Address: Naberezhnaya Severnoy Dviny, 17, Arkhangelsk, 163002, Russian Federation, Northern (Arctic) Federal University named after M.V.Lomonosov, office 1425

Phone: +7 (8182) 21-61-18
E-mail: forest@narfu.ru
http://lesnoizhurnal.ru/en/

Lesnoy Zhurnal

The Peculiarities of the Operation of Logging Roads in the Spring-Winter Period. P. 134–146

Версия для печати

Konstantin V. Ladeyshchikov, Sergey A. Chudinov

Complete text of the article:

Download article (pdf, 2.8MB )

UDС

625.042.5

DOI:

10.37482/0536-1036-2024-4-134-146

Abstract

Seasonal roads are not capital construction objects. Unlike all-season ones, they can be of summer and winter action. During the transport development of forests, both allseason paved roads and temporary unpaved roads are required. The share of temporary roads is more than 90 % of all logging roads. One of the main problems of temporary logging roads is uneven seasonal operation, especially in summer. Seasonal roads do not have a permanent surface; more often it is natural soil, subject, except for mechanical impacts, to atmospheric ones, which is most evident in the summer-autumn period. Therefore, about 80 % of the harvested wood is exported via winter roads. The density of temporary roads depends on the general harvesting technology in a particular area, including the wood skidding distance and the angle of relative position of forest roads. Winter road construction works are carried out in summer and winter. In summer, engineering surveys are carried out, the optimal direction of the future route is determined, a clearing is cut, a roadbed is prepared, and if necessary, culverts are installed. With the onset of cold weather, the existing soil is compacted and leveled to accelerate its freezing. If the roadbed is sufficiently frozen, a snow-ice cover is formed. The article considers the influence of roadside forest plantations on the air temperature near the road surface, soil temperature, blocking solar radiation – the factors that are directly related to the overall service life of a winter road. Special attention is paid to slowing down the decrease in the winter road pavement strength in the shade of preserved trees by choosing the optimal route direction. The slowdown in the decrease in the pavement strength of the forest dirt road has been established and confirmed in areas where solar radiation is blocked by trees, i.e. in the shade. The difference in strength reduction to the minimum is 33 days. Based on the research results, it has been concluded that a comprehensive development of the logistics strategy for the organization of roundwood transportation via winter roads is necessary.

Authors

Konstantin V. Ladeyshchikov*, Postgraduate Student; ResearcherID: IZE-1449-2023, ORCID: https://orcid.org/0009-0007-9643-0003
Sergey A. Chudinov, Candidate of Engineering, Assoc. Prof.; ResearcherID: AEN-3285-2022, ORCID: https://orcid.org/0000-0003-4492-8188

Affiliation

Ural State Forest Engineering University, Sibirskiy Trakt, 37, Yekaterinburg, 620100, Russian Federation; k1272@mail.ru*, chudinovsa@m.usfeu.ru

Keywords

winter logging roads, road operation, route direction, thawing, elastic modulus, insolation, solar radiation

For citation

Ladeyshchikov K.V., Chudinov S.A. The Peculiarities of the Operation of Logging Roads in the Spring-Winter Period. Lesnoy Zhurnal = Russian Forestry Journal, 2024, no. 4, pp. 134–146. (In Russ.). https://doi.org/10.37482/0536-1036-2024-4-134-146

References

  1. Buldakov S.I., Manukovskiy A.Yu., Ladeyshchikov N.V., Ladejshchikov K.V., Tambovtseva S.I. Basic Technological Operations in the Construction of Motorways. Ekaterinburg, USFEI Publ., 2022. 128 p. (In Russ.).

  2. Buldakov S.I., Savsyuk M.V. Forest Transportation. Vol. 1. Automobile Logging Roads. Ekaterinburg, USFEI Publ., 2016. 97 p. (In Russ.).

  3. Eremeyeva L.E. The Basics of Forestry Logistics. Syktyvkar, SFI Publ., 2014. 208 p. (In Russ.).

  4. Ivankovich A.S., Kovalevskiy V.M., Kudryavtseva A.P., Dubinin D.A. Temporary Logging Roads. Moscow, Lesnaya promyshlennost’ Publ., 1971. 176 p. (In Russ.).

  5. Korotkevich V.N. The Review of Papers on the Study of Microclimate. Leningrad, Central Directorate of the Unified Hydrometeorological Service (Leningrad Department) Publ., 1936. 82 p. (In Russ.).

  6. Lukashevich V.M. Justification of Sets and Operating Modes of Logging and Timber Transport Machines, Taking into Account the Seasonality of Logging Operations: Cand. Eng. Sci. Diss. Abs. Petrozavodsk, 2007. 18 p. (In Russ.).

  7. Lukina I.V., Maksimov I.I., Derevyannykh Е.А., Vasilieva O.G. Analysis of the Influence of Solar Radiation on Plant Growth. Vestnik Chuvashskogo gosudarstvennogo agrarnogo universiteta = Vestnik Chuvash State Agrarian University, 2022, no. 2(21), pp. 92–100. (In Russ.). https://doi.org/10.48612/vch/bda9-eb6e-7f75

  8. Mokhirev A.P., Goryaeva E.V., Mokhirev M.P., Ivshina A.V. Planning of Operations of Winter Logging Roads on the Basis of Analysis of Climate Data Statistics. Lesotekhnicheskij zhurnal = Forestry Engineering Journal, 2018, vol. 8, no. 2(30), pp. 176–185. (In Russ.). https://doi.org/10.12737/article_5b2406175e7765.44768086

  9. Mokhirev A.P., Zyryanov M.A., Medvedev S.O., Bragina N.A. Analysis of the Influence of Climate Conditions on the Start of Operation of Summer Logging Roads. Uspekhi sovremennogo estestvoznaniya = Advances in Current Natural Sciences, 2020, no. 9, pp. 13–19. (In Russ.). https://doi.org/10.17513/use.37464

  10. Nezavitin A.G., Taran I.V., Bokova T.I., Loginov S.I., Naplekova N.N., Osintseva L.A., Chemeris M.S. Ecological Role of Forests in Siberia. Vestnik NGAU (Novosibirskij gosudarstvennyj agrarnyj universitet) = Bulletin of NSAU (Novosibirsk State Agrarian University, 2015, no. 3(36), pp. 43–53. (In Russ.).

  11. Design, Construction and Operation of Forest Roads: Methodological Guide. Moscow, Ministry of Construction, Housing and Utilities of the Russian Federation, Federal Centre for Regulation, Standardization and Conformity Assessment in Construction, 2018. 174 p. (In Russ.).

  12. Prokopyev E.A., Krutskih N.V., Ryazantsev P.A., Roslyakova N.A. Data Mining for Modelling the Climate Influence on the Economy (in the Case of Logging in the Republic of Karelia). InterCarto. InterGIS, 2018, vol. 24, part. 1, pp. 273–284. (In Russ.). https://doi.org/10.24057/2414-9179-2018-1-24-273-284

  13. Chudinov S.A., Ladeyshchikov K.V. Increasing the Service Life of Winter Logging Roads when Blocking the Solar Rays. State and Prospects for the Development of the Forestry Complex in the CIS Countries: Proceedings of the II International Scientific and Technical Conference. Minsk, BSTU Publ., 2022, pp. 78–82. (In Russ.).

  14. Chudinov S.A., Ladeyshchikov K.V. Construction of Winter Logging Roads with Extended Service Life. Scientific Creativity of Youth for the Russian Forest Complex: Proceedings of the XIX All-Russian (National) Scientific and Technical Conference of Students and Postgraduates. Ministry of Science and Higher Education of the Russian Federation, Ural State Forestry Technical University, Ekaterinburg, USFEI Publ., 2023, pp. 702–707.

  15. Chudinov S.A., Ladeishchikov K.V. Features of the Organisation for Timber Transportation on Winter Timber Roads. Logisticheskiye sistemy v global’noy ekonomike = Logistic Systems in Global Economics, 2023, no. 13, pp. 155–159. (In Russ.).

  16. Chudinov S.A., Ladeyshchikov K.V. Increasing the Service Life of Seasonal Winter Roads. Railway Transport and Technologies: Proceedings of the International Scientific and Practical Conference. Ekaterinburg, USURT Publ., 2023, iss. 1(249), pp. 118–121. (In Russ.).

  17. Borozna A.A., Skachek D.A., Naskovets M.T., Mokhov S.P., Golyakevich S.A. Industrial Approbation of Temporary Road Structures for Transport-Assisted Exploitation of Forests. IOP Conference Series: Materials Science and Engineering, 2020, vol. 817, art. no. 012006. https://doi.org/10.1088/1757-899X/817/1/012006

  18. Brockenbrough R.L. Highway Engineering Handbook: 3rd ed. New-York, McGraw-Hill, 2009. 885 p.

  19. Dittmer M.H. Efforts to Reduce Construction Costs of Logging Roads in Muskeg and Wet Soils in Southeast Alaska. Transportation Research Record, 1987, no.1106, pp. 267–273.

  20. Holzleitner F., Fritz M., Sokol W., Zott F., Kanzian C. Predicting Forest Road’s Bearing Capacity Using Smart Sensing Technology. NB NORD2020: Forest Operations for the Future, 2020, pp. 27–32.

  21. Jones C.J.F.P., Glendinning S., Huntley D.T., Lamont-Blask J. Soil Consolidation and Strengthening Using Electrokinetic Geosynthetics – Concepts and Analysis. Geosynthetics. 2006, pp. 411–414.

  22. Kaakkurivaara T. Innovative Methods for Measuring and Improving the Bearing Capacity of Forest Roads. Dissertationes Forestales 251, 2018. 57 p. https://doi.org/10.14214/df.251

  23. Smirnov M., Andrianov Yu., Chernyakevich V. Technological Modernization of Forest Roads Construction in Russia. Journal of Applied Engineering Science, 2018, vol. 16, iss. 3, pp. 328–332. https://doi.org/10.5937/jaes16-17071

  24. Varol T., Ozel H.B., Ertugrul M., Emir T., Tunay M., Cetin M., Sevik H. Prediction of Soil-Bearing Capacity on Forest Roads by Statistical Approaches. Environmental Monitoring and Assessment, 2021, vol. 193, art. no. 527. https://doi.org/10.1007/s10661-021-09335-0



 

Make a Submission


ADP_cert_2025.png

Lesnoy Zhurnal (Russian Forestry Journal) was awarded the "Seal of Recognition for Active Data Provider of the Year 2025"

INDEXED IN: 

scopus.jpg

DOAJ_logo-colour.png

logotype.png

Логотип.png