621.464.3 Mathematical modeling hydraulic systems for synchronous movement of actuators based on a throttle flow divider

Bushuev A. Y. (Bauman Moscow State Technical University), Danilov N. A. (Bauman Moscow State Technical University)

HYDRAULIC SYNCHRONIZATION SYSTEMS, THROTTLE FLOW DIVIDER, MATHEMATICAL MODELING, GENETIC ALGORITHM, NELDER-MEAD ALGORITHM


doi: 10.18698/2309-3684-2022-2-313


A mathematical model of functioning of synchronization systems of actuators based on a throttle flow divider was developed to solve design problem. The solution of the optimization problem of a mismatch time of movement of actuators operating under conditions of external alternating-sign force effects is given, performed using the genetic algorithm and refined using the Nelder-Mead algorithm


Rybak A.T. Modelirovanie i optimizaciya gidromekhanicheskih sistem mobil'nyh mashin i tekhnologicheskogo oborudovaniya [Modeling and optimization of hydromechanical systems of mobile machines and technological equipment]. Abstract of the diss. Dr. Sc. (Eng.). Krasnodar, 2008, 41 p.
Gamynin N.S., Karev V.I., Potapov A.M., Selivanov A.M. Gidravlicheskie privody letatel'nyh apparatov: ucheb. dlya aviac. spec. vuzov [Hydraulic drives of aircraft: textbook. for aviac. spec. universities]. Moscow, Mashinostroenie Publ., 1992, 366 p.
Grinchar N.G., Zaitseva N.A. Gidrocilindry: uchebnoe posobie [Hydraulic cylinders: a textbook]. Moscow, MIIT Publ., 2015, 136 p.
Casey В., Tumarkin M. How to Synchronize Hydraulic Cylinders [Electronicresource], 2006. URL: https://www.hydraulicsupermarket.com/synchronization.html (accessed: 30.10.2021).
Ivanov M.Yu., Novikov A.E. Resh G.F. Features of designing and numerical simulation of flow stabilizers in actuator line synchronization systems. Herald of the Bauman Moscow State Technical University, Series Mechanical Engineering, 2017, no. 2, pp. 54–65.
Bekasov V.I., Melanin A.N. Sinhronizaciya parallel'no rabotayushchih privodov [Synchronization of parallel drives]. Moscow, MAI Publ., 1987, 24 p.
Bushuev A.Yu., Ivanov M.Yu., Korotaev D.V. Minimization of mismatch time of movement of actuators of a throttle synchronization system. Journal of Physics: Conference Series, 2018, vol. 1141, art. no. 012090. DOI: 10.1088/1742-6596/1141/1/012090
Bushuev A.Yu., Ivanov M.Yu., Korotaev D.V., Resh G.F. DgsSynchCAD software environment for modeling and automated heuristic optimization of throttle synchronization hydraulic systems. Mathematical Modeling and Computational Methods, 2020, № 1, pp. 103–117.
Zarubin V.S. Matematicheskoe modelirovanie v tekhnike: ucheb. dlya vuzov [Mathematical modeling in engineering: textbook for universities]. Moscow, BMSTU Publ., 2003, 496 p.
Popov D.N. Mekhanika gidro- i pnevmoprivodov [Mechanics of hydraulic and pneumatic actuators]. Moscow, BMSTU Publ., 2002, 320 p.
Bushuev A.Y., Maremshaova A.A.Ψ-transformation optimization method in сomparison with canonical particle swarm optimization method. Mathematical Modeling and Computational Methods, 2018, № 3, pp. 22–37.
Agasiev T., Karpenko A. The program system for automated parameter tuning of optimization algorithms. Procedia Computer Science, 2007, vol. 103, pp. 347 –354.
Sakharov M., Karpenko A. A new way of decomposing search domain in a global optimization problem. Journal of Spacecraft and Rockets, vol. 49, iss. 4, pp. 720–730.
Karpenko A.P. Sovremennye algoritmy poiskovoj optimizacii. Algoritmy, vdohnovlennye prirodoj: uchebnoe posobie [Modern search engine optimization algorithms. Algorithms inspired by nature: a textbook]. Moscow, BMSTU Publ., 2014, 446 p.
Panteleev A.V., Metlitskaya D.V., Alyoshina E.A. Metody global'noj optimizacii. Metaevristicheskie strategii i algoritmy [Methods of global optimization. Metaheuristic strategies and algorithms]. Moscow, University Book Publ., 2013, 244 p.
Himmelblau D. Applied nonlinear programming. New York, McGraw-Hill, 1972, 498 p.
Kopchenova N.V., Maron I.A. Vychislitel'naya matematika v primerah i zadachah [Computational mathematics in examples and problems]. Saint Petersburg, Lan Publ., 2009, 368 p.
Bushuev A.Y., Ryauzov S.S. Optimization of solid fuel model gas generator design. Mathematical Modeling and Computational Methods, 2019, № 4, pp. 3–14.


Бушуев А.Ю., Данилов Н.А. Математическое моделирование гидравлической системы синхронизации исполнительных органов на основе дроссельного делителя потока. Математическое моделирование и численные методы, 2022, № 2, с. 3–13



Download article

Количество скачиваний: 77