performance analysis of gas lubricated cylindrical journal bearing using fsi technique
TRANSCRIPT
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PERFORMANCE ANALYSIS OF GAS LUBRICATED
CYLINDRICAL JOURNAL BEARING
USING FSI TECHNIQUE
BATCH – 2 GUIDEK.JITENDRA DR. A.GOPI CHANDG.V.SAI TEJAB.PRAVEENK.U.SHANKAR REDDY
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CONTENTS Abstract Objective Bearings Lubrication Advantages Disadvantages Applications CFD & FSI techniques Combinations we analysed Results Conclusion
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ABSTRACT With the development of manufacturing technology, rotating machinery becomes increasingly powerful with higher and higher rotation speed. Fluid lubricated journal bearings are widely used in large rotating machinery because of its low cost, long life, silent operation and simple application.
To choose the best suitable lubricant for different eccentricity ratio and L/D ratio combinations of journal bearings by considering the pressure, deformation and stress results obtained in analysis.
In this thesis journal bearings for L/D ratios and different eccentricity ratios are modeled in 3D modeling software CATIA. The L/D ratio considered is 0.5,0.8 and eccentricity ratios considered are 0.2, 0.4 and 0.6. The gas lubricants considered are Air, Helium and Nitrogen.
Journal bearing models are developed for speed of 3000 rpm to study the interaction between the fluid and structural behavior of the bearing. The speed is the input for CFD analysis and the pressure obtained from the CFD analysis is taken as input for structural analysis.
Computational fluid dynamics (CFD) and fluid structure interaction (FSI) is done in Ansys.
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OBJECTIVETo choose the best suitable lubricant for
different eccentricity ratio and L/D ratio combinations of journal bearings by considering the pressure, deformation and stress results obtained in analysis.
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Bearing is a machine element, which supports another moving machine element permitting the relative motion between the Contact surfaces with minimal friction.
The term "bearing" is derived from the verb "to bear" a bearing being a machine element that allows one part to bear (i.e., to support) another.
What is a Bearing:
JOURNAL BEARING
It is one, which forms the sleeve around the shaft and supports a bearing at right angles to the axis of the bearing.
The portion of the shaft resting on the sleeve is called the journal. Example of journal bearings are-__Solid bearing __Bushed bearing__Pedestal bearing.
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Lubrication is the process or technique employed to reduce friction between, and wear of one or both, surfaces in close proximity and moving relative to each other, by interposing a substance called a lubricant between them.
The lubricant can be • a solid (e.g. Molybdenum disulfide MoS2) • a solid/liquid dispersion• a liquid such as oil or water• a liquid-liquid dispersion (a grease)• a Gas.
LUBRICATION
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GAS LUBRICANTS USED IN BEARINGS
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ADVANTAGES OF GAS LUBRICATED JOURNAL BEARINGS
• Low viscosity • Low power loss and cool operations due to low friction• High rotational speed operations• Good performance of the lubricant at extremely low and extremely high temperatures• Precise axis definition and a high accuracy over a wide
speed range• Long life due to a virtually zero wear rate • Low noise and vibration levels • Virtually no necessity for periodic maintenance • No contamination of surfaces by the lubricant.• Minimal contamination to the surrounding environment • No necessity for a fluid-recovery system; these systems
are clean • No breaking down of the film due to cavitation or
ventilation• Availability for both linear and rotary application.
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• The surfaces must have an extremely fine finish• The alignment must be extremely good• Dimensions and clearances must be extremely accurate • The speed must be high • The loading must be low • Careful designing is required to avoid vibration due to compressibility of the fluid • More power is required to pressurize a compressible fluid • The design is more empirical since the flow relationships are almost impossible to solve • Required very precise machining in manufacturing • The stability characteristics are poor
DISADVANTAGES
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APPLICATIONS
• Textile industries• Food processing industries• Paper industries• Used in missiles• Machine tools• Measuring and inspection instruments• Process and manufacturing equipments• Medical equipments• Coordinate measuring machines• Precision machine tools• Optical lens production equipment• Digital printers • Lithography• Diamond turning machines• Very high or low temperature manufacturing environments• Radiation manufacturing environments
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CFD TECHNIQUE IN ANSYS
Computational fluid dynamics, usually abbreviated as CFD, is a branch of fluid mechanics that uses numerical analysis and algorithms to solve and analyse problems that involved fluid flows
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FSI TECHNIQUE IN ANSYS
FSI is the abbreviation for Fluid Solid Interaction. In this technique the output obtained by the fluid flow
is given as input to the structural analysis of solid member in ansys.
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ECCENTRICITY RATIO :
Eccentricity ratio is the ratio of eccentricity of bearing to the clearance between journal and inner diameter of bearing
Ɛ=e/ce=eccentricityc=radial clearance
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L/D RATIO :
It is the ratio of length of the journal bearing to the diameter of the bearing
If L/D increases, surface area of bearing increases then pressure inside the bearing as well as stress on the bearing decreases
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LUBRICANTS ANALYSED
Density
(kg/m3)
Viscosity
(Kg/m-s)
Air 1.225 1.7849e-05
Helium 0.1625 1.99e-05
Nitrogen 1.138 1.663e-05
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COMBINATIONS ANALYSED
L/D=0.8
Ɛ=0.2
AIR
HELIUM
NITROGEN
Ɛ=0.4
AIR
HELIUM
NITROGEN
Ɛ=0.6
AIR
HELIUM
NITROGEN
L/D=0.5
Ɛ=0.2
AIR
HELIUM
NITROGEN
Ɛ=0.4
AIR
HELIUM
NITROGEN
Ɛ=0.6
AIR
HELIUM
NITROGEN
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CATIA DESIGN
PROCEDURE
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ANSYSPROCEDURE
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ANALYSIS PROCESSSelect fluid flow (fluent) and static structural Fluid flow Selectgeometry>right click>import igs file>select file>ok
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After importing geometry
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Select mesh>right click>edit
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Select part 1 >right click>supress body
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Sizing >coarse >fine
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coarse –fineUpdate mesh
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Select mesh >right click >update>after updateSetup >right click >edit
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Click ok
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After clicking ok
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Select model>double click >energy
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click tickmark >ok
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Click viscosity > laminar > ok
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Select materials >air >double click
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After double clicking check properties
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Select >boundary conditions >zone>inlet
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Go to type> select velocity inlet
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Enter velocity magnitude and pressure values
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Edit thermal value >ok
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Sselect solution initialization
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click initialize
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After clicking initialization is done
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Go to run calculation and edit iterations
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Enter iteration value as 10Click calculate
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Calculation is completed
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Go to graphics and animations
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Double click contours
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Click tick mark on filled
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After entering click tick mark> filled> click . Display
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Contours of pressure is shown
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Changing of exponential to float
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Click apply
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APPLYING FSI TECHNIQUE FROM THE SOLUTION OBTAINED BY CFD
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RESULTSMATERIALS
AIR HELIUM NITROGEN
PRESSURE(MPa) 1153.36 1208.34 1053.78
DEFORMATION(m) 5.5854e-9 6.3225e-9 5.3536e-9
STRESS(MPa) 9659.5 13685 11663
RESULTS: For L/D= 0.5, Ɛ=0.2
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0 0.2 0.4 0.6 0.8 10
400
800
1200
1600
2000
airheliumnitrogen
GRAPH:PR
ESSU
RE(M
Pa)
ECCENTRICITY RATIO
Eccentricity ratio vs pressure graph at L/D=0.5
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CONCLUSION By considering the stress, deformation and
pressure values obtained by the analysis , we can find out best suitable lubricant for different L/D and eccentricity ratio combinations of bearings
Lubricant which produces least pressure , deformation and stress values is the best suitable one. .
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