何兆洋等:管道内气液两相流流激力研究进展 135· induced forces on bends in small scale tubes /Proceedings of the [20]Pettigrew M J,Zhang C,Mureithi N W,et al.Detailed flow and ASME 2009 Pressure Vessels and Piping Conference.Volume 4: force measurements in a rotated triangular tube bundle subjected to Fluid-Structure Interaction.Prague,2009:369 two-phase cross-flow.J Fluids Struct,2005,20(4):567 [5]Riverin JL,de Langre E,Pettigrew M J.Fluctuating forces caused [21]Miwa S,Mori M,Hibiki T.Two-phase flow induced vibration in by intemal two-phase flow on bends and tees.J Sound Vib,2006. piping systems.Prog Nucl Energy,2015,78:270 298(4-5:1088 [22]Yih T S,Griffith P.Unsteady Momentum Fhrxes in Two-phase [6] Riverin JL,Pettigrew MJ.Fluctuating forces in U-tubes subjected Flow and The Vibration of Nuclear Reactor Components to internal two-phase flow /l Proceedings of the ASME 2005 [Dissertation].Massachusetts:Massachusetts Institute of Pressure Vessels and Piping Conference.Volume 4:Fluid Technology,1968 Structure Interaction.Denver,2005:547 [23]Cargnelutti M F,Belfroid S P C,Schiferli W,et al.Multiphase [7]Parsi M,Nair A,Kara M,et al.Condition based assessment of fluid structure interaction in bends and T-joints /Proceedingsof subsea rigid jumpers using advanced analytical model 0h the ASME 2010 Pressure Vessels and Piping Division/K-PVP North American Conference on Multiphase Technology.Banff, Conference.ASME 2010 Pressure Vessels and Piping Conference: 2016:BHR-2016-245 Volume 4.Bellevue,2010:75 [8]Smeulers J P M.Diez N G.Slot H.Flow induced vibration in [24]Giraudeau M.Mureithi N W,Pettigrew M J.Two-phase flow- subsea production systems /SPE Russian Oil and Gas induced forces on piping in vertical upward flow:excitation Exploration and Production Technical Conference and Exhibition. mechanisms and correlation models.J Pressure Vessel Technol, Moscow,2012:SPE-160727-MS 2013,135(3):030907 [9]Wang L,Yang Y R,Li Y X,et al.Resonance analyses of a [25]Liu Y,Miwa S,Hibiki T,et al.Experimental study of internal two- pipeline-riser system conveying gas-liquid two-phase flow with phase flow induced fluctuating force on a 90 elbow.Chem Eng flow-patter evolution.Int/Press Vessels Pip,2018,161:22 Sci,2012,76:173 [10]Liu HG,Kong J Y,LiG F,et al.Inquiry into vibration analysis [26]Miwa S,Liu Y,Hibiki T,et al.Two-phase flow induced force and control of fluid filled pipe system.J Hubei Univ Technol, fluctuations on pipe bend Proceedings of the 2014 22nd 2005,20(3):78 International Conference on Nuclear Engineering.Volume 2B: (刘怀广,孔建益,李公法,等.充液管道系统振动分析与控制的 Thermal Hydraulics.Prague,Czech Republic,2014: 探讨.湖北工业大学学报,2005,20(3):78) V02BT09A007 [11]Jia D.Slug flow induced vibration in a pipeline span,a jumper and [27]Miwa S,Hibiki T,Mori M.Analysis of flow-induced vibration due a riser section /l Offshore Technology Conference.Houston,2012: to stratified wavy two-phase flow.J Fluids Eng,2016,138(9): 0TC-22935-MS 091302 [12]Tay BL.Thorpe R B.Statistical analysis of the hydrodynamic [28]de Henau V,Raithby G D.A study of terrain-induced slugging in forces acting on pipe bends in gas-liquid slug flow and their two-phase flow pipelines.InJMultiphase Flow,1995.21(3):365 relation to fatigue.Chem Eng Res Des,2015,104:457 [29]Al-Safran E.Investigation and prediction of slug frequency in [13]Pettigrew M J,Taylor C E,Fisher N J,et al.Flow-induced gas/liquid horizontal pipe flow.JPerrol Sci Eng,009,69(1-2): vibration:recent findings and open questions.Nucl Eng Des,1998. 143 185(2-3):249 [30]Peddu A,Chakraborty S,Das P K.Visualization and flow regime [14]Swindell R.Hidden integrity threat looms in subsea pipework identification of downward air-water flow through a 12 mm vibrations.Offshore,2011,71(9):78 diameter vertical tube using image analysis.Int J Multiphase Flow, [15]de Langre E,Villard B.An upper bound on random buffeting 2018.100:1 forces caused by two-phase flows across tubes.J Fluids Struct, [31]Barnea D,Shoham O,Taitel Y.Flow pattem characterization in 1998,12(8):1005 two phase flow by electrical conductance probe.Int J Multiphase [16]Sakaguchi T.Ozawa M,Hamaguchi H,et al.Analysis of the F1ow,1980,6(5):387 impact force by a transient liquid slug flowing out of a horizontal [32]Taitel Y,Lee N,Dukler A E.Transient gas-liquid flow in pipe.Nucl Eng Des,1987,99:63 horizontal pipes:Modeling the flow pattern transitions.A/ChEJ, [17]Mulcahy T M,Lawrence W,Wambsganss M W.Dynamic surface 1978.24(5):920 pressure instrumentation for rods in parallel flow.Exp Mech,1982 [33]Hewitt G F.Measurement of Two-Phase Flow Parameters. 22(1):31 London and New York:Academic Press,1978 [18]Chu I C,Chung H J,Lee S.Flow-induced vibration of nuclear [34]Chen Z Y,He L M.Experimental study on measuring steam generator U-tubes in two-phase flow.Nuc/Eng Des,2011. characteristics of slug flow in horizontal pipe.JUniv Petrol China 241(5):1508 Nat Sci,2003,27(1):67 [19]Sasakawa T,Serizawa A,Kawara Z.Fluid-elastic vibration in two- (陈振瑜,何利民.水平管段塞流特征参数测量方法的试验研究 phase cross flow.Exp Therm Fluid Sci,2005,29(3):403 石油大学学报:自然科学版,2003,27(1):67)induced forces on bends in small scale tubes // Proceedings of the ASME 2009 Pressure Vessels and Piping Conference. Volume 4: Fluid-Structure Interaction. Prague, 2009: 369 Riverin J L, de Langre E, Pettigrew M J. Fluctuating forces caused by internal two-phase flow on bends and tees. J Sound Vib, 2006, 298(4-5): 1088 [5] Riverin J L, Pettigrew M J. Fluctuating forces in U-tubes subjected to internal two-phase flow // Proceedings of the ASME 2005 Pressure Vessels and Piping Conference. Volume 4: Fluid Structure Interaction. Denver, 2005: 547 [6] Parsi M, Nair A, Kara M, et al. Condition based assessment of subsea rigid jumpers using advanced analytical model // 10th North American Conference on Multiphase Technology. Banff, 2016: BHR-2016-245 [7] Smeulers J P M, Diez N G, Slot H. Flow induced vibration in subsea production systems // SPE Russian Oil and Gas Exploration and Production Technical Conference and Exhibition. Moscow, 2012: SPE-160727-MS [8] Wang L, Yang Y R, Li Y X, et al. Resonance analyses of a pipeline-riser system conveying gas-liquid two-phase flow with flow-pattern evolution. Int J Press Vessels Pip, 2018, 161: 22 [9] Liu H G, Kong J Y, Li G F, et al. Inquiry into vibration analysis and control of fluid filled pipe system. J Hubei Univ Technol, 2005, 20(3): 78 (刘怀广, 孔建益, 李公法, 等. 充液管道系统振动分析与控制的 探讨. 湖北工业大学学报, 2005, 20(3):78) [10] Jia D. Slug flow induced vibration in a pipeline span, a jumper and a riser section // Offshore Technology Conference. Houston, 2012: OTC-22935-MS [11] Tay B L, Thorpe R B. Statistical analysis of the hydrodynamic forces acting on pipe bends in gas –liquid slug flow and their relation to fatigue. Chem Eng Res Des, 2015, 104: 457 [12] Pettigrew M J, Taylor C E, Fisher N J, et al. Flow-induced vibration: recent findings and open questions. Nucl Eng Des, 1998, 185(2-3): 249 [13] Swindell R. Hidden integrity threat looms in subsea pipework vibrations. Offshore, 2011, 71(9): 78 [14] de Langre E, Villard B. An upper bound on random buffeting forces caused by two-phase flows across tubes. J Fluids Struct, 1998, 12(8): 1005 [15] Sakaguchi T, Ozawa M, Hamaguchi H, et al. Analysis of the impact force by a transient liquid slug flowing out of a horizontal pipe. Nucl Eng Des, 1987, 99: 63 [16] Mulcahy T M, Lawrence W, Wambsganss M W. Dynamic surfacepressure instrumentation for rods in parallel flow. Exp Mech, 1982, 22(1): 31 [17] Chu I C, Chung H J, Lee S. Flow-induced vibration of nuclear steam generator U-tubes in two-phase flow. Nucl Eng Des, 2011, 241(5): 1508 [18] Sasakawa T, Serizawa A, Kawara Z. Fluid-elastic vibration in twophase cross flow. Exp Therm Fluid Sci, 2005, 29(3): 403 [19] Pettigrew M J, Zhang C, Mureithi N W, et al. Detailed flow and force measurements in a rotated triangular tube bundle subjected to two-phase cross-flow. J Fluids Struct, 2005, 20(4): 567 [20] Miwa S, Mori M, Hibiki T. Two-phase flow induced vibration in piping systems. Prog Nucl Energy, 2015, 78: 270 [21] Yih T S, Griffith P. Unsteady Momentum Fluxes in Two-phase Flow and The Vibration of Nuclear Reactor Components [Dissertation]. Massachusetts: Massachusetts Institute of Technology, 1968 [22] Cargnelutti M F, Belfroid S P C, Schiferli W, et al. Multiphase fluid structure interaction in bends and T-joints // Proceedings of the ASME 2010 Pressure Vessels and Piping Division/K-PVP Conference. ASME 2010 Pressure Vessels and Piping Conference: Volume 4. Bellevue, 2010: 75 [23] Giraudeau M, Mureithi N W, Pettigrew M J. Two-phase flowinduced forces on piping in vertical upward flow: excitation mechanisms and correlation models. J Pressure Vessel Technol, 2013, 135(3): 030907 [24] Liu Y, Miwa S, Hibiki T, et al. Experimental study of internal twophase flow induced fluctuating force on a 90° elbow. Chem Eng Sci, 2012, 76: 173 [25] Miwa S, Liu Y, Hibiki T, et al. Two-phase flow induced force fluctuations on pipe bend // Proceedings of the 2014 22nd International Conference on Nuclear Engineering. Volume 2B: Thermal Hydraulics. Prague, Czech Republic, 2014: V02BT09A007 [26] Miwa S, Hibiki T, Mori M. Analysis of flow-induced vibration due to stratified wavy two-phase flow. J Fluids Eng, 2016, 138(9): 091302 [27] de Henau V, Raithby G D. A study of terrain-induced slugging in two-phase flow pipelines. Int J Multiphase Flow, 1995, 21(3): 365 [28] Al-Safran E. Investigation and prediction of slug frequency in gas/liquid horizontal pipe flow. J Petrol Sci Eng, 2009, 69(1-2): 143 [29] Peddu A, Chakraborty S, Das P K. Visualization and flow regime identification of downward air –water flow through a 12 mm diameter vertical tube using image analysis. Int J Multiphase Flow, 2018, 100: 1 [30] Barnea D, Shoham O, Taitel Y. Flow pattern characterization in two phase flow by electrical conductance probe. Int J Multiphase Flow, 1980, 6(5): 387 [31] Taitel Y, Lee N, Dukler A E. Transient gas-liquid flow in horizontal pipes: Modeling the flow pattern transitions. AIChE J, 1978, 24(5): 920 [32] Hewitt G F. Measurement of Two-Phase Flow Parameters. London and New York: Academic Press, 1978 [33] Chen Z Y, He L M. Experimental study on measuring characteristics of slug flow in horizontal pipe. J Univ Petrol China Nat Sci, 2003, 27(1): 67 (陈振瑜, 何利民. 水平管段塞流特征参数测量方法的试验研究. 石油大学学报: 自然科学版, 2003, 27(1):67) [34] 何兆洋等: 管道内气液两相流流激力研究进展 · 135 ·