DETERMINING THE RANGE OF COMBINE HARVESTERS AND HEADERS FOR KAZAKHSTAN REGIONS

The fleet of combine harvesters in the Republic of Kazakhstan consists of 3-, 4-, 5- and 6-class harvesters, and 3- and 4- class harvesters make up for almost 82% of the fleet. According to the data provided by the Kazakhstan Ministry of Agriculture, 60% of grain harvesters have a lifespan of more than 10 years. (Research purpose) To determine the range of grain harvesters and headers for Kazakhstan regions in view of ongoing technical re-equipment. (Materials and methods) The range of grain harvesters should be determined according to the yield of harvested crops, the size of crop area on separate farms and in the region, the availability of machine operators as well as climatic conditions of the regions. (Results and discussions). The authors have analyzed the actual yield of grain crops in Kazakhstan regions, determined its possible expected level, and analyzed the number of machine operators required for available crop area, the number of small, medium and large-scale farms and climatic conditions during the harvest period in Kazakhstan regions. The efficiency of harvesters of different classes with headers of various operating width has been estimated taking into account the expected yield. Matching the obtained results to the yield data, organizational-and-economic and climatic conditions, and introducing appropriate limits, the authors have determined the range of grain harvesters for Kazakhstan regions. (Summary) It has been found that the harvesters of class 5, 6 and 4 are more effective under conditions of northern and central Kazakhstan regions provided they are equipped with wide-cut headers for direct harvesting. In southern, western and eastern Kazakhstan regions, where grain crops are cultivated on dry soils with an insufficient moisture content, combine harvesters of class 3 and 4 should be primarily used.

1. Chepurin G.Ye., Ivanov N.M., Kuznetsov A.V. et al. Uborka i posle-uborochnaya obrabotka zernovykh kul’tur v ekstremal’nykh usloviyakh Sibiri: Rekomendatsii [Harvesting and post-harvest treatment of grain crops under extreme conditions of Siberia: Recommendations]. M.: Rosinformagrotekh. 2011: 175. (In Russian)

2. Zhalnin E.V. Metodologicheskiye aspekty mekhanizatsii proizvodstva zerna v Rossii [Methodological aspects of grain production mechanization in Russia]. M.: Poligraf-servis. 2012: 368. (In Russian)

3. Astaf’yev V.L. Kak tekhniku podgotovish’, tak i uberesh’ [Machinery readiness determines the efficiency of harvesting]// Zapchasti. KZ. 2014. N9: 24-25. (In Russian)

4. Faiffer A. Uchest’ vse faktory [Taking all factors into account] // Novoye sel’skoye khozyaystvo. 2015. N1. 38-40. (In Russian)

5. Vorovkin G.P. Neravnomernost’ sozrevaniya i uborka zernovykh kul’tur v nepogodu [Uneven ripening and harvesting of crops in bad weather]: Omsk: VPO “OmGAU”. 2005. 132. (In Russian)

6. Lachuga Yu.F., Gorbachev I.V., Ezhevskii А.А., Izmailov A.Yu., Kriazhkov V.M., Antyshev N.М., Babchenko V.D., Beilis V.M., Golubkovich А.V., Grishin А.P., EvtushenkovN.E., Zhalnin E.V., Zhuk А.F., KolesnikovaV.А., Levina N.S., Lichman G.I., Marchenko N.М., Marchenko L.А., Marchenko О.S., Mikheev V.V. и др. Sistema mashin i tekhnologiy dlya kompleksnoy mekhanizatsii i avtomatizatsii sel’skokhozyaystvennogo proizvodstva na period do 2020 goda [System of machines and technologies for integrated mechanization and automation of agricultural production for the period until 2020]. Vol. 1. Rasteniyevodstvo [Crop cultivation]. M.: VIM, 2012. 303. (In Russian)

7. Zhalnin Ye.V. Tipazh kombaynov: kakoy yest’ i kakoy nuzhen [Range of combines: actually available and required]// Sel’skiy mekhanizator. 2012. N8. 6-8. (In Russian)

8. Golikov V.A., Usmanov A.S., Astaf’yev V.L. et al. Sistema tekhno-logiy i mashin dlya kompleksnoy mekhanizatsii rasteniyevodstva v Kazakhstane na period do 2021 goda: Rekomendatsii [A system of technologies and machines for integrated mechanization of plant growing in Kazakhstan for the period up to 2021: Recommendations]. Almaty, 2017. 128. (In Russian)

9. Bawatharani R., Jayatissa D.N., Dharmasena D.A.N., Bandara M.H.M.A. Impact of Reel Index on Header Losses of Paddy and Performance of Combine Harvesters // Tropical Agricultural Research. 2013. Vol. 25. 3-16. (In English)

10. Metodika opredeleniya ekonomicheskoy effektivnosti tekhnologiy i sel’skokhozyaystvennoy tekhniki, chast’ II. Normativno-spravochnyy material [Methodology for determining the economic efficiency of farm production technologies and machinery, Part II. Regulations and reference material]. M.: 1998: 251. (In Russian)

11. Zhalnin E.V., Tsench Yu.S., P’yanov V.S. Analysis method of combine harvesters technical level by functional and structural parameters // Sel’skokhozyaystvennye mashiny i technologii. 2018. 12(2). 4-8. (In Russian).