Improving the Technology of Reforestation in Cuttings with the Use of Energy-Efficient Tractors
DOI:
https://doi.org/10.37482/0536-1036-2021-5-117-133Keywords:
reforestation, reforestation technology, cutting, stump uprooting, clearing of cuttings, forest machine, mulching, stump crushing, energy-efficient tractorAbstract
Currently applied partial reforestation in cuttings and removal of stumps by uprooting have a number of significant technological, environmental and economic disadvantages. These are removal of the humus layer of soil outside the cleared strips, compaction and reduction of soil porosity; formation of understump holes and their local waterlogging; littering of noncleared belts of trees between strips with felling debris and uprooted stumps; low productivity of uprooting machines and high energy consumption of stump uprooting; termination of agrotechnical tending after 2–3 years after planting and impossibility of cleaning stands due to their obstruction for tractor units; low level of traction force of special forest tractors and their insufficient power for uprooting stumps. Technology, machines and tools for reforestation in cuttings become the subjects of the research. The aim of the research is to provide a comprehensive mechanization of the reforestation process in order to improve work productivity, reduce energy and material consumption of the technology and create conditions for the effective use of machines and tools in combination with energy-efficient tractors of the traction-energy concept, ensuring the elimination of harmful effects on soil and plants ecology. The results of achieving the set aim and objectives are substantiation of forestry and ecological, technical, and economic feasibility of using the technology based on the complete clearing of cuttings from felling residues, dead wood and coppice of shrub vegetation by their crushing using mobile mulchers; removal of stumps in cuttings through crushing them at a depth of 0.15–0.20 m by an upgraded MUP-4A machine with scattering chips over the planting area and subsequent continuous tillage with a disk harrow BDK-2.5. Harmful effects on the ecology of soil and plants are practically eliminated with an increase in productivity, and the grinded woody biomass mixed with the soil turns into an organic fertilizer. The elimination of mechanical obstacles such as felling residues, fallen trees and stumps makes it possible to effectively use energy-efficient tractors by combining technological operations and performing them in one pass of the unit, as well as increasing the working width and operating speeds. Conditions for efficient operation of forestry machines and tools on tractormotor traction to protect the forest from pests, diseases, and fires, and for mechanization of various types of thinning are being created.
For citation: Bartenev I.M., Drapalyuk M.V. Improving the Technology of Reforestation in Cuttings with the Use of Energy-Efficient Tractors. Lesnoy Zhurnal [Russian Forestry Journal], 2021, no. 5, pp. 117–133. DOI: 10.37482/0536-1036-2021-5-117-133
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Агеев Л.Е., Бахриев С.Х. Эксплуатация энергонасыщенных тракторов. М.: Агропромиздат, 1991. 271 c. Ageyev L.E., Bakhriyev S.Kh. Operation of High-Energy Tractors. Moscow, Agropromizdat Publ., 1991. 271 p.
Алентьев П.Н. Проблемы повышения эффективности лесных культур на вырубках, зарастающих лиственными породами // Изв. вузов. Лесн. журн. 2005. № 6. С. 37–43. Alentjev P.N. Problems of Increasing Efficiency of Forest Cultures on Cleared Space Overgrown by Deciduous Species. Lesnoy Zhurnal [Russian Forestry Journal], 2005, no. 6, pp. 37–43. URL: http://lesnoizhurnal.ru/upload/iblock/b3a/b3a55c4e49c7e27ee4bc438d48587346.pdf
Алябьев А.Ф. Обоснование технологических комплексов машин для лесовосстановления: моногр. М.: МГУЛ, 2010. 267 c. Alyab’yev A.F. Substantiation of Technological Complexes of Machines for Reforestation: Monograph. Moscow, MGUL Publ., 2010. 267 p.
Бартенев И.М. Экологизация процесса освоения вырубок под лесные культуры // Лесотехн. журн. 2012. № 1(5). С. 21–27. Bartenev I.M. Ecologization of Process of Developing Cuttings for Forest Cultures. Lesotekhnicheskii zhurnal [Forestry Engineering Journal], 2012, no. 1(5). pp. 21–27.
Бартенев И.М. Природоохранные технологии лесопользования и лесовосстановления // Актуальные направления научных исследований XXI века: теория и практика. 2014. № 3, ч. 4(8-4). С. 121–126. Bartenev I.M. Environmental Technologies for Forest Management and Reforestation. Aktual’nye napravlenia naucnyh issledovanij XXI veka: teoria i praktika [Current Directions of Scientific Research of the XXI Century: Theory and Practice], 2014, no. 3, part 4(8-4), pp. 121–126. DOI: https://doi.org/10.12737/4354
Бартенев И.М., Драпалюк М.В. Снижение вредного воздействия лесных тракторов и лесосечных машин на почву и насаждения // Лесотехн. журн. 2012. № 1(5). С. 61–66. Bartenev I.M., Drapalyuk M.V. Reducing the Harmful Effects of Forest Harvesting Machines and Tractors on the Soil and Plantations. Lesotekhnicheskii zhurnal [Forestry Engineering Journal], 2012, no. 1(5), pp. 61–66.
Бартенев И.М., Поздняков Е.В. Площадкоделатель вокруг пней // Лесотехн. журн. 2014. № 1(13). С. 156–158. Bartenev I.M., Pozdnyakov E.V. Patch-Maker around the Stumps. Lesotekhnicheskii zhurnal [Forestry Engineering Journal], 2014, no. 1(13). pp. 156–158. DOI: https://doi.org/10.12737/3361
Бартенев И.М., Родин С.А. Экологизация технологий и машин лесного комплекса. Пушкино: ВНИИЛМ, 2001. 87 с. Bartenev I.M., Rodin S.A. Greening Technologies and Machines of the Forestry Complex. Pushkino, VNIILM Publ., 2001. 87 p.
Бартенев И.М., Драпалюк М.В., Казаков В.И. Совершенствование технологий и средств механизации лесовосстановления: моногр. М.: Флинта, 2013. 208 с. Bartenev I.M., Drapalyuk M.V., Kazakov V.I. Improvement of Technologies and Mechanical Equipment for Reforestation: Monograph. Moscow, Flinta Publ., 2013. 208 p.
Бартенев И.М., Драпалюк М.В., Попиков П.И., Бухтояров Л.Д. Конструкции и параметры машин для расчистки лесных площадей: моногр. М.: Флинта, 2007. 208 с. Bartenev I.M., Drapalyuk M.V., Popikov P.I., Bukhtoyarov L.D. Designs and Parameters of Machines for Clearing Forest Areas: Monograph. Moscow, Flinta Publ., 2007. 208 p.
Беликов Е.В. Обоснование параметров фрезы с гидроприводом для понижения пней твердолиственных пород на лесных участках: автореф. дис. … канд. техн. наук. Воронеж: ВГЛТА. 2010. 16 с. Belikov E.V. Substantiation of Parameters of a Hydraulically-Driven Cutter for Lowering Hardwood Stumps in Forest Areas: Cand. Eng. Sci. Diss. Abs. Voronezh, VGLTA Publ., 2010. 16 p.
Винокуров В.Н., Еремин Н.В. Система машин в лесном хозяйстве. М.: Академия, 2004. 320 с. Vinokurov V.N., Eremin N.V. Machine System in Forestry. Moscow, Akademiya Publ., 2004. 320 p.
Горячкин В.П. Собрание сочинений. Т. 6. М.: ОГИЗ-СЕЛЬХОЗГИЗ, 1948. 298 с. Goryachkin V.P. Collected Works. Vol. 6. Moscow, OGIZ-SEL’KhOZGIZ Publ., 1948. 298 p.
Драпалюк М.В., Батищев С.Н., Посметьев В.В. Оптимизация параметров виброударной машины удаления пней // Вестн. КрасГАУ. 2010. № 12. С. 111–115. Drapalyuk M.V., Batishchev S.N., Posmetyev V.V. Parameter Optimization of the Vibroimpact Machine for Stub Removal. Vestnik KrasGAU [The Bulletin of KrasGAU], 2010, no. 12, pp. 111–115.
Калиниченко Н.П., Писаренко А.И., Смирнов Н.А. Лесовосстановление на вырубках. М.: Экология, 1991. 380 с. Kalinichenko N.P., Pisarenko A.I., Smirnov N.A. Reforestation in Clearcuts. Moscow, Ekologiya Publ., 1991. 380 p.
Ксеневич И.П., Кутьков Г.М. Технологические основы и техническая концепция тракторов второго поколения // Тракторы и сельхозяйственные машины. 1982. № 12. С. 26–28. Ksenevich I.P., Kutkov G.M. Technological Basis and Engineering Concept of the Second Generation Tractors. Traktory i sel’khozyaystvennyye mashiny, 1982, no. 12, pp. 26–28.
Кузьмин Н.В. Повышение эффективности работы почвообрабатывающих агрегатов на базе гусеничного трактора тягово-энергетической концепции: автореф. дис. … канд. техн. наук. Красноярск, 2008. 20 с. Kuz’min N.V. Improving the Efficiency of Soil Cultivation Units Based on a Caterpillar Tractor of the Traction and Energy Concept: Cand. Eng. Sci. Diss. Abs. Krasnoyarsk, 2008. 20 p.
Куликов М.И. О взаимодействии системы «движитель – грунт – лесная среда» // Тр. лесоинж. фак. ПетрГУ. 2001. № 3. С. 52–55. Kulikov M.I. On the Interaction of the System “Mover – Soil – Forest Environment”. Trudy lesoinzhenernogo fakul’teta PetrGU [Resources and Technology], 2001, no. 3, pp. 52–55. DOI: https://doi.org/10.15393/j2.art.2001.2275
Новиков С.В. Обоснование параметров и разработка компоновочной схемы оборудования для полосной расчистки вырубок: автореф. дис. … канд. техн. наук. Л., 1984. 18 с. Novikov S.V. Substantiation of Parameters and Development of a Layout Diagram of Equipment for Strip Clearing of Clearcuts: Cand. Eng. Sci. Diss. Abs. Leningrad, 1984. 18 p.
Патент 2571798 РФ, МПК A01G23/06. Машина для понижения пней: № 2014144688/13: заявл. 05.11.2014: опубл. 20.12.2015 / И.М. Бартенев, М.В. Драпалюк, Л.Д. Бухтояров, Е.В. Поздняков. Bartenev I.M., Drapaljuk M.V., Bukhtojarov L.D., Pozdnjakov E.V. Machine for Descending Stumps. Patent RF, no. RU 2571798 C1, 2015.
Справочник лесничего / В.Д. Новосельцев, Д.Ф. Горбов, Г.И. Зинов [и др.]; под ред. В.Д. Новосельцева. 5-е изд., перераб. и доп. М.: Агропромиздат, 1986. 352 с. Novosel’tsev V.D., Gorbov D.F., Zinov G.I. et al. Handbook of a Forester. Ed. by V.D. Novosel’tsev. Moscow, Agropromizdat Publ., 1986. 352 p.
Толмачев А.Н. Исследование работы гусеничного корчевателя: автореф. дис. … канд. техн. наук. М., 1975. 28 с. Tolmachev A.N. Study of the Caterpillar Grubber Operation: Cand. Eng. Sci. Diss. Abs. Moscow, 1975. 28 p.
Уголев Б.Н. Древесиноведение и лесное товароведение. М.: МГУЛ, 2007. 351 с. Ugolev B.N. Wood Science and Commodity Science. Moscow, MSFU Publ., 2007. 351 p.
Филин А.И. Обоснование способов расчистки вырубок под лесные культуры в подзоне южной тайги: автореф. … канд. с.-х. наук. Л., 1987. 20 с. Filin A.I. Substantiation of Methods for Clearing Felling Areas for Forest Crops in the Southern Taiga Subzone: Cand. Agric. Sci. Diss. Abs. Leningrad, 1987. 20 p.
Фокин С.В. О машинах и орудиях по удалению и измельчению пней // Лесн. хоз-во Поволжья. Саратов: СГАУ, 2000. С. 230–232. Fokin S.V. About Machines and Tools for Removing and Crushing Stumps. Forestry of the Volga Region: Interuniversity Collection of Academic Papers. Saratov, SSAU Publ., 2000. pp. 230–232.
Фокин С.В., Цыплаков В.В. К технологии полосной расчистки нераскорчеванных вырубок в степной и лесостепной зонах // Вестн. Саратов. госагроун-та им. Н.И. Вавилова. 2007. № 4. С. 91–92. Fokin S.V., Tcyplakov V.V. To the Question of Belt Clearing of the Unstubbing Clearings in the Steppe and Forest-Steppe Zones. Vestnik Saratovskogo gosagrouniversiteta im. N.I. Vavilova [The Bulletin of Saratov State Agrarian University in honor of N.I. Vavilov], 2007, no. 4, pp. 91–92.
Beck W. Verwvendeung Von Gleitschutzketten beim Rucken mit Traktoren. Beiträge für die Forstwirtschaft, 1993, no. 4, pp. 175–178.
Czupy I. Energetic Comparison of Some Stump-Removing Methods. Progress in Agricultural Engineering Sciences, 2014, vol. 10, iss. 1, pp. 35–51. DOI: https://doi.org/10.1556/progress.10.2014.3
Guiraud C. La Mecanisation des reboisements. Revue Forestière Française, 1969, no. 1424, pp. 421–428. DOI: https://doi.org/10.4267/2042/20326
Jain T., Sikkink P., Keefe R., Byrne J. To Masticate or not: Useful Tips for Treating Forest, Woodland, and Shrubland Vegetation. General Technical Report RMRS-GTR-381. Fort Collins, CO, Rocky Mountain Research Station. 2018. 55 p. DOI: https://doi.org/10.2737/RMRS-GTR-381
Jones P.C., Hawkend J.H. Stump Grinders. Austin, USA, 2014. 156 p.
Ľuptáčiková V., Hnilica R., Ťavodová M. Increasing the Life of Mulching Tools. International Journal of Engineering and Management Sciences, 2019, vol. 4, no. 1, pp. 414–421. DOI: https://doi.org/10.21791/IJEMS.2019.1.51.
Omdal D.W., Shaw C.G., Jacobi W.R. Evaluation of Three Machines to Remove Armillaria- and Annosum-Infected Stumps. Western Journal of Applied Forestry, 2001, vol. 16, iss. 1, pp. 22–25. DOI: https://doi.org/10.1093/wjaf/16.1.22
Yao L., Wang Y., Zeng Z., Kan J. Vibration Analysis and Optimization of a Vertical Disc Stump Grinder. Advances in Mechanical Engineering, 2018, vol. 10, iss. 2, pp. 1–10. DOI: https://doi.org/10.1177/1687814018758577
