000004164 001__ 4164
000004164 005__ 20141118153333.0
000004164 04107 $$acze
000004164 046__ $$k2004-05-10
000004164 100__ $$aZapoměl, J.
000004164 24500 $$aIncorporation of a vapour cavitation in short lemon hydrodynamical bearings with deep a central groove into computational models of rotor systems - response on unbalance excitation

000004164 24630 $$n10.$$pEngineering Mechanics 2004
000004164 260__ $$bInstitute of Thermomechanics AS CR, v.v.i., Prague
000004164 506__ $$arestricted
000004164 520__ $$2eng$$aA vapour cavitation in hydrodynamical bearings is a significant factor that influences dynamical properties of the total rotor system. Its substanace consists in boiling the oil if the pressure in the bearing gap drops below a critical value. It always arrives at formation of a two-phase medium and at rupture of the oil film. Incorporation of a vapour cavitation into the computational models of fluid film bearings assumes that two kinds of areas exist in the bearing clearance. In noncavitated regions a hydrodynamical effect is developed and then the pressure distribution is governed by a Reynolds equation. In cavitated areas the pressure remains constant. To be kept the continuity of flow between these regions the pressure gradient on both sides of their common border must be zero. If geometry and design parameters of the bearing with a deep central groove make possible to consider it as short, then solution of the Reynolds equation ( including the case of bearings of non-circular cross section ) can be expressed in a closed form. If the pressure magnitude should drop below a critical value a cavitation takes place. Solution of the Reynolds equation is then divided into two parts between which an interval of constant pressure exists. Components of the hydraulical force are calculated by integration of the pressure distribution along the lenght and circumference of the bearing. For solution of the equation of motion a modified Newmark method has been adopted. Applicability of the developed approach has been tested by means of computer simulations.

000004164 540__ $$aText je chráněný podle autorského zákona č. 121/2000 Sb.
000004164 653__ $$a

000004164 7112_ $$aEngineering Mechanics 2004$$cSvratka (CZ)$$d2004-05-10 / 2004-05-13$$gEM2004
000004164 720__ $$aZapoměl, J.
000004164 8560_ $$ffischerc@itam.cas.cz
000004164 8564_ $$s2219499$$uhttps://invenio.itam.cas.cz/record/4164/files/T-Zapomel-Jaroslav.pdf$$y
             Original version of the author's contribution as presented on CD, .
            
000004164 962__ $$r4009
000004164 980__ $$aPAPER