LOW DRAUGHT SUBSOIL TILLAGE FACILITIES
The biogeosystem engineering is considered, and the verification of the biological, recreational, productive-economic resources of the soil-reclamation agrotechnics based on the rotary milling subsoiling is performed. The test data of the first-generation rotary milling subsoiling facility is provid...
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Don State Technical University
2014-06-01
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Online Access: | https://www.vestnik-donstu.ru/jour/article/view/321 |
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doaj-27af94d3b4b241b4a048d1202dd1ac092021-10-02T18:41:35ZrusDon State Technical UniversityAdvanced Engineering Research2687-16532014-06-0114215116310.12737/4467314LOW DRAUGHT SUBSOIL TILLAGE FACILITIESValery Petrovich Kalinichenko0Vladimir Konstantinovich Sharshak1Evgeny Panteleymonovich Ladan2Victor Vasilyevich Illarionov3Evgeny Dmitriyevich Genev4Institute for Soil Fertility of South of Russia, RussiaDon State Agrarian University, RussiaDon State Agrarian University, RussiaDon State Agrarian University, RussiaDon State Agrarian University, RussiaThe biogeosystem engineering is considered, and the verification of the biological, recreational, productive-economic resources of the soil-reclamation agrotechnics based on the rotary milling subsoiling is performed. The test data of the first-generation rotary milling subsoiling facility is provided. A fundamentally new engineering solution is developed. The structural synthesis of the new rotary milling subsoiling facility options in the second- and third-order approximations is performed. The draught minimization of the new facility under its operation is provided. The optimization criterion for the engineering solution synthesis results is developed; the facility parametric synthesis is performed; comparative energy characteristics of the new facility and prototype are given. The rotary milling chisel plough—gearbox transmits torque without passive draught to the tillage tool, and to the subsoiling one that operates full dip being horizontally located and moving progressively at the given depth of 20‒48 cm. The possibility of the reliable operation in the soil of the new engineering solution interconnect system is proved. The assignment and reliability indices of the subsoiling rotary milling facilities are given. Performance physics and physics of failures are considered; the new engineering solution reliability is proved. The fundamentally new principles of the innovation project development and the implementation of the land development plans in Russia are proposed.https://www.vestnik-donstu.ru/jour/article/view/321dispersion systembiogeosystem engineeringrotary milling subsoilingmechanism synthesistorque transfertraction and power balancereliability. |
collection |
DOAJ |
language |
Russian |
format |
Article |
sources |
DOAJ |
author |
Valery Petrovich Kalinichenko Vladimir Konstantinovich Sharshak Evgeny Panteleymonovich Ladan Victor Vasilyevich Illarionov Evgeny Dmitriyevich Genev |
spellingShingle |
Valery Petrovich Kalinichenko Vladimir Konstantinovich Sharshak Evgeny Panteleymonovich Ladan Victor Vasilyevich Illarionov Evgeny Dmitriyevich Genev LOW DRAUGHT SUBSOIL TILLAGE FACILITIES Advanced Engineering Research dispersion system biogeosystem engineering rotary milling subsoiling mechanism synthesis torque transfer traction and power balance reliability. |
author_facet |
Valery Petrovich Kalinichenko Vladimir Konstantinovich Sharshak Evgeny Panteleymonovich Ladan Victor Vasilyevich Illarionov Evgeny Dmitriyevich Genev |
author_sort |
Valery Petrovich Kalinichenko |
title |
LOW DRAUGHT SUBSOIL TILLAGE FACILITIES |
title_short |
LOW DRAUGHT SUBSOIL TILLAGE FACILITIES |
title_full |
LOW DRAUGHT SUBSOIL TILLAGE FACILITIES |
title_fullStr |
LOW DRAUGHT SUBSOIL TILLAGE FACILITIES |
title_full_unstemmed |
LOW DRAUGHT SUBSOIL TILLAGE FACILITIES |
title_sort |
low draught subsoil tillage facilities |
publisher |
Don State Technical University |
series |
Advanced Engineering Research |
issn |
2687-1653 |
publishDate |
2014-06-01 |
description |
The biogeosystem engineering is considered, and the verification of the biological, recreational, productive-economic resources of the soil-reclamation agrotechnics based on the rotary milling subsoiling is performed. The test data of the first-generation rotary milling subsoiling facility is provided. A fundamentally new engineering solution is developed. The structural synthesis of the new rotary milling subsoiling facility options in the second- and third-order approximations is performed. The draught minimization of the new facility under its operation is provided. The optimization criterion for the engineering solution synthesis results is developed; the facility parametric synthesis is performed; comparative energy characteristics of the new facility and prototype are given. The rotary milling chisel plough—gearbox transmits torque without passive draught to the tillage tool, and to the subsoiling one that operates full dip being horizontally located and moving progressively at the given depth of 20‒48 cm. The possibility of the reliable operation in the soil of the new engineering solution interconnect system is proved. The assignment and reliability indices of the subsoiling rotary milling facilities are given. Performance physics and physics of failures are considered; the new engineering solution reliability is proved. The fundamentally new principles of the innovation project development and the implementation of the land development plans in Russia are proposed. |
topic |
dispersion system biogeosystem engineering rotary milling subsoiling mechanism synthesis torque transfer traction and power balance reliability. |
url |
https://www.vestnik-donstu.ru/jour/article/view/321 |
work_keys_str_mv |
AT valerypetrovichkalinichenko lowdraughtsubsoiltillagefacilities AT vladimirkonstantinovichsharshak lowdraughtsubsoiltillagefacilities AT evgenypanteleymonovichladan lowdraughtsubsoiltillagefacilities AT victorvasilyevichillarionov lowdraughtsubsoiltillagefacilities AT evgenydmitriyevichgenev lowdraughtsubsoiltillagefacilities |
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