Substantiation of modes of drying alfalfa pulp by active ventilation in a laboratory electric dryer

Spirin, Anatoly; Kupchuk, Ihor; Tverdokhlib, Ihor; Polievoda, Yurii; Kovalova, Kateryna; Dmytrenko, Victor

doi:10.15199/48.2022.05.02

Artykuł - szczegóły

Tytuł artykułu

Substantiation of modes of drying alfalfa pulp by active ventilation in a laboratory electric dryer

Autorzy

Spirin Anatoly , Kupchuk Ihor , Tverdokhlib Ihor , Polievoda Yurii , Kovalova Kateryna , Dmytrenko Victor

Wybrane pełne teksty z tego czasopisma

http://pe.org.pl/

Identyfikatory

DOI

10.15199/48.2022.05.02

Warianty tytułu

Analiza sposobów suszenia miazgi lucerny przez aktywną wentylację w laboratoryjnej suszarce elektrycznej

Języki publikacji

Abstrakty

The article presents theoretical and experimental studies to determine the rational modes of the drying process of alfalfa pulp. Theoretical research was based on the basic laws of drying of capillary – porous bodies which include alfalfa pulp. Experimental studies were conducted in a laboratory installation, which recorded the main mode parameters of the process, such as temperature, relative humidity and consumption of the drying agent (air), the specific gravity of the load layer of the material, its current moisture content. The obtained dependences of the total duration of the process can be used in the design of plants for drying pulp from alfalfa and other similar materials.

W artykule przedstawiono badania teoretyczne i eksperymentalne mające na celu określenie racjonalnych trybów procesu suszenia miazgi lucerny. Badania teoretyczne oparto na podstawowych prawach suszenia kapilar – ciał porowatych zawierających miazgę lucerny. Badania eksperymentalne przeprowadzono na instalacji laboratoryjnej, w której rejestrowano główne parametry modowe procesu, takie jak temperatura, wilgotność względna i zużycie środka suszącego (powietrza), ciężar właściwy warstwy obciążonej materiału, jego aktualna wilgotność . Otrzymane zależności całkowitego czasu trwania procesu można wykorzystać w projektowaniu instalacji do suszenia pulpy z lucerny i innych podobnych materiałów.

Słowa kluczowe

periods of drying process parameter specific load of pulp material warm air

suszenie miazgi lucerny gorące powietrze

Wydawca

Wydawnictwo SIGMA-NOT

Czasopismo

Przegląd Elektrotechniczny

Rocznik

2022

Tom

R. 98, nr 5

Strony

11--15

Opis fizyczny

Bibliogr. 24 poz., rys., tab.

Twórcy

autor

Spirin Anatoly

spirinanatoly16@gmail.com

Vinnytsia National Agrarian University 21008, 3 Sonyachna str., Vinnytsia, Ukraine

https://orcid.org/0000-0002-4642-6205

autor

Kupchuk Ihor

kupchuk.igor@i.ua

Vinnytsia National Agrarian University 21008, 3 Sonyachna str., Vinnytsia, Ukraine

https://orcid.org/0000-0002-2973-6914

autor

Tverdokhlib Ihor

igor_tverdokhlib@yahoo.com

Vinnytsia National Agrarian University 21008, 3 Sonyachna str., Vinnytsia, Ukraine

https://orcid.org/0000-0003-1350-3232

autor

Polievoda Yurii

vinyura36@gmail.com

Vinnytsia National Agrarian University 21008, 3 Sonyachna str., Vinnytsia, Ukraine

https://orcid.org/0000-0002-2485-0611

autor

Kovalova Kateryna

katrin.viter@gmail.com

Vinnytsia National Agrarian University 21008, 3 Sonyachna str., Vinnytsia, Ukraine

https://orcid.org/0000-0002-1599-5720

autor

Dmytrenko Victor

Vik8320@meta.ua

The National Academy of Agrarian Sciences of Ukraine 07853, 22 Chkalova st., Nemishayeve, Borodyansky district, Kyiv region, Ukraine

https://orcid.org/0000-0003-1866-6188

Bibliografia

[1]. Petrova Z., Paziuk V., Tokarchuk O., Polievoda Y. Special aspects of soybean drying with high seedling vigor, UPB Scientific bulletin, Series D: Mechanical Engineering, University Politehnica of Bucharest, 83 (2021), nr. 2, 327–336.
[2]. Mazur V., Tkachuk O., Pantsyreva H., Kupchuk I., Mordvaniuk M., Chynchyk O. Ecological suitability peas (Pisum Sativum) varieties to climate change in Ukraine, Agraarteadus, 32 (2021), nr 2, 276-283. https://doi.org/10.15159/jas.21.26
[3]. Snezhkin J., Paziuk V., Petrova Zh., Tokarchuk O. Determination of the energy efficient modes for barley seeds drying. INMATEH - Agricultural Engineering, Romania, 61, (2020), nr. 2, 183-193.
[4]. Kaletnik G., Honcharuk I., Okhota Y. The Waste-free production development for the energy autonomy formation of Ukrainian agricultural enterprises, Journal of Environmental Management and Tourism, 11 (2020), nr. 3, 513–522. DOI: 10.14505//jemt.v11.3(43).02.
[5]. Poberezhets Ju., Chudak R., Kupchuk I., Yaropud V., Rutkevych V. Effect of probiotic supplement on nutrient digestibility and production traits on broiler chicken, Agraarteadus. 32 (2021), nr. 2, 296-302. DOI: 10.15159/jas.21.28.
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[7]. Paziuk V., Vyshnevskiy V., Tokarchuk O., Kupchuk I. Substantiation of the energy efficient schedules of drying grain seeds, Bulletin of the Transilvania University of Braşov, Series II: Forestry, Wood Industry, Agricultural Food Engineering, 63 (2021), nr. 14, 137–146. DOI: 10.31926/but.fwiafe.2021.14.63.2.13.
[8]. Haponiuk O. I., Ostapchuk M. V., Stankevych H. M., Haponiuk I. I. Active ventilation and grain drying, Odessa, Polihraf, (2014), 324 p.
[9]. Kotov B., Spirin A., Kalinichenko R., Bandura V., Polievoda Y., Tverdokhlib I. Determination the parameters and modes of new heliocollectors constructions work for drying grain and vegetable raw material by active ventilation, Czech Academy of Agricultural Sciences, Prague, Research in Agricultural Engineering, 65 (2019), nr. 1, 20–24. https://doi.org/10.17221/73/2017-RAE.
[10]. Kotov . I., Kuzmenko V. F. Mathematical model of the dynamics of drying of leaf-stem materials in active ventilation, Proceedings of the Tavriya State Agrotechnological University, 13 (2013), 32–38.
[11]. Palamarchuk I. P., Tsurkan O. V., Prysyazhnyuk D. V., Polievoda Y. A. Substantiation of the scheme of the vibroozonating dryer for post-harvest processing of grain, Scientific works of the National University of Food Technologies, 22 (2016), nr. 6, 151–156.
[12]. Kotov B. I., Spirin A. V., Kalinichenko R. A. Warmth and mass transfer when dry silky and agricultural materials in a crappy, unstable ball, Machinery, energy and transport of agro-industrial complex, 94 (2016), nr. 2, 41–44.
[13]. Kotov B. I., Kalinichenko R. A., Spirin A. V. Modeling the modes of drying of dispersed materials in continuous column dryers, Machinery, energy and transport of agro-industrial complex, 6 (2016), 69–74.
[14]. Paziuk V. M., Petrova Zh. O., Tokarchuk O. A., Yaropud V.M. Research of rational modes of drying rape seed, INMATEH – Agricultural Engineering, Romania, 58 (2019), nr. 2, 303–310.
[15]. Paziuk V. M., Liubin M. V., Yaropud V. M., Tokarchuk O. A., Tokarchuk D. M. Research on the rational regimes of wheat seeds drying, INMATEH – Agricultural Engineering, Romania, 56 (2018), nr. 3, 39–48.
[16]. Bandura V., Kalinichenko R., Kotov B., Spirin A. Theoretical rationale and identification of heat and mass transfer processes in vibration dryers with IR-energy supply, Eastern-European Journal of Enterprise Technologies, 94 (2018), nr.4, 50–58.
[17]. Kotov B. I., Spirin А. В., Tverdokhlib I. V., Polyevoda Y. A., Hryshchenko V. O., Kalinichenko R. A. Theoretical researches on cooling process regularity of the grain material in the layer, INMATEH – Agricultural Engineering, 54 (2018), nr. 1, 87–94.
[18]. Gunko I., Hraniak V., Yaropud V., Kupchuk I., Rutkevych V. Optical sensor of harmful air impurity concentration. Przegląd Elektrotechniczny, 7 (2021), 76–79. doi:10.15199/48.2021.07.15.
[19]. Kuznietsova I., Bandura V., Paziuk V., Tokarchuk O., Kupchuk I. Application of the differential scanning calorimetrymethod in the study of the tomato fruits drying process, Agraarteadus, 31 (2020), nr. 2, 173–180. DOI: 10.15159/jas.20.14.
[20]. Hraniak, V. F., Kukharchuk, V. V., Bogachuk, V. V., Vedmitskyi Y. G. at all. Phase noncontact method and procedure for measurement of axial displacement of electric machine's rotor. Proc. SPIE 10808, Photonics Applications in Astronomy, Communications, Industry, and High-Energy Physics Experiments 2018. 7 p. https://doi.org/10.1117/12.2501611
[21]. Borysiuk D., Spirin A., Kupchuk I., Tverdokhlib I., Zelinskyi V., Smyrnov Ye., Ognevyy V. The methodology of determining the place of installation of accelerometers during vibrodiagnostic of controlled axes of wheeled tractors. Przegląd Elektrotechniczny, 97(2021), nr 10, 44-48. https://doi.org/10.15199/48.2021.10.09
[22]. Kupchuk I., Yaropud V., Hraniak V., Poberezhets Ju., Tokarchuk O., Hontar V., Didyk A. Multicriteria compromise optimization of feed grain grinding process. Przegląd Elektrotechniczny. 97 (2021), nr 11, 179-183. https://doi.org/10.15199/48.2021.11.33
[23]. Rutkevych V., Kupchuk I., Yaropud V., Hraniak V., Burlaka S. Numerical simulation of the liquid distribution problem by an adaptive flow distributor. Przegląd Elektrotechniczny, 98 (2022), nr 2, 64-69. https://doi.org/10.15199/48.2022.02.13
[24]. Yanovych V., Honcharuk T., Honcharuk I., Kovalova K. Design of the system to control a vibratory machine for mixing loose materials. Eastern-European Journal of Enterprise Technologies, 90 (2017), nr 6(3), 4–13.

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-900127ae-c830-4af4-b0cc-faf69b4eee67