Coupled Simulation of Multiphase Fluid Flow & Multiple...
Transcript of Coupled Simulation of Multiphase Fluid Flow & Multiple...
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Coupled Simulation of Multiphase Fluid Flow & Multiple Body Motion:
Oil Flow in a Rotating Spur-gear System
Christine Klier, Matthias Banholzer, Kathleen Stock, Ludwig Berger
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Oil flow in a rotating spur-gear system
Outline
1. Motivation
2. Methodology
3. Problem setup and mesh generation
4. Modelling setup
5. Results
6. Conclusions
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Oil flow in a rotating spur-gear system
1. Motivation
Gear lubrication is a significant concern in a wide range of industries which use power transmission.
Main objective of CFD model prediction is the optimization of the oil flow around rotating components in a gearbox:
• Improve the efficiency of transmissions
• Reduce the friction between the gearwheels (pitting)
• Minimization of load-independent spin power losses
• Assessment of wall effects on gear housing
Reduction of the operation costs of a gearbox and prolonging the component lifetime.
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Oil flow in a rotating spur-gear system
2. Methodology • Multiphase Fluid Flow
– Volume Of Fluid (VOF) Method: utilizes an Eulerian framework
– immescible fluid phases share velocity, pressure, and temperature fields
– air entrapment and turbulence regimes can be well represented
coupled with
• Multiple Body Motion
– Overlapping Overset (Chimera) Method: Overlapping of multiple grids
every motion can be simulated
– every moving body is represented with one grid
– one mesh in the background which "contains" all meshes 4
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Oil flow in a rotating spur-gear system
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Gearbox Gear No. 1
Gear No. 2
Pressure Outlet Analysis of the oil flow around the rotating components and of the volume fraction on gear flanks:
• at different oil filling heights z
• with ramping the rotation rate.
3. Problem setup
z middle
z low
z high
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Oil flow in a rotating spur-gear system
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3.2. Mesh generation
Geometry (incl. symmetry plane)
gear housing: d = 280 mm l = 200 mm gear-wheels: d = 130 mm l = 58 mm overset region 1,2: d = 140 mm l = 68 mm background region – mesh refinement: d = 150 mm l = 70 mm
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Mesh – detailed view
3.2. Mesh –
Polyhedral mesher: background region 2 mm, refinement 1 mm, intersection 0.5 mm overset regions 1mm
Prism layer mesher: 5 prism layers
≈ 5.4 mio cells
Simulation time requirements: # inner iterations 5 # processors: 4/12 32/20 s per Δt & 1 mio. cells
≈ 6/3.8 days per revolution
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Active Cells Passive Cells
Acceptor Cells
Overset mesh – cell status
3.2. Mesh –
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4. Modell setup • Eulerian Multiphase Model isothermal
Volume Of Fluid: Phase 1 (gear lubricant)
– Oil (C12H26)
– density 841.2 kg/m^3 ISO VG 220, 100°C
– dyn. viscosity 0.0149 Pa-s
Phase 2
– Air (ideal Gas)
Initial oil distribution by a user field function: zNORM 0.35 / 0.457 / 0.564
• Multiple Body Motion:
1. Rotation +/- 2000 rpm
2. Ramping of the rotation rate by a user field function
• Turbulence Modell: k-omega SST (Menter)
• Solver Settings :
Timestep 1∙10-5 s
Inner iterations 5
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Oil flow in a rotating spur-gear system
5. Results
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Velocity streamlines
t = ⅟₈ revolution (r) t = 1 r
5. Results –
5.1. Flow fields transient (oil filling height middle)
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Velocity flow field (oil filling height middle)
t = ⅟₈ r t = 1 r
5.1. Results –
Velocity magnitude (m s-1)
nearly laminar flow conditions
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Transient pressure distribution (oil filling height middle)
t = ⅟₈ r
t = 1 r
5.1. Results –
low pressure conditions between gear teeth
low pressure conditions transient continuation
high pressure
high pressure conditions on gearbox wall
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Oil flow in a rotating spur-gear system
5.2. Oil distribution in the box and on gear flanks (filling height middle)
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0.0
1.0
0.5
VF
5. Results –
t = ⅟₃ r t = ⅟₃ r
t = 1 r
t = 1 r
gear flanks
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Oil flow in a rotating spur-gear system
Volume Fraction (VF) of oil in interstitial gear regions (comparison of different oil filling heights)
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low middle high
t = ⅟₃ r
high t = ⅟₂ r
inclusion of air bubbles in interstitial gear regions in all cases
5.2. Results –
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Oil flow in a rotating spur-gear system
VF of oil on gear flanks (comparison of different oil filling heights)
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stagnation afterwards
Gear No. 1
Gear No. 2
5.2. Results –
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Oil flow in a rotating spur-gear system
VF of oil in detail on flanks of gear no.2
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oil filling [%]
avg. pressure in gearbox (1r -2r) [%]
torque (at 2r) [%] G1 G2
friction (at 2r) [%] G1 G2
displaced oil volume
(at 2r) [%]
low 32 100 100 100 100 100 4.5
middle 46 + 18 + 233 + 141 + 72 - 13 4.2
high 58 + 34 + 455 + 497 + 272 + 59 8.9
5.2. Results –
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Oil flow in a rotating spur-gear system
5.3. VF of oil on gear flanks – Comparison with ramping the rotation rate
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oil filling [%]
VF on surface (≈ 2r) [%]
(1st case as reference)
torque (≈ 2r) [%] G1 G2
friction (≈ 2r) [%] G1 G2
displaced oil volume (≈ 2r) [%]
2000 rpm 46 100 100 100 100 100 4.2
Ramp + 2000 rpm
46 - 4 - 2 - 2 - 6 - 4 4.4
without ramp (2r)
with ramp (2 ⅟₄r)
5. Results –
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Oil flow in a rotating spur-gear system
6. Conclusions
1) Transient flow fields, pressure, and torques in the gear-box and between adjacent gear teeth could be effectively studied by the presented CFD method.
2) The applied method was definitely convenient to study the influence of different oil filling heights:
• on the oil flow in the gearbox
• on the volume fraction of oil on gear flanks.
3) Ramping the rotation rate has in the present analysis no influence on the oil fraction on gear flanks.
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Oil flow in a rotating spur-gear system
Outlook
1. Inclusion of oil temperature simulation
• heat dissipation in the gear-box
• heat conduction at the gear-box wall
• heat conduction at the gear flanks.
2. Influence of oil viscosity on oil flow and volume fractions
on gear flanks.
3. Influence of gear-box design and gear wheel geometry.
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6. Conclusions –
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Thank you for attention!!
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Oil flow in a rotating spur-gear system
2.1. Volume Of Fluid in detail
– Eulerian technique
– interface tracking scheme
– one set of momentum equations for all fluids
– volume fraction εk defined as
– volume fraction continuity equation for each phase:
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Oil flow in a rotating spur-gear system
2.2. Overlapping Overset Mesh
• acceptor cells contain information
to calculate cell center values in
active cells and face fluxes
between active cells and acceptor
cells
• there are different interpolation
schemes
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Active Cell Acceptor Cell
Donor Cell