海洋柔性结构涡激振动的流固耦合机理和响应

doi:10.6052/1000-0992-16-005

摘要/Abstract

摘要：

对近几十年来国内外在涡激振动的基础研究包括机理认识和动响应分析等方面的进展进行了论述，尤其针对海洋油气平台中的立管、隔水管等细长柔性结构的涡激振动.描述了涡激振动这种典型的非线性流固耦合现象所具有的特征，包括自激、自限制、展向相关、尾迹水动力与结构动力的流固耦合等及其主要影响参数.介绍了目前常用的结构响应预测方法和相关实验.通过讨论当前理论研究和实际工程中的热点问题，诸如多模态宽带振动、浮体运动与水下立管的耦合、响应抑制措施、双向振动、高雷诺数下的大尺度物理实验等，对今后该领域的研究方向进行了力所能及的展望.

关键词:

涡激振动|流固耦合|深水立管|振动与波

Abstract:

We review some recent developments on the mechanism and response analysis of vortex-induced vibration (VIV) of flexible cylinders, particularly the slender risers in deep water. Main characters of VIV, such as self-excitation, self-limitation, span coherence and fluid-solid coupling, along with principal influence factors are presented. Various prediction approaches, including empirical and numerical ones, and experiments are introduced. Then we give perspectives on some challenging issues, e.g., multi-mode and wide-band VIV, dynamic interaction between top-end motion and submarine riser, VIV suppression, CF (cross flow) and IL (in line) motion and large scale experiment at high Reynolds number.

Key words:

vortex-induced vibration|interaction between solid and fluid|deep-water riser|vibration and wave

中图分类号:

O353.4

陈伟民, 付一钦, 郭双喜, 姜春晖. 海洋柔性结构涡激振动的流固耦合机理和响应[J]. 力学进展, 2017, 47(1): 201702-201702.

Weimin CHEN, Yiqin FU, Shuangxi GUO, Chunhui JIANG. Fluid-solid coupling and dynamic response of vortex-induced vibration of slender ocean cylinders[J]. Advances in Mechanics, 2017, 47(1): 201702-201702.

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Glezer A, Amitay M. 2002. Synthetic jets. Annual Review of Fluid Mechanics, 34:503-529.
Gopalkrishnan R. 1993. Vortex induced forces on oscillating bluff cylinders. USA:Woods Hole Oceanographic Institution MA.
Govardhan R, Williamson C H K. 2004. Critical mass in vortex-induced vibration of a cylinder. European Journal of Mechanics B/Fluids, 23:17-27.
Grant R, Patterson D. 1977. Riser fairing for reduced drag and vortex suppression//The Annual Offshore Technology Conference. Houston, Texas, USA, OTC 2921 MS.
Griffin O M, Hall M S. 1991. Review:Vortex shedding lock-on and flow control in bluff body wakes. Journal of Fluids Engineering, 113:526-537.
Griffin O M, Skop R A, Ramberg S E. 1975. The resonant vortex excited vibrations of structures and cable systems//Proceedings of Offshore Technology Conference, Houston, Texas, OTC 2319.
Grundy P, Hewitt M P. 2002. Incremental collapse of tension legs and risers//Proceedings of 12th International Offshore and Polar Engineering Conference (ISOPE-2002), Kyushu Japan, 129-132.
Gu W, Chyu C, Rockwell D. 1994. Timing of vortex formation from an oscillating cylinder. Physics of Fluids, 6:3677-3682.
Guo H Y, Lou M. 2008. Effect of internal flow on vortex-induced vibration of risers. Journal of Fluids and Structures, 24:496-504.
Halse K H. 2000. Norwegian deep water program:improved predictions on vortex-induced vibrations//Proc.of the OTC, Houston, Texas. OTC 11996.
Hartlen R T, Currie I G. 1970. Lift-oscillator model of vortex-induced vibration. Journal of the Engineering Mechanics, 96:577-591.
He J W, Low Y M. 2010. Probabilistic assessment of the clashing between flexible marine risers//Proceedings of 29th International Conference on Ocean, Offshore and Arctic Engineering, OMAE, 2010-20046, 41-49.
Herlianto I, Chen Q, Karunakaran D. 2012. Lateral buckling induced by trawl gears pull-over loads on high temperature/high pressure subsea pipeline//The ASME 31st International Conference on Ocean Offshore and Arctic Engineering, Rio de Janeiro, Brazil, 235-240.
Heurtier J M, Biollcy F, Berhault C. 1998. Fully coupled dynamic analysis of rigid lines and floater behaviors in deep water//Proceedings of the Eighth (1998) International Offshore and Polar Engineering Conference Montrkal, Canada, May 24-29.
Heurtier J M, Le Buhan P, Fontaine E F, Mer L S S, Cunff F C L. 2001. Coupled dynamic response of moored FPSO with risers//Proceedings of the Eleventh (2001) International Offshore and Polar Engineering Conference Stavanger, Norway, June 17-22.
Holmes S, Constantinides Y, Oakley O H. 2006. Simulation of riser VIV using fully three dimensional CFD simulations//The ASME 25th International Conference on Offshore Mechanics and Arctic Engineering, Hamburg, Germany. 563-570.
Hong N, Huh T. 1999. Effect of internal flow on vortex-induced vibration of riser//The Ninth International Offshore and Polar Engineering Conference, Brest, France, 688-693.
Hover F S, Davis J T, Triantafyllou M S. 2004. Three-dimensionality of mode transition in vortex-induced vibrations of a circular cylinder. European Journal of Mechanics B/Fluid, 23:29-41.
Hover F S, Techet A H, Triantafyllou M S. 1998. Forces on oscillating uniform and tapered cylinders in cross flow. Journal of Fluid Mechanics, 363:97-114.
Huarte F J H, Bearman P W, Chaplin J R. 2006. On the force distribution along the axis of a flexible circular cylinder undergoing multi-mode vortex-induced vibrations. Journal of Fluids and Structures, 22:897-903.
Huerre P. 2002. Global nonlinear instabilities in wake flows//The Conference on Bluff Body Wakes and Vortex-Induced Vibrations (BBVIV3), Port Douglas, Australia.
Huse E, Kleiven G, Nielsen F G. 1998. Large scale model testing of deep sea risers//The Offshore Technology Conference, Houston, Texas. OTC 8701.
Huse E, Kleiven G, Nielsen F G. 1999. VIV-induced axial vibration on deep sea risers//The Offshore Technology Conference, Houston, Texas, OTC 10932.
Iwan W D, Blevins R D. 1974. A model for vortex induced oscillation of structures. Journal of Applied Mechanics, 41:581-586.
Iwan W D. 1981. The Vortex-induced oscillation of non-uniform structure analysis. Journal of Sound and Vibration, 79:291-301.
Jauvtis N, Williamson C H K. 2003. Vortex induced vibration of a cylinder with two degrees of freedom. J.Fluids Struct, 17:1035-1042.
Jauvtis N, Williamson C H K. 2004. The effect of two degrees of freedom on vortex-induced vibration at low mass and damping. Journal of Fluid Mechanics, 509:23-62.
Kaasen K E, Lie H, Solaas F, Vandiver J K. 2000. Norwegian deep water program:Analysis of vortex-induced vibrations of marine risers based on full-scale measurements//The Offshore Technology Conference, Houston, Texas, OTC 11997.
Kaasen K E. 2001. Optimizing sensor locations for identification of riser VIV modes//The 11th International Ocean and Polar Engineering Conference, Stavanger, Norway, 23-28.
Karayaka M, Chen J H, Blankenship C, Chevron E T C, Ruf W. 2009. 2H Offshore Inc. Mat Podskarbi, Schlumberger Tahiti online monitoring system for steel catenary risers and flow lines//Offshore Technology Conference, Houston, Texas, OTC 19860.
Keber M, Wiercigroch M. 2008. Dynamics of a vertical riser with weak structural nonlinearity excited by wakes. Journal of Sound and Vibration, 315:685-699.
Ketar M, Patil K D. 2014. Review of subsea pipeline for minimizing thermal and pressure expansion. Journal of Petroleum Engineering and Technology, 4:10-22.
Khalak A, Williamson C H K. 1999. Motions, orces and mode transitions in vortex-induced vibrations at low mass-damping. Journal of Fluids and Structures, 13:813-851.
Kim Y H, Vandiver J K, Holler R. 1986. Vortex-induced vibration and drag coefficients of long cables subjected to sheared flows. Journal of Energy Resources Technology, 108:77-83.
Korkischko I, Meneghini J R. 2010. Experimental investigation of flow-induced vibration on isolated and tandem circular cylinders fitted with strakes. Journal of Fluids and Structures, 26:611-625.
Kravchenko A G, Moin P. 1998. B-spline methods and zonal grids for numerical simulations of turbulent flows. USA:Department of Mechanical Engineering, Stanford University, Report TF-73.
Kumar R A, Sohn C H, Gowda B H L. 2008. Passive control of vortex-induced vibrations. An Overview Recent Patents on Mechanical Engineering, 1:1-11.
Lam K, Wang F H, Li J Y, So R M C. 2004. Experimental investigation of the mean and fluctuating forces of wavy (varicose) cylinders in a cross-flow. Journal of Fluids and Structures, 19:321-334.
Lam K, Lin Y F, Zou L, Liu Y. 2010. Investigation of turbulent flow past a yawed wavy cylinder. Journal of Fluids and Structures, 26:1078-1097.
Larsen C M, Halse K H. 1997. Comparison of models for vortex-induced vibrations of slender marine structures. Marine Structures, 10:413-441.
Larsen C M, Vikestad K, Yttervik R, Passano E. 2001. Empirical model for analysis of vortex induced vibrations-theoretical background and case studies//The ASME 20th International Conference on Offshore Mechanics and Arctic Engineering, Rio de Janeiro. OMAE2001/OFT-1203.
Layek G C, Midya C, Gupta A S. 2008. Influences of suction and blowing on vortex shedding behind a square cylinder in a channel. International Journal of Non-Linear Mechanics, 43:979-984.
Lee S J, Kim H B. 1997. The effect of surface protrusions on the near wake of a circular cylinder. Journal of Wind Engineering and Industrial Aerodynamics, 71:351-361.
Lee H H, Wang P W. 2000. Analytical solution on the surge motion of tension-leg twin platform structural systems. Ocean Engineering, 27:393-415.
Li B B, Ou J P, Teng B. 2010. Fully coupled effects of hull. Mooring and risers model in time domain based on an innovative deep draft multi-spar. China Ocean Engineering, 24:219-233.
Liao J C. 2002. Vortex-induced vibration of slender structure in unsteady flow.[PhD Thesis]. Massachusetts:Massachusetts Institute of Technology.
Lie H, Kaasen K E. 2006. Modal analysis of measurements from a large-scale VIV model test of a riser in linearly sheared flow. Journal of Fluids and Structures, 22:557-575.
Lie H, Larsen C M, Vandiver J K. 1997. Vortex induced vibrations of long marine risers; model test in a rotating rig//The ASME16th International Conference on Offshore Mechanics and Arctic Engineering, Yokohama, Japan, 241-252.
Lim H C, Lee S J. 2004. Flow control of a circular cylinder with O-rings. Fluid Dynamics Research, 35:107-122.
Lubbad R K, Loset S, Moe G. 2011. Experimental investigations of the efficiency of round-Sectioned helical strakes in suppressing vortex induced vibrations. Journal of Offshore Mechanics and Arctic Engineering, 133:041102.1-041102.10.
Lucor D, Imas L, Karniadakis G E. 2001. Vortex dislocations and force distribution of a long flexible cylinders subjected to sheared flows. Journal of Fluids and Structures Mechanics, 15:641-650.
Lucor D, Triantafalou M S, Ma X, Karniadakis G E. 2003. Vortex-induced vibrations of long marine risers in sheared flows:DNS studies//The 4th ASME/JSME Joint Fluids Engineering Conference, Honolulu, Hawaii, USA.
Lucor D, Foo J, Karniadakis G E. 2005. Vortex mode selection of a rigid cylinder subject to VIV at low mass-damping. Journal of Fluids and Structures, 20:483-503.
Lyons G J, Patel M H. 1986. A prediction technique for vortex induced transverse response of marine risers and tethers. Journal of Sound and Vibration, 11:467-487.
Lyons G J, Vandiver J K, Larsen C M, Ashcombe G T. 2003. Vortex induced vibrations measured in service in the Foinaven dynamic umbilical and lessons from prediction. Journal of Fluids and Structures, 17:1079-1094.
Machado R Z, Mourelle M M, Franciss R, Silva R M, Lima C S, Eisemberg R, Oliveira D. 1992. Monitoring program for the first steel catenary riser installed in a moored floating platform in deep water//Oceans Conference Record (IEEE), 801-810.
Mandini R V. 1961. Kinematics of vortices in the early wake of vibrating circular cylinders.[Master Thesis]. USA:University of California, Berkeley.
Marcollo H, Chaurasia H, Vandiver J K. 2007. Phenomena observed in VIV bare riser field tests//THE ASME 26th International Conference on Offshore Mechanics and Arctic Engineering, 989-995.
Masters R H, Griffith B L. 2012. Apparatus and method for securing a fairing around a marine element.US2012/0243944.
Mathelin L, de Langre E. 2005. Vortex-induced vibrations and waves under shear flow with a wake oscillator model. European J. of Mechanics B/Fluids, 24:478-490.
Meneghini J R, Bearman P W. 1993. Numerical simulation of high amplitude oscillator-flow about a circular cylinder using a discrete vortex method//Shear Flow Conf. Orlando, FL, AIAA Paper 93-3288. 2008. Effect of internal flow on vortex-induced vibration of risers. Journal of Fluids and Structures, 24:496-504.
Halse K H. 2000. Norwegian deep water program:improved predictions on vortex-induced vibrations//Proc.of the OTC, Houston, Texas. OTC 11996.
Hartlen R T, Currie I G. 1970. Lift-oscillator model of vortex-induced vibration. Journal of the Engineering Mechanics, 96:577-591.
He J W, Low Y M. 2010. Probabilistic assessment of the clashing between flexible marine risers//Proceedings of 29th International Conference on Ocean, Offshore and Arctic Engineering, OMAE, 2010-20046, 41-49.
Herlianto I, Chen Q, Karunakaran D. 2012. Lateral buckling induced by trawl gears pull-over loads on high temperature/high pressure subsea pipeline//The ASME 31st International Conference on Ocean Offshore and Arctic Engineering, Rio de Janeiro, Brazil, 235-240.
Heurtier J M, Biollcy F, Berhault C. 1998. Fully coupled dynamic analysis of rigid lines and floater behaviors in deep water//Proceedings of the Eighth (1998) International Offshore and Polar Engineering Conference Montrkal, Canada, May 24-29.
Heurtier J M, Le Buhan P, Fontaine E F, Mer L S S, Cunff F C L. 2001. Coupled dynamic response of moored FPSO with risers//Proceedings of the Eleventh (2001) International Offshore and Polar Engineering Conference Stavanger, Norway, June 17-22.
Holmes S, Constantinides Y, Oakley O H. 2006. Simulation of riser VIV using fully three dimensional CFD simulations//The ASME 25th International Conference on Offshore Mechanics and Arctic Engineering, Hamburg, Germany. 563-570.
Hong N, Huh T. 1999. Effect of internal flow on vortex-induced vibration of riser//The Ninth International Offshore and Polar Engineering Conference, Brest, France, 688-693.
Hover F S, Davis J T, Triantafyllou M S. 2004. Three-dimensionality of mode transition in vortex-induced vibrations of a circular cylinder. European Journal of Mechanics B/Fluid, 23:29-41.
Hover F S, Techet A H, Triantafyllou M S. 1998. Forces on oscillating uniform and tapered cylinders in cross flow. Journal of Fluid Mechanics, 363:97-114.
Huarte F J H, Bearman P W, Chaplin J R. 2006. On the force distribution along the axis of a flexible circular cylinder undergoing multi-mode vortex-induced vibrations. Journal of Fluids and Structures, 22:897-903.
Huerre P. 2002. Global nonlinear instabilities in wake flows//The Conference on Bluff Body Wakes and Vortex-Induced Vibrations (BBVIV3), Port Douglas, Australia.
Huse E, Kleiven G, Nielsen F G. 1998. Large scale model testing of deep sea risers//The Offshore Technology Conference, Houston, Texas. OTC 8701.
Huse E, Kleiven G, Nielsen F G. 1999. VIV-induced axial vibration on deep sea risers//The Offshore Technology Conference, Houston, Texas, OTC 10932.
Iwan W D, Blevins R D. 1974. A model for vortex induced oscillation of structures. Journal of Applied Mechanics, 41:581-586.
Iwan W D. 1981. The Vortex-induced oscillation of non-uniform structure analysis. Journal of Sound and Vibration, 79:291-301.
Jauvtis N, Williamson C H K. 2003. Vortex induced vibration of a cylinder with two degrees of freedom. J.Fluids Struct, 17:1035-1042.
Jauvtis N, Williamson C H K. 2004. The effect of two degrees of freedom on vortex-induced vibration at low mass and damping. Journal of Fluid Mechanics, 509:23-62.
Kaasen K E, Lie H, Solaas F, Vandiver J K. 2000. Norwegian deep water program:Analysis of vortex-induced vibrations of marine risers based on full-scale measurements//The Offshore Technology Conference, Houston, Texas, OTC 11997.
Kaasen K E. 2001. Optimizing sensor locations for identification of riser VIV modes//The 11th International Ocean and Polar Engineering Conference, Stavanger, Norway, 23-28.
Karayaka M, Chen J H, Blankenship C, Chevron E T C, Ruf W. 2009. 2H Offshore Inc. Mat Podskarbi, Schlumberger Tahiti online monitoring system for steel catenary risers and flow lines//Offshore Technology Conference, Houston, Texas, OTC 19860.
Keber M, Wiercigroch M. 2008. Dynamics of a vertical riser with weak structural nonlinearity excited by wakes. Journal of Sound and Vibration, 315:685-699.
Ketar M, Patil K D. 2014. Review of subsea pipeline for minimizing thermal and pressure expansion. Journal of Petroleum Engineering and Technology, 4:10-22.
Khalak A, Williamson C H K. 1999. Motions, orces and mode transitions in vortex-induced vibrations at low mass-damping. Journal of Fluids and Structures, 13:813-851.
Kim Y H, Vandiver J K, Holler R. 1986. Vortex-induced vibration and drag coefficients of long cables subjected to sheared flows. Journal of Energy Resources Technology, 108:77-83.
Korkischko I, Meneghini J R. 2010. Experimental investigation of flow-induced vibration on isolated and tandem circular cylinders fitted with strakes. Journal of Fluids and Structures, 26:611-625.
Kravchenko A G, Moin P. 1998. B-spline methods and zonal grids for numerical simulations of turbulent flows. USA:Department of Mechanical Engineering, Stanford University, Report TF-73.
Kumar R A, Sohn C H, Gowda B H L. 2008. Passive control of vortex-induced vibrations. An Overview Recent Patents on Mechanical Engineering, 1:1-11.
Lam K, Wang F H, Li J Y, So R M C. 2004. Experimental investigation of the mean and fluctuating forces of wavy (varicose) cylinders in a cross-flow. Journal of Fluids and Structures, 19:321-334.
Lam K, Lin Y F, Zou L, Liu Y. 2010. Investigation of turbulent flow past a yawed wavy cylinder. Journal of Fluids and Structures, 26:1078-1097.
Larsen C M, Halse K H. 1997. Comparison of models for vortex-induced vibrations of slender marine structures. Marine Structures, 10:413-441.
Larsen C M, Vikestad K, Yttervik R, Passano E. 2001. Empirical model for analysis of vortex induced vibrations-theoretical background and case studies//The ASME 20th International Conference on Offshore Mechanics and Arctic Engineering, Rio de Janeiro. OMAE2001/OFT-1203.
Layek G C, Midya C, Gupta A S. 2008. Influences of suction and blowing on vortex shedding behind a square cylinder in a channel. International Journal of Non-Linear Mechanics, 43:979-984.
Lee S J, Kim H B. 1997. The effect of surface protrusions on the near wake of a circular cylinder. Journal of Wind Engineering and Industrial Aerodynamics, 71:351-361.
Lee H H, Wang P W. 2000. Analytical solution on the surge motion of tension-leg twin platform structural systems. Ocean Engineering, 27:393-415.
Li B B, Ou J P, Teng B. 2010. Fully coupled effects of hull. Mooring and risers model in time domain based on an innovative deep draft multi-spar. China Ocean Engineering, 24:219-233.
Liao J C. 2002. Vortex-induced vibration of slender structure in unsteady flow.[PhD Thesis]. Massachusetts:Massachusetts Institute of Technology.
Lie H, Kaasen K E. 2006. Modal analysis of measurements from a large-scale VIV model test of a riser in linearly sheared flow. Journal of Fluids and Structures, 22:557-575.
Lie H, Larsen C M, Vandiver J K. 1997. Vortex induced vibrations of long marine risers; model test in a rotating rig//The ASME16th International Conference on Offshore Mechanics and Arctic Engineering, Yokohama, Japan, 241-252.
Lim H C, Lee S J. 2004. Flow control of a circular cylinder with O-rings. Fluid Dynamics Research, 35:107-122.
Lubbad R K, Loset S, Moe G. 2011. Experimental investigations of the efficiency of round-Sectioned helical strakes in suppressing vortex induced vibrations. Journal of Offshore Mechanics and Arctic Engineering, 133:041102.1-041102.10.
Lucor D, Imas L, Karniadakis G E. 2001. Vortex dislocations and force distribution of a long flexible cylinders subjected to sheared flows. Journal of Fluids and Structures Mechanics, 15:641-650.
Lucor D, Triantafalou M S, Ma X, Karniadakis G E. 2003. Vortex-induced vibrations of long marine risers in sheared flows:DNS studies//The 4th ASME/JSME Joint Fluids Engineering Conference, Honolulu, Hawaii, USA.
Lucor D, Foo J, Karniadakis G E. 2005. Vortex mode selection of a rigid cylinder subject to VIV at low mass-damping. Journal of Fluids and Structures, 20:483-503.
Lyons G J, Patel M H. 1986. A prediction technique for vortex induced transverse response of marine risers and tethers. Journal of Sound and Vibration, 11:467-487.
Lyons G J, Vandiver J K, Larsen C M, Ashcombe G T. 2003. Vortex induced vibrations measured in service in the Foinaven dynamic umbilical and lessons from prediction. Journal of Fluids and Structures, 17:1079-1094.
Machado R Z, Mourelle M M, Franciss R, Silva R M, Lima C S, Eisemberg R, Oliveira D. 1992. Monitoring program for the first steel catenary riser installed in a moored floating platform in deep water//Oceans Conference Record (IEEE), 801-810.
Mandini R V. 1961. Kinematics of vortices in the early wake of vibrating circular cylinders.[Master Thesis]. USA:University of California, Berkeley.
Marcollo H, Chaurasia H, Vandiver J K. 2007. Phenomena observed in VIV bare riser field tests//THE ASME 26th International Conference on Offshore Mechanics and Arctic Engineering, 989-995.
Masters R H, Griffith B L. 2012. Apparatus and method for securing a fairing around a marine element.US2012/0243944.
Mathelin L, de Langre E. 2005. Vortex-induced vibrations and waves under shear flow with a wake oscillator model. European J. of Mechanics B/Fluids, 24:478-490.
Meneghini J R, Bearman P W. 1993. Numerical simulation of high amplitude oscillator-flow about a circular cylinder using a discrete vortex method//Shear Flow Conf. Orlando, FL, AIAA Paper 93-3288.