EXPERIMENTAL STUDIES OF THE PROCESS OF WORK COMBINED CLEANER

Authors

  • V. M. Baranovsky Ternopil Ivan Pului National Technical University image/svg+xml
  • M. V. Potapenko Division of the National University of Life and Environmental Sciences of Ukraine “Berezhany Agrotechnical Institute” , Відокремлений підрозділ Національного університету біоресурсів і природокористування України «Бережанський агротехнічний інститут»

DOI:

https://doi.org/10.31548/dopovidi2017.02.025

Keywords:

root chicory, purification system, combined purifier, productivity, separation coefficient of impurities, damage, drive screw, cleaning elastic elements, screw, speed

Abstract

The value of chicory is determined by the content of various types of saccharin’s in root crops and the acids and vitamins useful for the organism and rare in natural products, vitamins and microelements. The root of the root crop is one of the sources of nutrient return to the soil, and root crops in the form of solid biomass are an environmentally friendly renewable source of energy. After the processing of chicory, highly saturated energy carriers are obtained in the form of bioethanol, or biogas. The quantity of impurities in chicory root crops characterizes the quality of raw materials for processing, or the qualitative and quantitative indices of the products of its processing. The establishment of functional relationships that describe the dependence of the influence of the parameters of a combined cleaner on technological and quality indices of its operation is an actual task. Based on the results of experimental studies, an equation is obtained for the regression of changes in productivity, the separation of impurities from root crops, and damage to root vegetables by the working organs of a combined cleaner, depending on its parameters. The received results of researches are the further step in development of methodology and a technique of optimization of parameters of clearing systems of cars for harvesting of root crops. 

 

References

Romanyshyn O.Yu. (2016). Stan ta perspektyvy orhanichnoho vyrobnytstva tsykoriiu [Status and prospects of organic farming of chicory]. Orhanik, 78–84.

Dubrovyn V., Holub H., Teslyuk V., Baranovskyy V. (2013). Ydentyfykatsyya protsessa razrabotky adaptyrovannoy korneuborochnoy mashyny [Identification of the development process of the adapted root harvesting machine]. MOTROL. Commission of motorization and energetics in agriculture. An international journal on operation of farm and argil-food industry machinery. Lublin-Rzeszow, 15, 3, 243–255.

Baranovskyi V.M., Pidhurskyi M.I., Pankiv M.R., Tesliuk V.V., Onyshchenko V.B. (2014). Osnovy rozrobky adaptovanykh transportno-tekhnolohichnykh system korenezbyralnykh mashyn : monohrafiia [Through the development of customized transport and technological systems root crop machinery]. Ternopil : TNTU im. I. Puliuia, 351.

Pohorelуy L.V., Tatyanko M.V. (2004). Sveklouborochnыe mashyny: ystoryya, konstruktsyya, teoryya, prohnoz [Beet harvesters: history, design, theory, forecast]. K.: Fenyks, 232.

Baranovskyi V.M., Potapenko M.V., Pankiv M.R., Dubchak N.A., Pankiv V.R. (2011). Care impurities chicory root crops. Patent of Ukraine for useful model. А01D 33/08. № 108264; declared 18.01.20; published 11.07.2016, № 13.

Shenk Kh. (1972). Teoryya ynzhenernoho эksperymenta [Theory of engineering experiment]. M.: Myr, 374.

Dospekhov B.A. (1979). Metodyka polevoho opуta [Methodology of field experience]. M.: Kolos, 415.

KD 46.16.01.005 – 93 “Vyprobuvannia silskohospodarskoi tekhniky. Osnovni polozhennia [Testing of agricultural machines. Substantive provisions t]. K., 34.

Zavalyshyn F.S., Mantsev N.H. (1982). Metodу yssledovanyy po mekhanyzatsyy selskokhozyaystvennoho proyzvodstva [Methods of research on mechanization of agricultural production]. M.: Kolos, 228.

Mel'nykov S.V., Aleshkyn V.R., Roshchyn P.M. (1980). Planyrovanye eksperymenta v yssledovanyyakh sel'skokhozyaystvennykh protsessov [Planning an experiment in agricultural research]. L.: Kolos. Lenynhr. otdelenye, 168.

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Published

2017-04-21

Issue

No. 2 (66) (2017)

Section

Machinery & Automation ofAgriculture 4.0

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