Vestnik of Volga State University of Technology. Series: Forest. Ecology. Nature Management

Introduction. Multiple passes of a skidding tractor  along one and the same trace lead to a trail destruction, track pit formation in the place of passages, and as a result,  to efficiency loss of tractor. Traditional approaches to the designing of transport network of a cutting area are related to the choice of a typical scheme of skidding and use of it at a certain cutting area. The goal of the research is to elaborate the optimal  schemes of trail location and to compare them with the typical schemes by the type of  the passages allocation of a skidder. Point of departure. To achieve the goal, it is necessary to elaborate the  mathematical algorithms of planning of transport network at a cutting area and to use an automated analysis. Construction of schemes of trails which give a significant effect when simple computation algorithms, are based on the following condition: 1) Skidding trail in cutting strip is the complex of the compartments, difference in the passages between neighbor compartments is two passages, number of passages at the compartments grows  in the direction of skidding; 2) Compartments with different soil type are grouped by four property categories, location of the compartments is  designed at a  cutting area; 3) Skidding tracks with maximum number of passages should be designed along the compartments of a cutting area with maximum ground bearing capacity; maximum number of passages for a certain compartment shall be minimized. Compartments with poor load bearing capacity are either excluded or number of passages of tractor should be minimized; 4) Loading point location is designated; distance between the skidding trails is not changed; distribution of stand at the cutting area is equal. Software to develop schemes of skids on the basis of management of distribution of tractor passages along the skids can play a role  of a device to support decision-making in designing of a  primary transport network. Conclusion. In such conditions, it was registered a significant dissimilarity of calculated schemes from the typical ones (an automated analysis was used). There is a critical redistribution of the passages from the compartments with  low-load-bearing capacity soil  to the compartments with high-load-bearing capacity soil. Radial scheme is the closest typical scheme to the calculated one. Difference in the number of passages between the most loaded compartment and the compartment  with the minimum number of passages is decreased (for the considered examples: calculated scheme – difference is 15 times; typical schemes –25 - 65 times).

skidding trail; tractor passages; skidding; forwarder; optimization; software

Effects of slash, machine passes, and soil moisture on penetration resistance in a cut-to-length harvesting / Han-Sup Han, Debbie Page-Dumroese, Sang-Kyun Han, Joanne Tirocke // International Journal of Forest Engineering. 2006. No 2. Vol.17. Pp. 11-24.

Nordfjell T., Östlund A. Forwarding on soft soils, comparison of rutting with and without wooden bridge sections // Proceedings of the 48-th FORMEC Symposium. 2015. P. 462.

Impact of wheeled and tracked tractors on soil physical properties in a mixed conifer stand / M. Cambi, G. Certini, F. Fabiano et al. // iForest. 2015. No 9. Pp. 89-94. doi: 10.3832/ifor1382-008.

Soil compaction on forest soils from different kinds of tires and tracks and possibility of accurate estimate / H. Sakai, T. Nordfjell, K. Suadicani et al. // Croatian Journal of Forest Engineering. 2008. No 1, Vol. 29. Pp. 15-27.

Francesco N., Spinelli R., Lyons J. Ground pressure forwarder trials: assess benefits in reducing wheel rutting // Proceedings of Austro 2007 – FOR-MEC’07 «Meeting the Needs of Tomorrows. Forests: New Developments in Forest Engineering». URL: https://www.formec.org/proceedings/30-austria-2007-proceedings.html. (Date of access: 10.04.2017).

Impact of mechanized harvesting on compaction of sandy and clayey forest soils: results of a meta-analysis / E. Ampoorter, A. de Schrijver, L. van Nevel et al. // Annals of Forest Science. 2012. No 69. Pp. 533-542. doi: 10.1007/s13595-012-0199-y.

Ozturk T. The effects on soil compaction of timber skidding by tractor on skid road in plantation forest in northern Turkey // Šumarski List. 2016. No 9-10. Pp. 485-491.

Agherkakli B., Najafi A., Sadeghi S.H. Ground based operation effects on soil disturbance by steel tracked skidder in a steep slope of forest // Journal of Forest Science. 2010. No 6 (56). Pp. 278-284.

Impact of skidding operations on soil physical properties in southern Italy / A. R. Proto, G. Macri, A. Sorgona et al. // Contemporary Engineering Sciences. 2016. No 23. Vol. 9. Pp. 1095-1104.

Recovery of soil bulk density, porosity and rutting from ground skidding over a 20-year period after timber harvesting in Iran / S. Ezzati, A. Najafi, M. A. Rab et al. // Silva Fennica. 2012. No 4 (46). Pp. 521-538.

Assessments of the soil compaction of two ultisols caused by logging operation / M. de S. D. Junior, S. R. Silva, N. S. dos Santos et al. // Revista Brasileira de Ciência do Solo. 2008. No 32. Pp. 2245-2253.

Uusitalo J., Salomäki M., Ala-Ilomäki J. The effect of wider logging trails on rut formations in the harvesting of peatland forests // Croatian Journal of Forest Engineering. 2015. No 1. Vol. 36. Pp. 125-130.

Impacts on soils from cut-to-length and whole tree harvesting / S.-K. Han, H.-S. Han, L. R. Johnson et al. // Council on Forest Engineering (COFE) Conference Proceedings: «Working Globally – Sharing Forest Engineering Challenges and Technologies Around the World». 2006. URL: http://web1.cnre.vt.edu/forestry/cofe/documents/2006/COFE_2006_Han_et_al.pdf (Date of access: 09.04.2017).

Damage to soil and residual trees caused by different logging systems applied to late thinning / A. Cudzik, M. Brennensthul, W. Bialczyk et al. // Croatian Journal of Forest Engineering. 2017. No 1. Vol. 38. Pp. 83-95.

Воронова А. М., Воронов Р. В., Пискунов М. А. Задача покрытия гиперсети взвешенным корневым деревом и её приложение для оптимального проектирования схем волоков на лесосеке // Информатика и системы управления. 2012. №1 (31). С. 56 – 64.