Issue №: 3(114)
The journal deals with the problems of vibration technologies and machines, mathematical methods of vibration process studies, information on design and technological development, presents teaching and methodological aspects of teaching in the Higher School of Applied Sciences, where vibration machines and technologies are studied.
EXPERIMENTAL STUDIES OF THE DRYING PROCESS OF WALNUTS IN A CONVECTIVE BUNKER DRYER
Lavreniuk Petro - postgraduate student of the Department of machinery and equipment for agricultural production of Vinnytsia National Agrarian University (3 Soniachna Street, Vinnytsia, 21008, Ukraine, e-mail: lavreniuk.petro.1239@gmail.com). ORCID 0000-0002-2480-7365.
Walnuts are a high-calorie source of micro- and macronutrients, which makes them a valuable bio-concentrate for nutrition. However, to preserve their quality during storage and transportation, it is important to consider the botanical variety and growing conditions, as they affect resistance to oxidation. To ensure long-term storage and high quality of walnuts, it is necessary to improve drying methods that allow to reduce humidity to a safe level, minimize energy consumption and reduce the risks of spoilage and oxidative deterioration of product quality. The purpose of the study is to establish the functional dependencies of the process of drying walnuts and justify the optimal design, operating and technological parameters of the convective bunker dryer. An experimental sample of the CGK-4 «Tiras» walnut dryer was made to check the theoretical dependencies and justify the design and technological parameters of the dryer. Experimental studies were conducted on freshly picked walnuts of the Chandler variety with an initial moisture content of 22–28%. The effect of such factors as screw rotation frequency, air supply and drying duration on drying quality, energy consumption and productivity was studied. Modern methods of measuring humidity and energy consumption were used for the research, which made it possible to determine the average moisture of nuts, homogeneity of moisture, productivity of the dryer and efficiency of energy consumption. On the basis of the conducted studies, the functional dependence of the process of drying walnuts was determined, namely changes in the average moisture content of nuts wμ (%), homogeneity of moisture content of nuts in the hopper Θw (%) and specific energy consumption for the drying process Eq (MJ/kg) on the screw rotation frequency n (rpm), air supply Q (m3/h) and drying time t (h). These dependencies make it possible to justify the optimal parameters of the convective hopper dryer to ensure efficient and uniform drying: n = 30.6 rpm, Q = 1690.5 m3/h, t = 10.7 h. With these values wμ = 8%, Θw = 95% and Eq = 0.558 MJ/kg.
1. Mezhenskyi, V.M. (2020). Walnut (Juglans regia L.). Kyiv: Lyra-K Publishing House. ISBN 978-617-520-015-5 [in Ukrainian].
2. Poperechnyi, A.M., Korniichuk, V.H. (2009). The value of nut raw materials and prerequisites for their processing. Equipment and technologies of food production. Collection of scientific papers. 20, 5 p [in Ukrainian].
3. Wongso, I. (2021). Drying and quality characteristics of almonds and walnuts with different drying conditions (Master's thesis). University of California, Davis. 112 p [in English].
4. Chen, X.D. (2007). Moisture diffusivity in food and biological materials. Drying Technology. 25 (8), P. 1203-1213 [in English].
5. Zhang, L., Wang, Z., Shi, G., Yang, H., Wang, X., Zhao, H., Zhao, S. (2018). Effects of drying methods on the nutritional aspects, flavor, and processing properties of Chinese chestnuts. Journal of Food Science and Technology. 55 (8), P. 3207-3214 [in English].
6. Gharibzahedi, S.M.T., Ghahderijani, M., Lajevardi, Z.S. (2014). Specific heat, thermal conductivity and thermal diffusivity of red lentil seed as a function of moisture content. Journal of Food Processing and Preservation. 38 (6), P. 1807-1811 [in English].
7. Mamani, I. (2015). Modeling of thermal properties of Persian walnut kernel as a function of moisture content and temperature using response surface methodology. Journal of Food Processing and Preservation. 39 (12), P. 2762-2772 [in English].
8. Chen, X.D. (2007). Moisture diffusivity in food and biological materials. Drying Technology. 25 (7), P. 1203–1213.
9. Mujumdar, A. S. (2014). Handbook of industrial drying (4th ed.). CRC Press [in English].
10. Zhang, L., Wang, Z., Shi, G., Yang, H., Wang, X., Zhao, H., Zhao, S. (2018). Effects of drying methods on the nutritional aspects, flavor, and processing properties of Chinese chestnuts. Journal of Food Science and Technology. 55 (5), P. 1733-1742 [in English].
11. Wang, W., Jung, J., McGorrin, R. J., Traber, M. G., Leonard, G. C., Zhao, Y. (2018). Investigation of drying conditions on bioactive compounds, lipid oxidation, and enzyme activity of Oregon hazelnuts (Corylus avellana L.). LWT-Food Science and Technology. 90, P. 526-534 [in English].
12. Sahnia, E. K., Chaudhuri, B. (2012). Contact drying: A review of experimental and mechanistic modeling approaches. International Journal of Pharmaceutics. 434 (1–2), P. 334-348 [in English].
13. Stahl, M., Granström, M., Berghel, J. R., Renström, M. (2004). Industrial processes for biomass drying and their effects on the quality properties of wood pellets. Biomass and Bioenergy. 27 (6), P. 621-628 [in English].
14. Murugan, P., Dhanushkodi, S., Sudhakar, K., Wilson, V. H. (2021). Industrial and small-scale biomass dryers: An overview. Energy Engineering. 118 (3), P. 435-446 [in English].
15. Dhanushkodi, S., Wilson, V. H., Sudhakar, K. (2015). Design and performance evaluation of biomass dryer for cashewnut processing. Advances in Applied Science Research. 6 (8), P. 101-111 [in English].
16. Yaropud, V.M., Lavreniuk, P.P. (2023). Ways to improve the design of a convective walnut dryer. Technology, energy, agriculture transport AIC. 1 (120), P. 120-131 [in Ukrainian].
17. Yaropud, V.M., Sharhorodskyi, S.A., Luts, P.M., Lavreniuk, P.P. (2022). Simulation of the walnut drying process in a convective dryer. Technology, energy, agriculture transport AIC. 3 (118), P. 101-109 [in Ukrainian].
18. Kaletnik, H., Yaropud, V., Kupchuk, I., Aliiev, E., Babyn, I., Lavreniuk, P. (2023). Modeling of the technological process of walnut drying in a convective dryer. Przegląd Elektrotechniczny. 99 (12), P. 91-97 [in English].
19. Kaletnik H.M., Yaropud V.M., Sharhorodskyi S.A., Lavreniuk P.P. (2023). Patent for utility model. Convective dryer for walnuts. № 153978. Ukraine [in Ukrainian].
About journal
The journal "Vibrations in engineering and technology" presents materials on the following issues
• Theory of processes and machines
• Mechanical Engineering and materialprocessing
• Processing and food production
The journal "Vibrations in Engineering and Technologies" is included in the list of technical scientific publications of Ukraine
(Category "B", Order of the Ministry of Education and Science of Ukraine dated July 2, 2020 No. 886)
Old version of the site: http://vibrojournal.vsau.edu.ua/
The journal "Vibrations in Engineering and Technology" is indexed by the following databases and catalogs:
The certificateof massmedia State registration:kv no 16643-5115 from 30.04.2010 .
Founder of the journal: Vinnytsia National Agrarian University
Kind of publication: journal
Type of publication : Scientific
Publication status: Domestic
Year of founding:
Periodicity: 4 times a year
Extent: 18.75 nominal printed pages
ISSN: 2306-8744 (printed version), (online)
Language of edition : (mixed languages) Ukrainian, English
The scope of the distribution and the category of readers: national, foreign, teaching staff, scientists, businessmen.
Periodical is included in the list of scientific professional editions of Ukraine approved by the Order of Ministry of Education and Sciences of Ukraine from 21.12.2015 No. 1328.
The journal "Vibrations in engineering and technology" is included in the "Catalogue of periodicals of Ukraine".
Journal subscription can be executed in each post office department.
Subscription Index is 99720.
Old version of site: http://vibrojournal.vsau.edu.ua/
In June 1994 the 2nd International Scientific and Technical Conference "Application of vibrations for technological purposes" was organized on the basis of Vinnytsia State Agricultural Institute. Leading experts in this field, noting the significant contribution to the school of Vibration Engineering under the leadership of P. S. Bernyk, proposed to create a professional all-Ukrainian scientific and technical journal "Vibration in engineering and technology..The journal was foundedat Vinnytsia State Agricultural Institute and P.S. Bernyk was elected to be the chief editor .
For all these years (since 1994) theJournal "vibration in engineering and technology" published 94 issues wherestudy of vibration effects, the creation of progressive energy saving technologies and equipment for their implementation were highlighted.
Currently Kaletnik H.M PhD , professor, academician NAAS is the chief editor of the "Vibrations in engineering and Technology"
The journal "Vibration in Engineering and technology", which has no analogues on the territory of Ukraine, is well known abroad.
