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Home / Journals / Forestry Engineering Journal / Volume 8 Issue 3 / Features of numerical integration of the system of differential equations of the working process of soil-cultivating machine with a hydraulic drive for the prevention and suppression of forest fires
Features of numerical integration of the system of differential equations of the working process of soil-cultivating machine with a hydraulic drive for the prevention and suppression of forest fires
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FEATURES OF NUMERICAL INTEGRATION OF THE SYSTEM OF DIFFERENTIAL EQUATIONS OF THE WORKING PROCESS OF SOIL-CULTIVATING MACHINE WITH A HYDRAULIC DRIVE FOR THE PREVENTION AND SUPPRESSION OF FOREST FIRES
UDK 63 Сельское хозяйство. Лесное хозяйство. Охота. Рыбное хозяйство
Bartenev Ivan 1
Popikov Petr 2
Sharov Andrey Viktorovich 3
Sherstyukov Nikita 4
Authors:
1.  Voronezh State University of Forestry and Technologies named after G.F. Morozov (Forestry and Mechanization of Machine Design department, Professor)

Voronezh, Voronezh, Russian Federation
2.  Voronezh State University of Forestry and Technologies named after G.F. Morozov (Department of Mechanization of Forestry and Design, Professor)

Voronezh, Voronezh, Russian Federation
3.  Voronezh State University of Forestry and Technologies (PostGraduate student)

4.  Voronezhskiy gosudarstvennyy lesotehnicheskiy universitet imeni G.F. Morozova

Russian Federation
Type:
Article
DOI:
https://doi.org/10.12737/article_5b97a15e077cc5.51055673
Pages:
from 170 to 176
Status:
Published
Received:
11.09.2018
Accepted:
18.03.2019
Published:
18.03.2019
Subject area:
UDK 63 Сельское хозяйство. Лесное хозяйство. Охота. Рыбное хозяйство
Language:
Russian
Keywords:
matematicheskaya model', rotor, gidroprivod, gruntomet, prepyatstviya, rabochiy process.
Abstract and keywords
Abstract (English):
V dannoy stat'e predstavlena matematicheskaya model' raboty lesnogo pozharnogo gruntometa s gidroprivodom, pozvolyayuschey izuchit' vliyanie parametrov gidrosistemy lesopozharnogo gruntometa, grunta i prepyatstviy na effektivnost' rabochego processa i zaschity rotora. Metod v kotorom pochva i prepyatstviya predstavlyayutsya sovokupnost'yu bol'shogo kolichestva (poryadka 2000...10000) sharoobraznyh elementov malogo razmera, sposobnyh vzaimodeystvovat' kak mezhdu soboy, tak i s lopatkami gruntometa. Differencial'nye uravneniya, opisyvayuschie dvizhenie elementov grunta i prepyatstviy, a takzhe vraschenie rotora gruntometa, yavlyayutsya odnotipnymi. Dlya resheniya sistemy differencial'nyh i algebraicheskih uravneniy, kotoraya zalozhena v osnovu modeli, razrabotana komp'yuternaya programma "Programma dlya modelirovaniya raboty lesnogo pozharnogo gruntometa s energosberegayuschim gidroprivodom". Programma razrabotana v srede BorlandDelphi 7.0 na yazyke programmirovaniya ObjectPascal. Pered nachalom komp'yuternogo eksperimenta mozhno zadat' konstruktivnye i tehnologicheskie parametry gruntometa i gidrosistemy, fiziko-mehanicheskie parametry grunta. V processe raboty programma neskol'ko raz v sekundu vyvodit na ekran komp'yutera shematichnoe izobrazhenie v treh proekciyah gruntometa i pochvennoy sistemy, a takzhe vremennuyu zavisimost' momenta soprotivleniya vrascheniyu rotora. Programma prednaznachena dlya mnogokratnogo provedeniya komp'yuternyh eksperimentov po metaniyu grunta, ostanovke i pusku rotora pri kontakte s nepreodolimymi prepyatstviyami, i opredeleniya na etoy osnove optimal'nyh parametrov energosberegayuschey gidrosistemy. Takim obrazom razrabotana metodika resheniya matematicheskoy modeli raboty lesnogo pozharnogo gruntometa s energosberegayuschey gidrosistemoy, pozvolyayuschaya izuchit' vliyanie parametrov gidrosistemy, gruntometa, grunta, prepyatstviy na effektivnost' rabochego processa i zaschity rotora.

Keywords:
matematicheskaya model', rotor, gidroprivod, gruntomet, prepyatstviya, rabochiy process.
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References

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