Desempenho em tração de um trator agrícola em diferentes velocidades de trabalho e superfícies

Alexandre  RUSSINI; Daniel Ciro SOUZA; Rogério Rodrigues VARGAS; Marcelo Silveira FARIAS; José Fernando SCHLOSSER; Daniela HERZOG

doi:10.15361/1984-5529.2022.v50.1444

Authors

Alexandre RUSSINI Federal University of Pampa
Daniel Ciro SOUZA Federal University of Pampa
Rogério Rodrigues VARGAS Federal University of Pampa
Marcelo Silveira FARIAS Federal University of Santa Maria
José Fernando SCHLOSSER Federal University of Santa Maria
Daniela HERZOG Federal University of Santa Maria

DOI:

https://doi.org/10.15361/1984-5529.2022.v50.1444

Keywords:

agricultural engineering, mechanization, traction efficiency

Abstract

This research aimed to evaluate the traction performance of an agricultural tractor at different working speeds and surfaces. The experiment was carried out under a randomized block design, in a bifactorial scheme (5x2), resulting from the interaction of five speeds (2.98; 3.17; 3.53; 7.14 and 10.38 km h^-1) and two surfaces (firm soil with vegetation cover and pavement), with three repetitions. Data were collected using electronic instrumentation installed on the tractor. With the aid of a brake dynamometer, like a convoy, a load was imposed on the tractor's drawbar, corresponding to the maximum power on the drawbar, for each evaluated speed. The results indicated that the traction force, power and dynamic coefficient of traction were 1.49%, 13.09% and 2.04% higher, respectively, for the pavement surface in relation to the firm soil with vegetation cover. Specific fuel consumption was reduced by 6.95% for the pavement condition. It is concluded that the efficiency in transforming the engine power into traction power was 47.79% for firm soil with vegetation cover and 52.10% for the pavement surface, for the conditions in which the experiment was conducted.

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