Инд. авторы: Lyutov A., Kryukov A., Cherny S., Chirkov D., Salienko A., Skorospelov V., Turuk P.
Заглавие: Modelling of a Francis Turbine Runner Fatigue Failure Process Caused by Fluid-Structure Interaction
Библ. ссылка: Lyutov A., Kryukov A., Cherny S., Chirkov D., Salienko A., Skorospelov V., Turuk P. Modelling of a Francis Turbine Runner Fatigue Failure Process Caused by Fluid-Structure Interaction // IOP Conference Series: Earth and Environmental Science. - 2016. - Vol.49. - Iss. 7. - Art.072012. - ISSN 1755-1307. - EISSN 1755-1315.
Внешние системы: DOI: 10.1088/1755-1315/49/7/072012; РИНЦ: 29479191; SCOPUS: 2-s2.0-85012226040; WoS: 000400156200099;
Реферат: eng: In the present paper considered is the problem of the numerical simulation of Francis turbine runner fatigue failure caused by fluid-structure interaction. The unsteady 3D flow is modeled simultaneously in the spiral chamber, each wicket gate and runner channels and in the draft tube using the Euler equations. Based on the unsteady runner loadings at each time step stresses in the whole runner are calculated using the elastic equilibrium equations solved with boundary element method. Set of static stress-strain states provides quasi-dynamics of runner cyclic loading. It is assumed that equivalent stresses in the runner are below the critical value after which irreversible plastic processes happen in the runner material. Therefore runner is subjected to the fatigue damage caused by high-cycle fatigue, in which the loads are generally low compared with the limit stress of the material. As a consequence, the stress state around the crack front can be fully characterized by linear elastic fracture mechanics. The place of runner cracking is determined as a point with maximal amplitude of stress oscillations. Stress pulsations amplitude is used to estimate the number of cycles until the moment of fatigue failure, number of loading cycles and oscillation frequency are used to calculate runner service time. Example of the real Francis runner which has encountered premature fatigue failure as a result of incorrect durability estimation is used to verify the developed numerical model.
Ключевые слова: high cycle fatigue failure; rotor-stator interaction; Boundary element method; Brittle fracture; Computational fluid dynamics; Cracks; Fatigue damage; Fatigue of materials; Fracture mechanics; Francis turbines; Hydraulic machinery; Hydraulic motors; Numerical models; Plates (structural components); Sailing vessels; Stress analysis; Elastic equilibrium; Equivalent stress; Fluid structure interaction; Rotor-stator interactions; Oscillation frequency; Number of cycles; Linear elastic fracture mechanics; High cycle fatigue; Francis turbine runner; Francis turbine;
Издано: 2016
Физ. характеристика: 072012
Конференция: Название: 28th IAHR Symposium on Hydraulic Machinery and Systems
Аббревиатура: IAHR 2016
Город: Grenoble
Страна: France
Даты проведения: 2016-07-04 - 2016-07-08
Ссылка: http://www.iahrgrenoble2016.org/