Abstract
An increasing demand for forest products incites a large number of log transportation operations, which may lead to negative consequences for the soil and the ecosystem as a whole. This paper is focused on establishing a mathematical model to estimate the soil deformation and compaction processes under tires of wheeled forest machines and individual components of the skidding system such as forwarder, limbs, butts, and tops of tree-lengths in high latitudes, permafrost soil and forests. The method applied is based on simulating the impact processes of elastic tires and the skidding system on the soil through a mathematical device for the measurement of the compaction parameters for different types of soil and the size of the shelterbelt. The effectiveness of the proposed models was evaluated according to experimental results. The influence of the rheological (elastic, viscous, and plastic) properties of soil were studied. The elasticity of tires and the running speed of forest machines can help to control the performance of forest machines. This can be done by reducing the pressure exerted on the soil and increasing the number of skidder passes 1.5-2-fold. Comparative analysis showed that the calculated data differ from the experimental ones by no more than 10%. The obtained results and the developed model will allow for a qualitative and quantitative assessment of technological impact on the soil during the projecting maps for logging operations.
Highlights
Forests are considered a source of a timber and alternative energy source, and ensure the environmental security of our planet
The elasticity of tires and the running speed of forest machines can help to control the performance of forest machines
Estimating the dependency of the shelterbelt width on the number of tree-length logs in a bunch for three different soil categories showed, that a limit values for logs amount to 4 till 6 units depending on the soil category
Summary
Forests are considered a source of a timber and alternative energy source, and ensure the environmental security of our planet. In improving the efficiency of timber harvesting and reforestation processes, such multiple factors as physical and mechanical properties of the soil, parameters of tires, the vehicle body, loading capacity, etc., should be considered [2]. Soil compaction is considered the main harm caused by timber skidding [3]. Value of the correlation between economic value added and environmental harm is of high importance as well [4]. The integral indicator of soil compaction at a felling area is one of the most important factors for estimating the environmental efficiency of harvesting processes [4, 5]
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