Identyfikatory
Warianty tytułu
Wykorzystanie bioodpadów owocowych na przykładzie wytłoków jabłkowych®
Języki publikacji
Abstrakty
Apple processing generates a huge amount of bio-waste in the form of pomace, which instead of being managed, contribute to environmental pollution. Apple pomace is formed mainly at the stage of apple processing and food production. It is valuable material that can be reused in a agriculture industry according to the circular economy concept. Unprocessed or slightly processed fruit residues can be converted into animal feed or be used as biofertilizers. Apple pomace contains valuable substances and compounds that can be successfully used in food, cosmetic and pharmaceutical products. Another form of using apple pomace is the extraction of biofuels. According to the idea of sustainable development rational management of bio-waste benefits economically, reduces environmental pollution and contributes to the reduction of greenhouse gas emissions.
Przetwórstwo jabłek generuje ogromną ilość bioodpadów w postaci wytłoków, które zamiast być zagospodarowane, przyczyniają się do zanieczyszczenia środowiska. Wytłoki jabłkowe powstają głównie na etapie przetwarzania jabłek i produkcji żywności. Jest to cenny materiał, który może być ponownie wykorzystany w przemyśle rolniczym zgodnie z koncepcją gospodarki o obiegu zamkniętym. Nieprzetworzone lub lekko przetworzone pozostałości owoców mogą być przekształcane w paszę dla zwierząt lub stosowane jako bionawozy. Wytłoki jabłkowe zawierają cenne substancje i związki, które z powodzeniem mogą być stosowane w produktach spożywczych, kosmetycznych i farmaceutycznych. Inną formą wykorzystania wytłoków jabłkowych jest produkcja biopaliw. Zgodnie z ideą zrównoważonego rozwoju, racjonalne gospodarowanie bioodpadami przynosi korzyści ekonomiczne, zmniejsza zanieczyszczenie środowiska i przyczynia się do redukcji emisji gazów cieplarnianych.
Wydawca
Czasopismo
Rocznik
Tom
Strony
102--107
Opis fizyczny
Bibliogr. 33 poz., tab.
Twórcy
autor
- Warsaw University of Life Sciences – WULS, Poland
Bibliografia
- [1] ALONGI M., S. MELCHIOR, M. ANESE. 2019. “Reducing the glycemic index of short dough biscuits by using apple pomace as a functional ingredient”. LWT-Food Science and Technology 100: 300–305.
- [2] BARREIRA J.C.M., A.A. ARRAIBI, I.C.F.R. FERREIRA. 2019. “Bioactive and functional compounds in apple pomace from juice and cider manufacturing: Potential use in dermal formulations”. Trends in Food Science & Technology 90: 76–87.
- [3] BISHT B., P. GURURANI, J. AMAN, M.S. VLASKIN, A.I. KURBATOVA, I.A. ADARCHENKO, J. SALONI, K. SANJAY, K. VINOD. 2022. “A review on holistic approaches for fruits and vegetables biowastes valorisation”. Materials Today: Proceedings. Article in press.
- [4] CALDEIRA C., V. de LAURENTIIS, A. GHOSE, S. CORRADO, S. SALA. 2021. “Grown and thrown: exploring approaches to estimate food waste in EU countries”. Resources Conservation and Recycling 168: 105426.
- [5] CALDEIRA C., V. de LAURENTIIS, F. van HOLSTEIJN, S. SALA. 2019. “Quantification of food waste per product group along the food supply chain in the European Union: a mass flow analysis”. Resources Conservation and Recycling 149: 479–488.
- [6] CALVETE-TORRE I., C. SABATER, M.J. ANTÓN, F.J. MORENO, S. RIESTRA, A. MARGOLLES, L. RUIZ. 2022. “Prebiotic potential of apple pomace and pectins from different apple varieties: Modulatory effects on key target commensal microbial populations”. Food Hydrocolloids 133: 107958.
- [7] CANDRAVINATA V.I., J.B. GOLDING, P.D. ROACH, C.E. STATHOPOULOS. 2013. “From apple to juice-the fate of polyphenolic compounds”. Food Reviews International 9:276–293.
- [8] CHOJNACKA K., K. MOUSTAKAS, M. MIKULEWICZ. 2022. “Valorisation of agri-food waste to fertilisers is a challenge in implementing the circular economy concept in practice”. Environmental Pollution 312: 119906.
- [9] COMMUNICATION FROM THE COMMISSION TO THE EUROPEAN PARLIAMENT, THE COUNCIL, THE EUROPEAN ECONOMIC AND SOCIAL COMMITTEE AND THE COMMITTEE OF THE REGIONS. A new Circular Economy Action Plan (europa.eu) Brussels, 11.3.2020 COM(2020) 98 final. https://eur-lex.europa.eu
- [10] COMUNIAN T.A., M.P. SILVA, C.F.J. SOUZA. 2021. “The use of food by-products as a novel for functional foods: their use as ingredients and for the encapsulation process”. Trends in Food Science & Technology. 108: 269-280.
- [11] COSTA J.M., L.C. AMPESE, T. FORSTERCARNEIRO. 2022. “Apple pomace biorefinery: Integrated approaches for the production of bioenergy, biochemicals, and value-added products – an updated review”. Journal of Environmental Chemical Engineering 10(5): 5 108358.
- [12] Da SILVA, L.C., M.C. SOUZA, B.R. SUMERE, L.G.S. SILVA, D.T. Da CUNHA, G.F. BARBERO, R.M.N. BEZERRA, M.A. ROSTYAGNO. 2020. “Simultaneous extraction and separation of bioactive compounds from apple pomace using pressurized liquids coupled on-line with solid-phase extraction”. Food Chemistry 318:126450.
- [13] DIRECTIVE (EU) 2018/851 of the European Parliament and of the Council of 30 May 2018 Amending Directive 2008/98/EC on Waste. https://doi. org/10.2800/884986.
- [14] DORNI A.I.C., A. AMALRAJ, S. GOPI, K. VARMA, S.N. ANJANA. 2017. “Novel cosmeceuticals from plants – an industry guided review”. Journal of Applied Research on Medicinal and Aromatic Plants 7: 1–26. https://doi.org/10.1016/j.jarmap.2017.05.
- [15] DZIAŁO M., J. MIERZIAK, KORZUN, M. PREISNER, J. SZOPA, A. KULMA. 2016. “The potential of plant phenolics in prevention and therapy of skin disorders”. International Journal of Molecular Sciences 17(2):160.
- [16] GÓRNAŚ P., M. RUDZIŃSKA. 2016. “Seeds recovered from industry by-products of nine fruit species with a high potential utility as a source of unconventional oil for biodiesel and cosmetic and pharmaceutical sectors”. Industrial Crops and Products 83: 329–338.
- [17] GUSTAFSSON J., M. LANDBERG, V. BÁTORI, D. ÅKESSON, M.J. TAKERZADEH, A. ZAMANI. 2019. “Development of bio-based films and 3D objects from apple pomace”. Polymers 11(2): 289.
- [18] HUDA A.B., S. PARVEEN, S.A.RATHER, R. AKHTER, M. HASSAN. 2014. “Effect of incorporation of apple pomace on the physico-chemical, sensory and textural properties of mutton nuggets”. International Journal of Advanced Research 2(4): 974–983.
- [19] KRUCZEK M., D. GUMUL, M. KAČÁNIOVÁ, E. IVANIŚHOVÁ, J. MAREČEK, H. GAMBUŚ. 2017. “Industrial apple pomace by-products as a potential source of pro-health compounds in functional food”. Journal of Microbiology Biotechnology and Food Science 7(1): 22–26.
- [20] LIU, H. V., V. KUMAR, L. JIA, S. SARSAIYA, D. KUMAR, A. JUNEJA, Z. ZHANG, R. SINDHU, P. BINOD, S.K. BHATIA, M.K. AVASTHI. 2021. “Biopolymer poly-hydroxyalkanoates (PHA) production from apple industrial waste residues: a review”. Chemosphere 284: 131427.
- [21] LYU F., S.F. LUIZ, D.R.P. AZEREDO, A.G. CRUZ, S. AILOUNI, S. RANADHEERA. 2020. “Apple pomace as a functional and healthy ingredient in food products: a review”. Processes 8(3): 319.
- [22] MARTĂU G.A., B.E. TELEKI, F. RANGA, I.D. POP, D.C. VODNAR. 2021. “Apple pomace as a sustainable substrate in sourdough fermentation”. Frontiers in Microbiology 12: 742020.
- [23] OLIVEIRA D.T.C.G., W.G. SGANZERLA, L.C. AMPESE, B. P. SFORCA, R. GOLDBECK, T. FORSTER-CARNEIRO. 2022. “Sustainable valorization of apple waste in a biorefinery: a bibliometric analysis”. Biofuels Bioproducts and Biorefining 16:891–919.
- [24] PRZYBYLSKI W., D. JAWORSKA, B. SIONEK, W. SANKOWSKA, M. WÓJTOWICZ. 2022. “Functional and sensory properties of gingerbread enriched with the addition of vegetables”. Applied Sciences 12(18). https://www.mdpi.com/2076- 3417/12/18/9267.
- [25] QUEJI M.D., G. WOSIACKI, G.A. CORDEIRO, P.G. PERALTA-ZAMORA, N. NAGATA. 2010. “Determination of simple sugars, malic acid and total phenolic compounds in apple pomace by infrared spectroscopy and PLSR”. International Journal of Food Science & Technology 45:602–609.
- [26] RABATAFIKA N.H., B. BHIR, C. BLECHER, A. RICHEL. 2014. “Fractionation of apple by-products as source of new ingredients: current situation and perspectives”. Trends in Food Science and Technology 40(1): 99–114.
- [27] RATHER S.A., R. AKHTER, F.A. MASOODI, A. GANI, S.M. WANI. 2015. “Utilization of apple pomace powder as a fat raplacer in goshtaba: a traditional meat product of Jammu and Kashmir, India”. Journal of Food and Measurement and Characterization 9: 389–399.
- [28] REIS F., D.K. RAI, N. ABU-GHANNAN. 2014. “Apple pomace as a potential ingredient for the development of new functional foods”. International Journal of Food Science and Technology 49: 1743–1750.
- [29] STATISTICS POLAND DATA. 2020. https://stat. gov.pl.
- [30] SUDHA N.L., V. BASKARAN, K. LEELAVATHI. 2007. “Apple pomace as a source of dietary fiber and polyphenols and its effect on the rheological characteristics and cake making”. Food Chemistry 104(2): 686–692.
- [31] WILL F., M. OLK, I. HOPF, H. DIETRICH. 2006. “Characterization of polyphenol extracts from apple juice”. Deutsche Lebensmillte-Rundschau 102(7): 297–302.
- [32] YADAW S., A. MALIK, A. PATHERA, R.U. ISLAM, D. SHARMA. 2016. “Development of dietary fibre enriched chicken sausages by incorporating corn bran, dried apple pomace and dried tomato pomace.” Nutrition & Food Science 46: 16–29.
- [33] YOUNIS K., S. AHMAD. 2018. “Quality evaluation of buffalo meat patties incorporated with apple pomace powder.” Buffalo Bulletin 37(3): 389–401.
Uwagi
Opracowanie rekordu ze środków MEiN, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2022-2023).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-2e66d439-a82e-4fea-9b95-1465b3b7eac5