Šantek

Abstract

U ovom istraživanju proučavana je proizvodnja bioetanola na svježem soku šećerne repe s pomoću kvasca Saccharomyces cerevisiae. Za vođenje procesa proizvodnje bioetanola primjenjene su ove tehnike: šaržni proces, šaržni proces s pritokom supstrata i polukontinuirani proces. Tijekom šaržnog procesa proizvodnje bioetanola stupanj konverzije supstrata u produkt (YP/S) je iznosio 0,375 g/g, učinkovitost bioprocesa (E) 69.70 %, te produktivnost (Pr) procesa 0,53 g/Lh. U šaržnom procesu s pritokom supstrata dobivene su ove vrijednosti pokazatelja uspješnosti bioprocesa: YP/S = 0,502 g/g, E = 93,40 % i Pr = 0,50 g/Lh. Nadalje, tijekom polukontinuirane proizvodnje bioetanola pokazatelji uspješnosti bioprocesa su imali ove vrijednosti: YP/S = 0,360 g/g, E = 66,91 % i Pr = 0,66 g/Lh. Na osnovi prethodno prikazanih rezultata jasno je da šaržni proces s pritokom supstrata i polukontinuirani proces imaju značajno veći potencijal za primjenu u industrijskoj proizvodnji bioetanola iako je potrebna daljnja optimizacija polukontinuirane tehnike vođenja bioprocesa., In this investigation, the production of bioethanol on the raw sugar beet juice by Saccharomyces cerevisiae was studied. Following cultivation techniques for bioethanol productions were used: batch, fed batch and repeated batch. In batch process substrate conversion coefficient (YP/S) was 0,375 g/g, bioprocess effi eciency (E) 69,70 % and productivity (Pr) 0,53 g/Lh, respectively. During fed batch process bioprocess efficiency parameters have following values: YP/S = 0,502 g/g, E = 93,4 % and Pr = 0,50 g/Lh. Furthermore, in repeated batch process bioprocess efficiency parameters have following values: YP/S = 0,360 g/g, E = 66,91 % and Pr = 0,66 g/Lh. On the basis of previously presented results it is clear that fed batch and repeated batch processes have considerably higher potential for use in the industrial bioethanol production although further optimization of repeated batch cultivation techniques has to be performed.

Published

2012