Consistency ensure the recovery of agricultural machinery according to degree of resource's costs

Authors

DOI:

https://doi.org/10.31548/machenergy2019.04.145

Keywords:

methodology, availability, efficiency, agricultural machine.

Abstract

In the article the analysis of a condition and directions of development of the system restore functionality of agricultural machinery. It is established that one of the ways of improving the resilience of agricultural machinery in modern conditions is the scientific rationale for the periodicity of the works on the restoration of agricultural machinery during their operation.
About the results of the analysis of the level of reliability and the complexity of the recovery of agricultural machinery is determined that the primary research aimed at cost reduction in their operation, it is necessary for outdoor functions where the most time-consuming is the maintenance of the working bodies of agricultural machinery. 

The intensity of work and the consumption rate technical resource of agricultural machinery in chains largely depend on the intensity of of units and therefore differ significantly on the lines of different categories according to failure rate, as well as in various parts of the seasonal developments. To reduce the cost of operation of agricultural machines and reduction of the negative impact of "human factor" is necessary to develop methods of accounting for the differences in rate of consumption of their technical resource when assigning the timing of the works with the restoration of agricultural machinery.
The possibility of optimizing the process of recovery of agricultural machinery on techno-economic criteria using the apparatus of Markov chains.

References

Sergejeva N., Aboltins A., Strupule L., Aboltina B.Mathematical knowledge in elementary school and for future engineers. Proceedings of 17th International Scientific Conference "Engineering for rural development". Jelgava, Latvia, May 23-25, 2018, Latvia University of Agriculture. Faculty of Engineering. Vol. 17, pp. 1166-1172.

https://doi.org/10.22616/ERDev2018.17.N328

Dubbini M., Pezzuolo A., De Giglio M.,Gattelli M., Curzio L., Covi D., Yezekyan T., Marinello F. Last generation instrument for agriculture multispectral data collection. CIGR Journal, vol. 19, 2017, pp. 158-163.

Yata V.K., Tiwari B.C., Ahmad, I. Nanoscience infood and agriculture: research, industries and patents. Environmental Chemistry Letters, vol. 16, 2018, pp. 79-84. https://doi.org/10.1007/s10311-017-0666-7

Masek J., Novak P., Jasinskas A. Evaluation ofcombine harvester operation costs in different working conditions. Proceedings of 16th International Scientific Conference "Engineering for rural development". Jelgava, Latvia, May 24-26, 2017, Latvia University of Agriculture. Faculty of Engineering. Vol. 16, pp. 1180-1185.

Rogovskii I., Grubrin O. Accuracy of convertingvideoendoscopy combine harvester using generalized mathematical model. Scientific Herald of National University of Life and Environmental Science of Ukraine. Series: technique and energy of APK. Kyiv, Ukraine. vol. 298, 2018, pp. 149-156. doi: 10.31548/me.2018.04.149-156.

Viba J., Lavendelis E. Algorithm of synthesis ofstrongly non-linear mechanical systems. In Industrial Engineering - Innovation as Competitive Edge for SME, 22 April 2006. Tallinn, Estonia, pp. 95-98.

Luo A.C.J., Guo Y. Vibro-impact Dynamics.Berlin: Springer-Verlag, 2013. 213 p. https://doi.org/10.1002/9781118402924

Astashev V., Krupenin V. Efficiency of vibrationmachines. Proceedings of 16th International Scientific Conference "Engineering for rural development". Jelgava, Latvia, May 24-26, 2017, Latvia University of Agriculture. Faculty of Engineering. Vol. 16, pp. 108-113.

Zagurskiy О., Ohiienko M., Rogach S., Pokusa T.,Titova L., Rogovskii I. Global supply chain in context of new model of economic growth. Conceptual bases and trends for development of social-economic processes. Monograph. Opole. Poland, 2018, pp. 64-74.

Drga R., Janacova D., Charvatova H. Simulationof the PIR detector active function. Proceedings of 20th International conference on Circuits, Systems, Communications and Computers (CSCC 2016), July 14-17, 2016, E D P Sciences, 17 Ave Du Hoggar Parc D Activites Coutaboeuf Bp 112, F-91944 Cedex A, France, vol. 76, UNSP 04036.

https://doi.org/10.1051/matecconf/20167604036

Novotny J. Technical and natural sciencesteaching at engineering faculty of FPTM UJEP. Proceedings of 15th International Scientific Conference "Engineering for rural development". Jelgava, Latvia, May 23-25, 2016, Latvia University of Agriculture. Faculty of Engineering. Vol. 15, pp. 16-20.

Pinzi S., Cubero-Atienza A.J., Dorado M.P.Vibro-acoustic analysis procedures for the evaluation of the sound insulation characteristics of agricultural machinery. Journal of Sound and Vibration, vol. 266 (3), 2016, pp. 407-441. https://doi.org/10.1016/S0022-460X(03)00576-5

Rogovskii I. L. Systemic approach to justificationof standards of restoration of agricultural machinery. Machinery & Energetics. Journal of Rural Production Research. Kyiv. Ukraine. 2019, Vol. 10, No 3, Р. 181-187. https://doi.org/10.31548/machenergy2019.03.181

Published

2020-01-30

Issue

Section

Статті