Analytically-oriented approaches to nonlinear sloshing …tim/TALKS/Braunschweig_2004.pdf ·...

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Analytically-oriented approaches to nonlinear sloshing in moving smooth tanks by Alexander Timokha (Jena-Kiev-Leipzig-Trondheim) & Ivan Gavrilyuk (Eisenach-Leipzig)

Transcript of Analytically-oriented approaches to nonlinear sloshing …tim/TALKS/Braunschweig_2004.pdf ·...

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Analytically-oriented approachesto nonlinear sloshing in moving

smooth tanks

byAlexander Timokha (Jena-Kiev-Leipzig-Trondheim)

&Ivan Gavrilyuk (Eisenach-Leipzig)

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Overview

• Motivation: coupling with rigid body dynamics• Physical modelling and basic free boundary

problems• DFG Projects by talkers on “sloshing”• Multimodal method• Experience from 2D flow• Generalization to 3D flow• Perspectives

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Industry Motivations

• Spacecraft, beginning from 50-60th

• Road tracks• (PST) Petroleum Storage Tanks• Oil Ship Tankers

•• (LNG) Liquefied Natural Gas Carriers(LNG) Liquefied Natural Gas Carriers(smooth tanks, no baffles)(smooth tanks, no baffles)

•• (TLD, TSD) Tuned Liquid (Sloshing)(TLD, TSD) Tuned Liquid (Sloshing)Damper (smooth tanks, active device)Damper (smooth tanks, active device)Unbaffled nonlinear fluid sloshing, coupled motions

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Moss typeLNG Carriers

Membrane typeLNG Carriers

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GT NO96

Gas Transport Containment (aft end)

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Membrane

Primary Barrier Membrane

Secondary Barrier

Primary Insulation

Secondary Insulation

Gas Transport (GT) No. 96 Technigaz (TGZ) Mark III CS1

LNG Tank — by Containment System

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Tuned Liquid Dampers

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Physical effects in modelling nonlinearsloshing

Parameters Importance Comments 1 Froude number Yes 2 Reynolds number

(Viscosity) No Second order for large

amplitude sloshing 3 Liquid

compressibility No

4 Surface tension No 5 Ullage Space

compressibility Not clear Further investigation

6 Gas cushioning / cavitation

Not clear Further investigation

7 Ullage vapour condensation

N/A No exp. should use water/ saturated-water-vapour at room temp.

8 Wall flexibility (hydroelasticity)

Yes ? Further investigation

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Fluid sloshing in a moving tank

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Free boundary problem

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“Sloshing” in DFG projects:• “Combined numerical-analytical methods for solving non-classical

evolutional and spectral problems arising in fluid sloshing analysis”(1996-1999)

• “Analytische, numerische und geometrische Methoden bei derEvolution freier Flüssigkeitsränder” (2000-2002)

• “Numerisch-analytische Methoden für oszillierende Grenzfläschen inMikrogravitation und Hyperelastisitaet” (2003-2005)

involving Institute of Mathematics (Kiev, Ukraine)Leipzig Universität & Berufsakademie Thüringen

Tendency of these projects:• from classical “sloshing” problems to morecomplicated mathematical statements;• concentration on mathematical aspects;• minor attention to mechanical conclusions andphysical phenomena.

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Multimodal methods as analytically-oriented approach to sloshing and

coupling• Potential flow, no overturning waves (statement described)• Vertical wall and no roof impact• Free surface elevation as a Fourier series by natural modes

(example for 2D flow)

βi represent free surface modes• Variational formulation to derive a discrete model,

which• Leads to system of nonlinear ordinary differential

equations in time for βi

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Importance of the tank shape

• Natural modes to be known analytically ornumerically-analytically

• Distribution of the energy between lower and highermodes to be known (dispersion relationship)

• Spacecraft applications/TLD – tanks of revolution(vertical circular cylinder, conical, spherical tanks)

• Ship tanks - prismatic or spherical geometry

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Importance of filling level

• Finite water depth sloshing (filling height/tank length>0.24)– Resembles standing wave

• Shallow water sloshing (filling height/tank length<0.1)– Hydraulic jump / bore– Thin vertical jet – run-up

• Intermediate depth

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General modal system byMiles-Lukovsky

May be reduced to ODE in the modal functions βi, finite-dimensional when ordering modal functions

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Hydrodynamic Forces

and Moments

This makes hydrodynamic forces/moments by function ofgeneralised coordinates and provides a efficient coupling(dynamic system for the coupled object)

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Multimodal models for 2D sloshing

• The ordering reflects a response of lower orderthan the forced oscillation amplitude ε

• Finite depth:β1=O(ε1/3), β2=Ο(ε2/3),β3=Ο(ε)• Increased importance of secondary (internal)

resonance with decreasing depth and increasingexcitation implies more than one dominant mode

• Boussinesq ordering for intermediate and shallowdepth

• System truncation based on assumed order ofdifferent modes

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Extensive experimental validation

• Transient and steady-state phase of 2D flow inrectangular or close to rectangular tank

• Wave elevation, horizontal force and rollmoment

• Fluid depth-tank length ratios h/L between 0.08and 0.5

• Include shallow depth,intermediate depth andcritical depth h/L=0.34

• Sway amplitude-tank length ratios up to 0.1• Roll angles up to 0.2 rad

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Finite depth ordering

• Forcing frequency is in the vicinity oflowest natural frequency and lowestmode is assumed dominant

• Excitation amplitude-tank length ratio isO(ε )

• Generalized free surface coordinateβ1=O(ε1/3)

• β2=Ο(ε2/3)• β3=Ο(ε)

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Differential equations for finite depth

Forces and moments are functions of

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Steady-state response for 2D flowwith finite depth

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Transient response

Comparison of experimental data (elevation near the wall) and the theory forresonant sway forcing

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Secondary resonance and nonlinear modal systems

• Nonlinear multiple frequency effects excite highernatural frequencies

• Increased importance with decreasing depth andincreasing forcing amplitude

• Reason for decreasing depth importance is thatσn=nσ1 when depth goes to zero

• Implies that more then one mode is dominant

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Secondary resonance and fluid depth

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Different ordering of modes due tosecondary resonance for large amplitude forcing

with finite depth

Forcing frequency slightlysmaller of the lowest natural frequency

Forcing frequency invicinity of the lowestnatural frequency

Forcing frequency slightlylarger of the lowestnatural frequency

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Comparison with experiments

Rectangular tank, 1x1m. Small-ampliude forced sway motion with period T. h/l=0.35

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Comparison with experiments and CFD calculations(Smoothed Particles, Flow3D fails)

for large-amplitude forcing; fluid depth/tank length=0.35

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Intermediate-to-shallow depth ordering

• Boussinesq type ordering:

• All generalized coordinates βi=O(ε1/4)

• Fluid depth –tank length ratio h/L=O(ε1/4)

• Also applied to shallow depth

• Many modes needed when depth goes to zero

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Wave profiles for intermediate depth

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Wave profiles for nearly-shallow depth.A/L=0.028,T/T1=1.09,h/L=0.173

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Comparison with experiments for shallowsloshing

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Dissipation• Increased importance with decreasing depth• Very long transient effects for finite depth and a

smooth tank with no roof impact• Short transient period for intermediate and shallow

depth• Due to run up along walls and subsequent

overturning of free surface and impact onunderlying fluid

• Due to breaking waves in the middle of the tank• Viscous boundary layer effects are not important

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Dissipation: importance ofnear-wall phenomena

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Dissipation: importance of roof impact

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Dissipation: importance of breaking waves

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Dissipative phenomena by modalmodelling

• Linear damping terms in each modal system(pendulum analogy)

• Damping terms amount viscous etc. dissipation• For steady-state sloshing – constant values

accounting for energy less per period

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Extension of multimodal method to 3Dsloshing in square base tank

• Possible steady-state wave motions are - planar (Stokes standing ) waves (2D) - square-like waves - swirling

• No stable steady wave motions may exist

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Free surface elevation for squarebased tank with finite depth

• ζ=∑∑βik(t) cos(πi(x+0.5L))cos(πk(y+0.5L)

• β10=O(ε1/3) β01=O(ε1/3)

• β20=O(ε2/3) β11=O(ε2/3) β02=O(ε2/3)

• β30=O(ε) β21=O(ε) β12=O(ε) β03=O(ε)

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Longitudinal harmonic excitation ofsquare-based tank

(experiments made by NTNU, Norway)

• Fluid depth h=0.508L (in experiments)• Excitation amplitude 0.0078L (in

experiments)• Steady-state wave response• Stable and unstable theoretical results

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Planar wave amplitude A as afunction of excitation frequency σ

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’Square’- like (diagonal) steady statewave elevation

ζ=[A(cos(π(x+0.5L))- cos(π(y+0.5L)))+ Β(cos(π(x+0.5L))+ cos(π(y+0.5L)))] cos(ωt)

+o(ε1/3)

Square mode :cos(π(x+0.5L))- cos(π(y+0.5L))

Square mode :cos(π(x+0.5L))+ cos(π(y+0.5L))

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Square(diagonal) wave patterns

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Square-like wave amplitude as afunction of excitation frequency σ

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Swirling. Steady-state waveelevation

ζ= A cos(π(x+0.5L))cos(ωt) +Β cos(π(y+0.5L)) sin(ωt)+o(ε1/3)

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Swirling – rotational wave motion

• Special feature of three-dimensional flow in square basetank, vertical circular tank or spherical tank

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Swirling wave amplitude A as afunction of excitation frequency σ

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Stability of steady statesolutions

• β10=(A1+α(τ))cos(ωt)+(A2+δ(τ))sin(ωt)+o(ε1/3)

• β01=(A3+γ(τ))cos(ωt)+(A4+κ(τ))sin(ωt)+o(ε1/3)

• Ai are steady state values

• τ=O(ε2/3)

• ω−σ1= O(ε2/3)

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Comparison between theory andexperiments

• Theory predicts more than one stablesteady-state wave type for certainfrequencies

• Wave type with smallest amplitude is thenmost likely

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Wave amplitudes A as a function ofexcitation frequency σ

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Flow types in square based tank withlongitudinal excitation.Effect of fluid depth

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Flow types (classified) in square based tank withlongitudinal excitation. Effect of fluid depth

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Flow types (classified) in square based tank withlongitudinal excitation. Effect of fluid depth

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Flow types (classified) in square based tank withlongitudinal excitation. Effect of fluid depth

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Flow types (classified) in square based tank withlongitudinal excitation. Effect of fluid depth

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Flow types (classified) in square based tank withlongitudinal excitation. Effect of fluid depth

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Swirling.Experiments and theory

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CPU time for multimodal method

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Future perspectives• Must we base our future developments to

account for two phase flow?• Local phenomena with CFD methods and

patching with modal systems?• Complex geometry of the tanks (there are

results for conical tanks)?• TLD applications, coupling with building

dynamics?• Dissipation?

„Analysis of Strongly Nonlinear Sloshing Phenomenain Moving Tanks of Real Industry Applications“

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Thank you for your attentionReferences

• Gavrilyuk, I., Lukovsky, I., Timokha, A. 2000 A multimodal approach to nonlinearsloshing in a circular cylindrical tank. Hybrid Methods in Engineering. 2, # 4.

• Faltinsen, O., Rognebakke, O., Lukovsky, I., Timokha, A. 2000 Multidimensionalmodal analysis of nonlinear sloshing in a rectangular tank with finite water depth.J. Fluid Mech. 407.

• Faltinsen, O., Timokha, A. 2001 An adaptive multimodal approach to nonlinearsloshing in a rectangular tank. J. Fluid Mech. 432.

• Lukovsky, I., Timokha, A. 2001 Sound effect on dynamics and stability of fluidsloshing in zero-gravity. Int. J. of Fluid Mech. Res. 28.

• Faltinsen, O., Timokha, A. 2002 Asymptotic modal approximation of nonlinearresonant sloshing in a rectangular tank with small fluid depth. J. Fluid Mech. 470.

• Gavrilyuk, I., Lukovsky, I., Timokha, A. 2002 Sloshing in a circular conical tank.Hybrid Methods in Engineering. 3, # 1.

• Faltinsen, O., Rognebakke, O., Timokha, A. 2003 Resonant three-dimensionalnonlinear sloshing in a square-base basin. J. Fluid Mech. 487.

available at http://www.imath.kiev.ua/~tim