Abstract

The purpose of the work is to empirically determine the temperature of the exhaust gases when changing the load on the power plant of a beet harvester with a separating system that provides better harvesting quality in conditions of high soil moisture. Have been developed: classification of methods for increasing the separating ability of slot-hole devices for cleaning root crops; laboratory installation for determining the quality indicators of a separation system with thermal energy for exhaust gas purification with a star-shaped cleaning device; a method for assessing the process of heat transfer from the exhaust gases of the power plant of the self-propelled harvester for harvesting sugar beets Holmer Terra Dos T3 to the separating system, which involves determining the temperature using thermocouples installed at various points in the gas exhaust system of the internal combustion engine. An experimental study of the temperature of the exhaust gases of the power plant of a harvesting machine was carried out using thermocouples at maximum rotation speed with a change in the thermal load index of the external environment from 5 to 30°C. The heat of the exhaust gases from the Mercedes-Benz power plant of the Holmer Terra Dos T3 self-propelled harvester, aimed at blowing the working surface of the separating device at the outlet of the first and fourth, as well as the second and third cylinders, has minor discrepancies exceeding the error limits (65 ± 5.8; 63.2 ± 1.5 and 74.9 ± 2.4; 75.2 ± 2.0°C, respectively), which leads to a uniform distribution of heat flow on the device for cleaning sugar beet roots.

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