<p>Podizanje novih zasada i povećanje kapaciteta prerade<br />grožđa povećava količinu otpada sa kojim se suočava<br />industrija proizvodnje vina i rakije. Najbolji i najodgovorniji<br />način upravljanja otpadom je njegovo dalje iskorišćenje<br />kao nusproizvoda. U ovoj disertaciji sagledavana je mogućnost iskorišćenja<br />nusproizvoda iz različitih faza proizvodnje u vinarijama i<br />destilerijama za dobijanje semenki grožđa koje su<br />korišćene za proizvodnju hladno presovanog ulja. Hipoteza<br />se zasniva na činjenici da semenke grožđa raznih sorti iz<br />različitih faza proizvodnje vina (bela, roze ili crvena vina),<br />odnosno, rakije mogu imati sasvim različit hemijski sastav i<br />kvalitet koji svakako može da se reflektuje na kvalitet,<br />bioaktivne komponente i održivost hladno presovanog ulja.<br />Ovakav proizvod, obzirom da je dobijen hladnim<br />presovanjem, može biti veoma atraktivan za potrošače,<br />zbog svojih specifičnih senzorskih i nutritivnih<br />karakteristika.<br />Za potrebe izrade disertacije prikupljeni su nusproizvodi<br />i pripremljeni su uzorci iz vinarija i destilerija fruškogorskog<br />vinogorja. Dobijene su semenke i proizvedeno hladno<br />presovano ulje od semenki crnog grožđa sorte Merlot,<br />belog grožđa sorte Italijanski rizling i belog grožđa sorte<br />Sila, kao autohtone sorte vinove loze. Hladno presovana<br />ulja su proizvedena od semenki grožđa koje nisu prošle<br />nikakav tretman, odnosno dobijene su nakon presovanja,<br />prilikom proizvodnje belih (Italijanski rizling i Sila) i roze<br />(Merlot) vina, zatim od semenki koje su prošle proces<br />fermentacije prilikom proizvodnje crvenih vina (Merlot) i od<br />semenki koje su prošle proces fermentacije i destilacije<br />prilikom proizvodnje rakije (Merlot, Italijanski rizling i Sila).<br />Pored navedenih semenki i ulja, pripremljen je i prosečan<br />proizvodni uzorak koji predstavlja uzorak dobijen od svih<br />prikupljenih semenki. Kao uporedni uzorci korišćeno je<br />nerafinisano i rafinisano ulje od semenki grožđa nabavljeno<br />na tržištu. Za realizaciju postavljenog cilja, rad na izvođenju ove<br />disertacije obuhvatio je različite faze. U prvoj fazi<br />prikupljene su semenke grožđa i ispitivane su njihove<br />tehničko-tehnološke karakteristika i kvalitet. Zatim su od<br />navedenih semenki proizvedena hladno presovana ulja.<br />U sledećim fazama, ovako dobijena uja, zajedno sa<br />uzorkom nerafinisanog i rafinisanog ulja od semenki<br />grožđa sa tržišta ispitivana su sa aspekta senzorskog i<br />nutritivnog kvaliteta i praćene su razlike u održivosti ulja.<br />Izvršena je senzorska analiza, određivane su frakcije<br />pigmenata, karotenoidi i hlorofili, merena je transparencija,<br />a parametri boje ulja određivani su i instrumentalno.<br />Nutritivni kvalitet ulja sagledavan je na osnovu sadržaja i<br />sastava bioaktivnih komponenti, pre svega tokoferola i<br />tokotrienola, fenola i sterola. Budući da ova jedinjenja<br />ispoljavaju značajne antioksidativne aktivnosti izvršeno je i<br />ispitivanje antiradikalske aktivnosti uzoraka. Odživost ulja<br />od semenki grožđa sagledana je na osnovu početnog<br />kvaliteta i oksidativnog stanja, kao i rezultata ubrzanih<br />testova, kao što je Rancimat test, Schaal-oven test i<br />fluorescentni test.<br />Na osnovu dobijenih rezultata, može se konstatovati da<br />su svi dobijeni uzorci semenki imali dobru skladišnu vlagu,<br />koja, obzirom na mali sadržaj ulja u semenkama, može da<br />osigura čuvanje semenki u dužem periodu. Sadržaj ulja u<br />semenkama, pored uticaja sorte vinove loze, zavisi i od<br />uticaja procesa kome su podvrgnute semenke pre<br />presovanja (fermentacija, destilacija).<br />Senzorska analiza ulja od semenki grožđa pokazala je<br />značajne razlike u karakteristikama koje su posledica ne<br />samo načina dobijanja ulja (hladno presovano ili rafinisano), sorte vinove loze, već i postupka dobijanja,<br />porekla i kvaliteta semenki grožđa. Uslovi kojima su<br />semenke grožđa izložene u toku alkoholne fermentacije i<br />posebno destilacije utiču na formiranje specifične arome<br />hladno presovanog ulja. I pored toga što se pojavljuje<br />izuzetno širok spektar različitih aroma, mirisa i ukusa u ulju<br />i što postoje značajne razlike u aromi ulja u zavisnosti od<br />sorte grožđa, moguće je prepoznati da li je hladno<br />presovano ulje dobijeno od semenki grožđa bez<br />fermentacije, posle fermentacije ili posle destilacije.<br />Takođe, sa aspekta boje ulja može se kazati da rafinisano<br />ulje od semenki grožđa ima svetlo žutu boju sa<br />zelenkastom nijansom, dok su hladno presovana ulja<br />intenzivnijih boja i kreću se od žuto-zelenkaste, preko<br />zelenkasto žute i svetlo zelenkaste do tamno zelene. Veći<br />udeo zelene boje imaju hladno presovana ulja od semenki<br />grožđa dobijenih posle destilacije.<br />U radu je pokazano da sadržaj pigmenata (karotenoida i<br />hlorofila) u velikoj meri zavisi od porekla semenki.<br />Postupak fermentacije doprinosi povećanju sadržaja<br />pigmenata, dok postupak destilacije, zbog visokih<br />temperatura ima negativan efekat.<br />Transparencija uzoraka hladno presovanih ulja od<br />semenki grožđa proizvedenih za potrebe disertacije kretala<br />se od 32,8% do 53,8%.<br />Sadržaj nezasićenih masnih kiselina u svim uzorcima<br />ulja od semenki grožđa veći je od 90%, pri čemu<br />dominantnu masnu kiselinu čini linolna, omega-6, masna<br />kiselina.<br />Sadržaj tokotrienola je veći od sadržaja tokoferola u uljima od semenki grožđa, a dominantni tokoferol je alfatokoferol.<br />Njegov sadržaj je veći u uzorcima ulja dobijenim<br />iz semenki nakon fermentacije i destilacije.<br />Sadržaj fenolnih jedinjenja, u zavisnosti od sorte, u<br />proseku je nešto viši u hladno presovanim uljima dobijenim<br />od crvene sorte grožđa, ali uočava se i značajan porast<br />(akumulacija) fenola u hladno presovanim uljima dobijenim<br />iz semenki grožđa nakon procesa fermentacije i destilacije.<br />Najveći pojedinačni sadržaju u ulju od semenki grožđa ima<br />ursolna kiselina, a pored nje značajniji sadržaj, mada<br />mnogo manji, pokazuju rezveratrol, kemferol i vanilinska<br />kiselina.<br />Najzastupljeniji steroli ulja semenki grožđa su β-<br />sitosterol sa udelom od 62,59-69,74%, stigmasterol sa<br />udelom od 12,13-15,00% i kampesterol sa udelom od 6,59-<br />11,94% u ukupnim sterolima. Na sadržaj fitosterola u<br />uljima od semenki grožđa nemaju uticaja procesi<br />fermentacije i destilacije kojima su podvrgnute semenke<br />pre preosvanja.<br />U radu je dokazan negativan uticaj procesa fermentacije<br />i destilacije kojima su povrgnute semenke grožđa na<br />antiradikalski potencijal dobijenih ulja. Antiradikalski<br />potencijal ulja od semenki grožđa zavisi i od sorte vinove<br />loze, kao i od načina dobijanja ulja (hladno presovano ili<br />rafinisano).<br />Procesi fermentacije i destilacije utiču i na osnovni<br />hemijski kvalitet dobijenih hladno presovanih ulja na način<br />da dovode do povećanja kiselinskog i peroksidnog broja.<br />Hladno presovana ulja od semenki grožđa pokazuju<br />dobru oksidativnu stabilnost. Rancimat test je pokazao razlike u indukcionom periodu hladno presovanih ulja od<br />semenki grožđa kao posledicu razlike u sorti, kao i u<br />načinu dobijanja semenki. Proces fermentacije utiče na<br />povećanje, a proces destilacije na smanjenje indukcionog<br />perioda.<br />Na osnovu svih dobijenih rezultata istraživanja može se<br />konstatovati da su hladno presovana ulja od semenki<br />grožđa pokazala različit nutritivni kvalitet i oksidativnu<br />stabilnost, zbog specifičnih razlika koje su posledica razlika<br />u sorti i poreklu semenki, tj. zbog specifičnog efekta<br />fermentacije i destilacije na semenke od kojih je ulje<br />proizvedeno, čime je i potvrđena hipoteza.</p> / <p>Raising new plantations and increasing the grape<br />processing capacity increases the amount of waste faced<br />by the wine and brandy industry. The best and most<br />responsible way of waste management is its further<br />exploitation as by-products.<br />In this dissertation, the possibility of using by-products from different stages of production in wineries and distilleries for<br />obtaining grape seeds, which were used for the production<br />of cold pressed oil, was examined. The hypothesis is<br />based on the fact that grape seeds of various varieties<br />from different stages of wine production (white, rose or red<br />wine), that is, brandy can have a completely different<br />chemical composition and quality that can certainly be<br />reflected on the quality, bioactive components and stability<br />of cold pressed oil.<br />Such a product, as it is obtained by cold pressing, can<br />be very attractive to consumers, due to its specific sensory<br />and nutritional characteristics.<br />For the needs of the dissertation, the by-products were<br />collected and samples were prepared from the wineries<br />and distilleries of the Fruška Gora vineyard. Seeds were<br />obtained and cold pressed oil produced from Merlot grape<br />seed, as representatives of red grape varieties, Italian<br />Riesling, as representatives of white grape varieties and<br />Sila, as new white grape varieties. Cold pressed oils were<br />produced from grape seeds that did not undergo any<br />treatment, that is, they were obtained after pressing, during<br />the production of white (Italian Riesling and Sila) and rose<br />(Merlot) wines, then from the seeds that were fermented<br />during the production of red wines (Merlot ) and seeds that<br />have undergone fermentation and distillation process<br />during the production of brandy (Merlot, Italian Riesling and<br />Sila). In addition to the mentioned seeds and oils, an<br />average production sample was prepared, which is a<br />sample obtained from all collected seeds. Unrefined and<br />refined grape seed oil purchased on the market was used<br />as comparative samples. For realization of the set goal, the work on the<br />performance of this dissertation encompassed different<br />phases. In the first phase, grape seed were collected and<br />their technical and technological characteristics and quality<br />were examined. Then cold-pressed oils were produced<br />from these seeds.<br />In the following phases, the resulting ear, together with a<br />sample of unrefined and refined grape seed oil from the<br />market, were examined from the aspect of sensory and<br />nutritional quality and differences in oil stability were<br />observed. Sensory analysis was performed, pigmentate<br />fractions, carotenoids and chlorophylls were determined,<br />transparency was measured, and oil color parameters<br />were also determined instrumentally. The nutritive oil<br />quality was examined based on the content and<br />composition of bioactive components, primarily tocopherols<br />and tocotrienols, phenols and sterols. Since these<br />compounds exhibit significant antioxidant activities, the<br />antiradical activity of the samples was also tested. The<br />stability of grape seed oils was examined based on the<br />initial quality and the oxidative state, as well as the results<br />of accelerated tests, such as Rancimat test, Schaal-oven<br />and fluorescence test.<br />On the basis of the obtained results, it can be concluded<br />that all the obtained seed samples had good storage<br />moisture, which, given the small content of oil in the seeds,<br />can ensure the storage of seeds for a longer period. The<br />content of oil in the seed, in addition to the influence of the<br />grape variety, depends on the influence of the process to<br />which the seeds are subjected to pressing (fermentation,<br />distillation). Sensory analysis grape seed oils showed significant<br />differences in characteristics that are due not only to the<br />method of obtaining oil (cold pressed or refined), grape<br />varieties, but also the method of obtaining, the origin and<br />quality of grape seed. The conditions for grape seeds<br />exposed during fermentation and especially distillation<br />affect the formation of a specific cold pressed oil. Although<br />an extremely wide range of different flavors, odors and<br />flavors in oil appear, and there are significant differences in<br />the aroma of the oil, depending on the grape variety, it is<br />possible to recognize whether the cold-pressed oil is<br />derived from the grape seed without fermentation, after<br />fermentation or after distillation. Also, from the aspect of oil<br />color it can be said that refined grape seed oil has a light<br />yellow color with a greenish shade, while cold pressed<br />grape seed oils have more intense colors range from<br />yellowish-greenish, over greenish yellow and light greenish<br />to dark green. A higher proportion of green color has cold<br />pressed grape seed oils obtained after distillation.<br />The thesis has shown that the content of pigments<br />(carotenoids and chlorophyll) depends to a great extent on<br />the origin of the seed. The fermentation process<br />contributes to increasing the content of pigments, while the<br />distillation process has a negative effect due to high<br />temperatures.<br />Transparency of cold pressed grape seed oils produced<br />for the dissertation ranged from 32.8% to 53.8%.<br />The content of unsaturated fatty acids in all samples of<br />grape seed oil is greater than 90%, with the dominant fatty<br />acid being linoleic, omega-6, fatty acid. The content of tocotrienols is higher than the content of<br />tocopherols in grape seed oils, and the dominant<br />tocopherol is alpha-tocopherol. Its content is higher in oil<br />samples obtained from the seed after fermentation and<br />distillation.<br />The content of phenol compounds, depending on the<br />variety, is somewhat higher in cold pressed oils obtained<br />from red grape varieties, but there is also a significant<br />increase in accumulation of phenol in cold pressed oils<br />obtained from the grape seed after the fermentation and<br />distillation process. The largest individual oil content of<br />grape seeds has ursolic acid, and besides it, significant<br />content, although much smaller, shows rezveratrol,<br />kemferol and vanillinic acid.<br />The most prevalent sterols of grape seed oils are β-<br />sitosterol with a share of 62.59-69.74%, stigmasterol with a<br />share of 12.13-15.00% and campesterol with a share of<br />6.59-11.94% in total sterols. Fermentation and distilation<br />processes, to which the seeds have been exposed, have<br />no effect on the content of phytosterols in grape seed oils.<br />The paper has shown the negative influence of the<br />fermentation and distillation process, to which the seeds<br />have been exposed, onto the antiradical potential of the<br />obtained oils. The antiradical potential of grape seed oils<br />depends on grape varietes, as well as on the way oil is<br />obtained (cold pressed or refined).<br />Processes of fermentation and distillation also affect the<br />basic chemical quality of obtained cold pressed oils in such<br />a way as to increase the acid and peroxide values.<br />Cold pressed grape seed oils show good oxidative stability. The Rancimat test showed differences in the<br />induction period of cold pressed grape seed oils as a result<br />of the variation in the variety, as well as in the method of<br />obtaining the seed. The fermentation process affects the<br />increase, and the process of distillation decreases the<br />induction period.<br />Based on all the obtained results, it can be concluded<br />that cold pressed grape seed oils showed different<br />nutritional quality and oxidative stability due to specific<br />differences resulting from differences in variety and seed<br />origin, i.e. due to the specific effect of fermentation and<br />distillation processes on the seeds from which the oil was<br />produced, thus confirming the hypothesis.</p>
| Identifer | oai:union.ndltd.org:uns.ac.rs/oai:CRISUNS:(BISIS)110946 |
| Date | 27 September 2019 |
| Creators | Bjelica Miloš |
| Contributors | Dimić Etelka, Puškaš Vladimir, Rabrenović Biljana |
| Publisher | Univerzitet u Novom Sadu, Tehnološki fakultet Novi Sad, University of Novi Sad, Faculty of Technology at Novi Sad |
| Source Sets | University of Novi Sad |
| Language | Serbian |
| Detected Language | Unknown |
| Type | PhD thesis |
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