Your search keyword '"Vlatka Petravić-Tominac"' showing total 28 results

1. Physico-chemical analysis of the Rhine Riesling wines produced in Plešivica-Okić wine region during three consecutive years

Author

Vlatka Petravić-Tominac, Ivana Šolčić, Damir Oros, Vesna Zechner-Krpan, and Mara Banović

Subjects

rhine riesling, plešivica-okić wine region, climatic conditions, chemical composition, Plant ecology, QK900-989, Agriculture

Abstract

The analyzed samples of Rhine Riesling wine from the Plešivica-Okić wine region were produced during three consecutive years (2009, 2010 and 2011) in one family winery. Concentrations of alcohol, total and volatile acidity, total SO2 , glycerol and residual sugar in the analyzed wines were in accordance with legal requirements. A pronounced influence of climatic conditions on the chemical composition of the analyzed wines was observed.

Published

2021

2. Fizikalno-kemijska analiza vina sorte Rajnski rizling proizvedenog u vinogorju Plešivica-Okić

Author

Vlatka Petravić-Tominac, Ivana Šolčić, Damir Oros, Vesna Zechner-Krpan, and Mara Banović

Subjects

vinogorje plešivica-okić, rajnski rizling, kemijski sastav, klimatski uvjeti, Plant ecology, QK900-989, Agriculture

Abstract

Analizirani uzorci vina sorte Rajnski rizling iz vinogorja Plešivica-Okić proizvedeni su tijekom tri uzastopne godine (2009., 2010. i 2011.) na jednom obiteljskom gospodarstvu. Koncentracije alkohola, ukupnih i hlapljivih kiselina, ukupnog SO2 , glicerola i reducirajučih šećera u analiziranim vinima u skladu su sa zakonskim propisima. Uočen je izražen utjecaj klimatskih uvjeta na kemijski sastav analiziranih vina.

Published

2021

3. Current state of biogas production in Croatia

Author

Vlatka Petravić-Tominac, Nikola Nastav, Mateja Buljubašić, and Božidar Šantek

Subjects

Anaerobic digestion, Biogas, Feedstocks, Renewable energy, Digestate, Renewable energy sources, TJ807-830, Energy industries. Energy policy. Fuel trade, HD9502-9502.5

Abstract

Abstract For biogas production, different renewable feedstocks, e.g., feces, manure, silage, industrial by-products, and municipal waste, can be used. Biogas production from various renewable feedstocks has positive socioeconomic and environmental impact. In Europe, biogas is mainly used for generating heat and electricity. It consists of methane (55–70% by volume), carbon dioxide (30–45% by volume), and small amounts of other compounds. In some cases, biogas is upgraded to pure biomethane and utilized as vehicle fuel, instead of fossil fuels, thus reducing the emissions of greenhouse gases. Biomethane can also serve as a platform chemical in chemical and biochemical synthesis to produce value-added products. The additional positive effects of anaerobic digestion of animal manure and slurries are organic waste degradation, reducing odors, and pathogens. Digestate, obtained as a by-product of anaerobic digestion, is rich in nutrients and therefore is applied as fertilizer in agriculture. Biogas production in Croatia is mainly based on manure and by-products from agriculture, food industry, and slaughterhouses. The obtained biogas is mostly used for electricity and heat generation. Potential for large-scale biogas production in Croatia is still insufficiently used, although various renewable feedstocks are available. More rational and focused management of lignocellulosic residues, animal excrements, food processing by-products, and biodegradable fraction of municipal waste could contribute to the development of Croatian biogas sector. Biogas production in Croatia can be affected by the changes of animal breeding capacity due to the struggle to cope with the European Union (EU) standards and prices. Concerning large unused agricultural areas, great potential lies in their rational exploitation for fast-growing biomass, e.g., for energy crops or perennial grasses. This review will discuss the potential of biogas in the industrial and farming sector, current state of biogas production, and various key drivers and barriers influencing biogas production in Croatia.

Published

2020

4. Pozitivni društveno-ekonomski i ekološki učinci proizvodnje bioplina anerobnom digestijom

Author

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

Subjects

General Medicine

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

5. Lignocellulosic byproducts from agriculture and the food industry as a driver of biotechnological production progress

Author

Vlatka Petravić Tominac, Mario Novak, Božidar Šantek, Mateja Buljubašić, Blanka Didak Ljubas, Marina Grubišić, Nenad Marđetko, and Anita Trontel

Subjects

General Medicine

Abstract

Značajne količine raznovrsnih ostataka (odnosno lignocelulozne biomase) nastaju u poljoprivredi, prehrambenoj industriji i šumarstvu. Stoga je važno podići svijest o mogućnostima primjene takvih materijala koji se u današnje vrijeme ne bi trebali tretirati kao otpad, već se mogu koristiti kao obnovljive biotehnološke sirovine za proizvodnju kemikalija, drugih visokovrijednih proizvoda i biogoriva. Lignocelulozni materijal uglavnom sadrži celulozu, hemicelulozu i lignin. Predmet interesa ovog rada je lignocelulozni otpad iz poljoprivrede i prehrambene industrije kao mogući sirovinski temelj za napredak održive biotehnološke proizvodnje u Republici Hrvatskoj. Razmotrene su dostupne količine ovih lignoceluloznih sirovina, tipovi bioprocesa u kojima se one mogu koristiti, postupci predobrade koje je neophodno provesti prije provedbe samog bioprocesa te vrste biotehnoloških proizvoda koje je moguće dobiti.

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

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

7. Pregled sustava proizvodnje i tehnologija obogaćivanja bioplina

Author

Martina Andlar, Vlatka Petravić Tominac, Galina Morzak, Božidar Šantek, Tonči Rezić, Halina Belskaya, and Mirela Ivančić Šantek

Subjects

anaerobic digestion, Waste management, General Chemical Engineering, biogas purification and upgrading technologies, Review, biogas production, different anaerobic bioreactor systems, digestate, TP368-456, Industrial and Manufacturing Engineering, Food processing and manufacture, anaerobna digestija, proizvodnja bioplina, različiti anaerobni bioreaktorski sustavi, tehnologije pročišćavanja i obogaćivanja bioplina, digestat, anaerobic digestion, biogas production, different anaerobic bioreactor systems, biogas purification and upgrading technologies, digestate, Environmental science, TP248.13-248.65, Food Science, Biogas production, Biotechnology

Abstract

The underutilized biomass and different organic waste streams are nowadays in the focus of research for renewable energy production due to the effusive use of fossil fuels and greenhouse gas emission. In addition, one of the major environmental problems is also a constant increase of the number of organic waste streams. In a lot of countries, sustainable waste management, including waste prevention and reduction, has become a priority as a means to reduce pollution and greenhouse gas emission. Application of biogas technology is one of the promising methods to provide solutions for both actual energy-related and environmental problems. This review aims to present conventional and novel biogas production systems, as well as purification and upgrading technologies, nowadays applicable on a large scale, with a special focus on the CO2 and H2S removal. It also gives an overview of feedstock and the parameters important for biogas production, together with digestate utilization and application of molecular biology in order to improve the biogas production., Nedovoljno iskorištena biomasa i različiti tokovi organskog otpada su u današnje vrijeme u fokusu istraživanja proizvodnje obnovljive energije, zbog raširene upotrebe fosilnih goriva i emisije stakleničkih plinova. Osim toga, jedan od glavnih ekoloških problema je stalno povećanje broja tokova organskog otpada. U mnogim je zemljama održivo gospodarenje otpadom, uključujući prevenciju i smanjenje otpada, postalo prioritet radi smanjenja onečišćenja okoliša i emisije stakleničkih plinova. Primjena tehnologije proizvodnje bioplina jedna je od obećavajućih metoda traženja rješenja za aktualne energetske i ekološke probleme. Svrha je ovog preglednog rada bila prikazati konvencionalne i nove sustave za proizvodnju bioplina te tehnologije pročišćavanja i obogaćivanja bioplina, koje se danas primjenjuju u velikom mjerilu, s posebnim naglaskom na uklanjanje CO2 i H2S. Ovaj rad također daje pregled sirovina i parametara važnih za proizvodnju bioplina, kao i podataka o korištenju digestata i primjeni molekularne biologije za poboljšanje proizvodnje bioplina.

Published

2021

8. Current state of biogas production in Croatia

Author

Nikola Nastav, Mateja Buljubašić, Božidar Šantek, and Vlatka Petravić-Tominac

Subjects

Renewable energy, 020209 energy, lcsh:TJ807-830, Digestate, lcsh:Renewable energy sources, Energy Engineering and Power Technology, Biomass, Biogas, 02 engineering and technology, 010501 environmental sciences, Development, anaerobic digestion, biogas, feedstocks, renewable energy, digestate, lcsh:HD9502-9502.5, 01 natural sciences, 7. Clean energy, Feedstocks, 12. Responsible consumption, Anaerobic digestion, 11. Sustainability, 0202 electrical engineering, electronic engineering, information engineering, media_common.cataloged_instance, European union, 0105 earth and related environmental sciences, media_common, 2. Zero hunger, Waste management, Renewable Energy, Sustainability and the Environment, business.industry, Biodegradable waste, lcsh:Energy industries. Energy policy. Fuel trade, Energy crop, 13. Climate action, Environmental science, business

Abstract

For biogas production, different renewable feedstocks, e.g., feces, manure, silage, industrial by-products, and municipal waste, can be used. Biogas production from various renewable feedstocks has positive socioeconomic and environmental impact. In Europe, biogas is mainly used for generating heat and electricity. It consists of methane (55–70% by volume), carbon dioxide (30–45% by volume), and small amounts of other compounds. In some cases, biogas is upgraded to pure biomethane and utilized as vehicle fuel, instead of fossil fuels, thus reducing the emissions of greenhouse gases. Biomethane can also serve as a platform chemical in chemical and biochemical synthesis to produce value-added products. The additional positive effects of anaerobic digestion of animal manure and slurries are organic waste degradation, reducing odors, and pathogens. Digestate, obtained as a by-product of anaerobic digestion, is rich in nutrients and therefore is applied as fertilizer in agriculture. Biogas production in Croatia is mainly based on manure and by-products from agriculture, food industry, and slaughterhouses. The obtained biogas is mostly used for electricity and heat generation. Potential for large-scale biogas production in Croatia is still insufficiently used, although various renewable feedstocks are available. More rational and focused management of lignocellulosic residues, animal excrements, food processing by-products, and biodegradable fraction of municipal waste could contribute to the development of Croatian biogas sector. Biogas production in Croatia can be affected by the changes of animal breeding capacity due to the struggle to cope with the European Union (EU) standards and prices. Concerning large unused agricultural areas, great potential lies in their rational exploitation for fast-growing biomass, e.g., for energy crops or perennial grasses. This review will discuss the potential of biogas in the industrial and farming sector, current state of biogas production, and various key drivers and barriers influencing biogas production in Croatia.

Published

2020

9. 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

Microbiology (medical), Microbiology, Paenibacillus polymyxa DSM 742, biochemicals, 2, 3-butanediol, lactate, brewers’ spent grains

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

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. CHARACTERIZATION OF THE FERMENTATION PROCESS AND AROMA PROFILE OF CAROB BRANDY

Author

Jasna Mrvčić, Siniša Srečec, Karla Hanousek Čiča, Borna Devčić, Vlatka Petravić-Tominac, Antonija Trontel, Tomislav Bosiljkov, Marijana Blažić, Gordana Čanadi Jurešić, Damir Stanzer, Sarić, Zlatan, Brka, Muhamed, Oručević Žuljević, Sanja, Omanović-Mikličanin, Enisa, Taljić, Irzada, Biber, Lejla, and Mujčinović, Alen

Subjects

food and beverages, fermentation, yeast, carob, carob brandy, distillate, fruit spirit, fermentation, yeast, carob, carob brandy, distillate, fruit spirit

Abstract

In Croatia, as part of the Mediterranean region where carob is grown, only carob liquor is produced, mostly as a domestic product. In contrast, pure spirit production by alcoholic fermentation and distillation of carob is very rare and the compounds responsible for the characteristic bouquet of carob spirit are unknown. Therefore, the aim of this study was to evaluate the potential of carob as a raw material (source of sugars, nutrients and yeast inhibitors) for the production of carob spirit using commercial yeast strains. Moreover, a preliminary characterization of the volatiles in the obtained distillates was considered. Fermentations were carried out in carob mash with or without added nutrients by five Saccharomyces cerevisiae strains at three different temperatures (20°C, 30°C and room temperature). The obtained wine was subjected to fractional distillation in a copper still to produce carob spirit with an alcohol content of 40 % vol. Analysis of sugars and fermentation products was performed by high performance liquid chromatography. Gas chromatography and gas chromatography coupled with MS detection was used to analyse the volatile components of the carob wine and brandy. Carob flour and S. cerevisiae strains can be efficiently used for the fermentation process to produce carob wine with ethanol content ranging from 46.4 to 50.5 gL-1 and corresponding yield coefficients ranging from 0.45 to 0.49 gg-1. More than ninety compounds detected in carob spirit, namely ethyl 2-methyl butanoate, ethyl 2-methyl propanoate, ethyl cinnamate, ethyl hexanoate, beta-ionone, ethyl butanoate and ethyl octanoate, contribute significantly to the fruity and floral bouquet of carob spirit. Thus, by using the tested yeast strains, a novel brandy rich in volatiles can be obtained. Carob brandy can be 82 an additional product in the carob processing chain and new potential, especially for small carob growers.

Published

2021

12. Characterisation of flavour compounds inBiska- a herbal spirit produced with mistletoe

Author

Dorota Derewiaka, Jasenka Gajdoš‐Kljusurić, Jasna Mrvčić, Piotr Koczoń, Maja Rupert, Vlatka Petravić-Tominac, Damir Stanzer, and Karla Hanousek Čiča

Subjects

0106 biological sciences, biology, Chemistry, business.industry, Flavour, 04 agricultural and veterinary sciences, biology.organism_classification, 040401 food science, 01 natural sciences, Terpenoid, 0404 agricultural biotechnology, 010608 biotechnology, Brewing, Food science, business, Aroma, Food Science

Published

2018

13. Polysaccharides and Antioxidants from Culinary-Medicinal White Button Mushroom, Agaricus bisporus (Agaricomycetes), Waste Biomass

Author

Vlatka Petravić-Tominac, Omoanghe S. Isikhuemhen, Jasenka Piljac-Zegarac, Siniša Srečec, Vesna Zechner-Krpan, Senka Djaković, and Aleksandra Vojvodić Cebin

Subjects

Pharmacology, Mushroom, ABTS, DPPH, Agaricus, Agaricus bisporus, α-glucans, antioxidant properties, β-glucans, medicinal mushrooms, phenolic compounds, polysaccharides, Biomass, Fungal Polysaccharides, Raw material, Solid Waste, Applied Microbiology and Biotechnology, Antioxidants, chemistry.chemical_compound, chemistry, Drug Discovery, Gallic acid, Trolox, Food science, Agaricus bisporus

Abstract

Agaricus bisporus, also known as the white button mushroom or champignon, is the most cultivated mushroom species worldwide. In addition to its favorable nutrient profile, it contains a number of compounds with antioxidant, antibacterial, anti-inflammatory, antitumor, and immunomodulatory activities. Waste biomass is a secondary product obtained from A. bisporus during the harvesting stage. It is underused, although it could be a cheap source of polysaccharides and antioxidants for use in food and feed production, or a source of nutraceuticals and cosmeceuticals. In this study, waste biomass was used as raw material for extraction of crude polysaccharides. The mean amount of crude polysaccharides extracted was 106 g/kg dry weight debris-free mushroom waste biomass. The crude polysaccharides recovered contained 11.57% α-glucan and 16.37% β-glucan. Total carbohydrates composed 44.18%. No significant differences were found in the Fourier transform infrared spectra, which confirmed the presence of protein, α-glucan, and β-glucan in all samples ; phenols were detected only in waste biomass and market-ready A. bisporus fruiting bodies. The total phenol content in methanol extracts of waste biomass and A. bisporus fruiting bodies was 6.16 and 11.25 mg gallic acid equivalents/g extract, respectively. Antioxidant capacities of methanol extracts from waste biomass, as determined by spectrophotometric techniques, were 22.67 μmol Trolox/g extract (ABTS radical scavenging), 51.77 μmol Fe2+/g extract (ferric- reducing antioxidant power), and 51.52% (DPPH radical scavenging). Although these values were lower than those for A. bisporus fruiting bodies, the waste biomass has great potential for use in food, feed, and other bioproducts of economic importance.

Published

2018

14. Kvasci za proizvodnju bioetanola iz hidrolizata lignoceluloznih sirovina

Author

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

Subjects

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.

Published

2017

15. Chemical Constituents of Fruit Wines as Descriptors of their Nutritional, Sensorial and Health-Related Properties

Author

Darko Velić, Ana Mornar, Natalija Velić, Vlatka Petravić Tominac, Ilija Klarić, and Daniela Amidžić Klarić

Subjects

chemistry.chemical_classification, Food industry, business.industry, 010401 analytical chemistry, InformationSystems_INFORMATIONSTORAGEANDRETRIEVAL, Context (language use), 04 agricultural and veterinary sciences, Biology, Fruit wine, Food safety, 040401 food science, 01 natural sciences, 0104 chemical sciences, 0404 agricultural biotechnology, Nutraceutical, Functional food, chemistry, Polyphenol, Food science, business, Essential nutrient, GeneralLiterature_REFERENCE(e.g.,dictionaries,encyclopedias,glossaries)

Abstract

Functional foods are foods that provide positive health effects apart from the provision of essential nutrients. Along with nutraceuticals, they represent the top trends in the food industry. Fruit wines are considered functional foods. When assessing the fruit wine quality, a wide range of descriptors are taken into consideration, namely physicochemical and sensorial properties of fruit wine. Furthermore, within the context of the new food products development (e.g. functional products), functional properties of fruit wines are also taken into consideration. Functional properties are determined by the content of the biologically active components, such as polyphenols, vitamins and micro- and macrominerals. It is also important to consider the food-safety issues regarding the fruit wines consummation, that is, the presence of pesticides, mycotoxins and biogenic amines in different fruit wines. This chapter aims to give an overview of various factors used to evaluate the quality and the functional properties of fruit wines.

Published

2018

16. The production of fruit wines – a review

Author

Vlatka Petravić Tominac, Darko Velić, Rajko Vidrih, Daniela Amidžić Klarić, Ilija Klarić, Natalija Velić, and Tatjana Košmerl

Subjects

lcsh:Food processing and manufacture, lcsh:TP368-456, fruit wines, fruit quality, organic foods, fermentation, functional foods, digestive, oral, and skin physiology, Production (economics), food and beverages, Fermentation, General Medicine, Food science, Biology

Abstract

Fruit wines production has been growing steadily in recent years, and its market potential is strong, which correlates with the demand for and development of new functional products. Likewise, the production of fruit wines has become an integrated component of fruit processing industry, often compensating for post-harvest losses. Fruit wines represent a value-added fruit product. They contain nutritionally important components like minerals and antioxidants, as well as aromatic nuances typically from the fruits used. The paper gives a general overview of the production of fruit wines with a particular emphasis on the quality of fruit to be used for wine processing, as well as fermentation and post-fermentation processes.

Published

2018

17. 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

18. The production of fruit wines – a review

Author

DARKO VELIĆ, NATALIJA VELIĆ, DANIELA AMIDŽIĆ KLARIĆ, ILIJA KLARIĆ, VLATKA PETRAVIĆ TOMINAC, TATJANA KOŠMERL, RAJKO VIDRIH, DARKO VELIĆ, NATALIJA VELIĆ, DANIELA AMIDŽIĆ KLARIĆ, ILIJA KLARIĆ, VLATKA PETRAVIĆ TOMINAC, TATJANA KOŠMERL, and RAJKO VIDRIH

Abstract

Fruit wines production has been growing steadily in recent years, and its market potential is strong, which correlates with the demand for and development of new functional products. Likewise, the production of fruit wines has become an integrated component of fruit processing industry, often compensating for post-harvest losses. Fruit wines represent a value-added fruit product. They contain nutritionally important components like minerals and antioxidants, as well as aromatic nuances typically from the fruits used. The paper gives a general overview of the production of fruit wines with a particular emphasis on the quality of fruit to be used for wine processing, as well as fermentation and post-fermentation processes.

Published

2018

19. Biological Activities of Beta-Glucans Isolated from Spent Brewer's Yeast

Author

Vesna Zechner-Krpan, Lidija Sver, and Vlatka Petravić Tominac

Subjects

Biochemistry, Chemistry, Bioengineering, General Medicine, beta-glucan, spent brewer's yeast, immunomodulation, Beta (finance), Applied Microbiology and Biotechnology, Yeast, Biotechnology

Abstract

β-D-Glucans (hereafter referred to as “β-glucans”) are glucose polymers which belong to a group of physiologically active compounds called “biological response modifiers” (BRMs). Their immunostimulatory activity makes them suitable for application in human and veterinary medicine, in pharmaceutical and chemical industries, as well as in production of food, feed and cosmetics. In the Western world, dietary supplements containing β-glucans up to now have been mostly produced from baker´s yeast, Saccharomyces cerevisiae. Among various compounds that can be isolated from yeast, β-glucans can be used in wound healing and treatment of various diseases, such as cancer, infectious diseases, hypercholesterolaemia and diabetes. Their antioxidative properties and synergistic effect with various drugs and treatments are also reported. In recent years there has been an increasing interest in isolation and use of β-glucan from brewer´s yeast, which is a byproduct of beer production. All samples of insoluble β-glucans, isolated in our experiments from brewer’s yeast using three different procedures and dried using three different methods, showed biological activity. β-Glucan preparations, obtained in modified drying conditions, showed noticeably higher ability of producing TNF-α. Use of spent brewer's yeast as a raw material for β-glucan production is technologically and economically justified.

Published

2017

20. Odabrani biotehnološki čimbenici koji utječu na alkoholnu fermentaciju pri proizvodnji vina

Author

Vlatka Petravić - Tominac, Sven Mujadžić, Vesna Zechner - Krpan, Hrvoje August, Darko Velić, and Natalija Velić

Subjects

proizvodnja vina, fermentacija, usporena fermentacija, zastoj fermentacije

Abstract

Odstupanja od normalnog tijeka fermentacije predstavljaju veliki problem u proizvodnji vina. Važno je poznavati čimbenike koji utječu na tijek fermentacije kako bi se izbjeglo usporavanje i/ili zastoj fermentacije te spriječilo ekonomske gubitke. Brojna istraživanja pokazala su da odstupanja od normalnog tijeka fermentacije mogu imati više uzroka. U ovom radu su ukratko objašnjeni najvažniji čimbenici koji utječu na tijek fermentacije u proizvodnji vina, a mogu se grupirati u tri skupine - nedostatak nutrijenata, prisutnost spojeva koji inhibiraju alkoholnu fermentaciju te utjecaj enoloških postupaka. Pored zasebnih učinaka pojedinih čimbenika, moguće je i smanjenje brzine fermentacije zbog njihovog sinergističkog djelovanja, što fermentacijske probleme čini još složenijima.

Published

2017

21. Analiza vina sorte Škrlet proizvedenih u podregijama Moslavina i Pokuplje

Author

Vlatka Petravić - Tominac, Mateja Belošević, Damir Oros, Vesna Zechner - Krpan, and Mara Banović

Subjects

autohtona sorta grožđa, Moslavina, Pokuplje, Škrlet, autohtona sorta grožđa, Moslavina, Pokuplje, Škrlet

Abstract

Analizirano je pet vina Škrlet proizvedenih od istoimene autohtone sorte grožđa u Volodersko-Ivanićgradskom vinogorju (podregija Moslavina) i Petrinjskom vinogorju (podregija Pokuplje). Primjenom standardnih metoda analize određene su koncentracije reducirajućih šećera, ukupnih kiselina, hlapljivih kiselina, ekstrakta te slobodnog, vezanog i ukupnog SO2. Volumni udio etanola određen je primjenom dviju metoda - tekućinskom kromatografijom visoke djelotvornosti (HPLC) i plinskom kromatografijom (GC). Za određivanje udjela jabučne kiseline, mliječne kiseline i glicerola primijenjena je HPLC metoda. Većina uzoraka zadovoljila je Pravilnikom propisane kriterije za kvalitetna vina, dok je jedan odstupao s obzirom na koncentracije glicerola i ukupnih kiselina.

Published

2016

22. 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

23. 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

24. Lignocelulozni nusprodukti iz poljoprivrede i prehrambene industrije kao pokretač napretka biotehnološke proizvodnje

Author

Vlatka Petravić Tominac, Antonija Trontel, Mario Novak, Nenad Marđetko, Marina Grubišić, Blanka Didak Ljubas, Mateja Buljubašić, and Božidar Šantek

Subjects

prehrambena industrija, biotehnologija, lignocelulozni otpad, obnovljive sirovineobnovljive sirovine, poljoprivreda, Plant ecology, QK900-989, Agriculture

Abstract

Značajne količine raznovrsnih ostataka (odnosno lignocelulozne biomase) nastaju u poljoprivredi, prehrambenoj industriji i šumarstvu. Stoga je važno podići svijest o mogućnostima primjene takvih materijala koji se u današnje vrijeme ne bi trebali tretirati kao otpad, već se mogu koristiti kao obnovljive biotehnološke sirovine za proizvodnju kemikalija, drugih visokovrijednih proizvoda i biogoriva. Lignocelulozni materijal uglavnom sadrži celulozu, hemicelulozu i lignin. Predmet interesa ovog rada je lignocelulozni otpad iz poljoprivrede i prehrambene industrije kao mogući sirovinski temelj za napredak održive biotehnološke proizvodnje u Republici Hrvatskoj. Razmotrene su dostupne količine ovih lignoceluloznih sirovina, tipovi bioprocesa u kojima se one mogu koristiti, postupci predobrade koje je neophodno provesti prije provedbe samog bioprocesa te vrste biotehnoloških proizvoda koje je moguće dobiti.

Published

2022

25. 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

26. Biogas Production Systems and Upgrading Technologies: A Review

Author

Martina Andlar, Halina Belskaya, Galina Morzak, Mirela Ivančić Šantek, Tonči Rezić, Vlatka Petravić Tominac, and Božidar Šantek

Subjects

anaerobic digestion, biogas production, different anaerobic bioreactor systems, biogas purification and upgrading technologies, digestate, Biotechnology, TP248.13-248.65, Food processing and manufacture, TP368-456

Abstract

The underutilized biomass and different organic waste streams are nowadays in the focus of research for renewable energy production due to the effusive use of fossil fuels and greenhouse gas emission. In addition, one of the major environmental problems is also a constant increase of the number of organic waste streams. In a lot of countries, sustainable waste management, including waste prevention and reduction, has become a priority as a means to reduce pollution and greenhouse gas emission. Application of biogas technology is one of the promising methods to provide solutions for both actual energy-related and environmental problems. This review aims to present conventional and novel biogas production systems, as well as purification and upgrading technologies, nowadays applicable on a large scale, with a special focus on the CO2 and H2S removal. It also gives an overview of feedstock and the parameters important for biogas production, together with digestate utilization and application of molecular biology in order to improve the biogas production.

Published

2021

27. The production of fruit wines – a review

Author

DANIELA AMIDŽIĆ KLARIĆ, ILIJA KLARIĆ, VLATKA PETRAVIĆ TOMINAC, TATJANA KOŠMERL, RAJKO VIDRIH, NATALIJA VELIĆ, and DARKO VELIĆ

Subjects

Food processing and manufacture, TP368-456

Abstract

Fruit wines production has been growing steadily in recent years, and its market potential is strong, which correlates with the demand for and development of new functional products. Likewise, the production of fruit wines has become an integrated component of fruit processing industry, often compensating for post-harvest losses. Fruit wines represent a value-added fruit product. They contain nutritionally important components like minerals and antioxidants, as well as aromatic nuances typically from the fruits used. The paper gives a general overview of the production of fruit wines with a particular emphasis on the quality of fruit to be used for wine processing, as well as fermentation and post-fermentation processes.

Published

2018

28. 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