Affiliation:
1. Department of Thermal Technology and Food Process Engineering, University of Life Sciences in Lublin, 20612 Lublin, Poland
2. Department of Analytical Chemistry, Faculty of Pharmacy, Dicle University Science and Technology Research and Application Center (DUBTAM), 21280 Diyarbakır, Türkiye
3. Department of Molecular Biology and Genetics, Faculty of Science and Art, Bingöl University, 12000 Bingöl, Türkiye
Abstract
Pear pomace, a byproduct of juice production, represents a valuable reservoir of bioactive compounds with potential health benefits for humans. This study aimed to evaluate the influence of drying method and temperature on pear pomace, specifically focusing on the drying kinetics, grinding characteristics, color, phenolic profile (LC-MS/MS), and antioxidant activities of the powder. Drying using the contact method at 40 °C with microwave assistance demonstrated the shortest duration, whereas freeze-drying was briefer compared to contact-drying without microwave assistance. Freeze-drying resulted in brighter and more easily comminuted pomace. Lyophilized samples also exhibited higher total phenolic compound levels compared to contact-dried ones, correlating with enhanced antioxidant activity. Twenty-one phenolic compounds were identified, with dominant acids being quinic, chlorogenic, and protocatechuic. Flavonoids, primarily isoquercitrin, and rutin, were also presented. Pear pomace dried via contact at 60 °C contained more quinic and protocatechuic acids, while freeze-dried pomace at the same temperature exhibited higher levels of chlorogenic acid, epicatechin, and catechin. The content of certain phenolic components, such as gallic acid and epicatechin, also varied depending on the applied drying temperature.
Funder
University of Life Sciences in Lublin, Poland
Reference69 articles.
1. Gołębiewska, E., Kalinowska, M., and Yildiz, G. (2022). Sustainable use of apple pomace (AP) in different industrial sectors. Materials, 15.
2. Antioxidative and immunostimulant potential of fruit derived biomolecules in aquaculture;Habotta;Fish Shellfish Immunol.,2022
3. Lyu, F., Luiz, S.F., Azeredo, D.R.P., Cruz, A.G., Ajlouni, S., and Ranadheera, C.S. (2020). Apple pomace as a functional and healthy ingredient in food products: A review. Processes, 8.
4. Pomace waste management scenarios in Québec—Impact on greenhouse gas emissions;Gassara;J. Hazard. Mater.,2011
5. Food waste and byproducts: An opportunity to minimize malnutrition and hunger in developing countries;Picazo;Front. Sustain. Food Syst.,2018