Scour Development Around Submarine Pipelines due to Current Based on the Maximum Entropy Theory

Scour Development Around Submarine Pipelines due to Current Based on the Maximum Entropy Theory

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摘要 This paper presents the results from laboratory experiments and theoretical analysis to investigate the development of scour around submarine pipeline under steady current conditions. Experiments show that the scour process takes place in two stages: the initial rapid scour and the subsequent gradual scour development stage. An empirical formula for calculating the equilibrium scour depth(the maximum scour depth) is developed by using the regression method. This formula together with the maximum entropy theory can be applied to establish a formula to predict the scour process for given water depth, diameter of pipeline and flow velocity. Good agreement between the predicted and measured scour depth is obtained. This paper presents the results from laboratory experiments and theoretical analysis to investigate the development of scour around submarine pipeline under steady current conditions. Experiments show that the scour process takes place in two stages： the initial rapid scour and the subsequent gradual scour development stage. An empirical formula for calculating the equilibrium scour depth（the maximum scour depth） is developed by using the regression method. This formula together with the maximum entropy theory can be applied to establish a formula to predict the scour process for given water depth, diameter of pipeline and flow velocity. Good agreement between the predicted and measured scour depth is obtained.

作者 ZHANG Jing SHI Bing GUO Yakun XU Weilin YANG Kejun ZHAO Enjin

机构地区 College of Engineering School of Engineering State Key Laboratory of Hydraulics and Mountain River Engineering

出处《Journal of Ocean University of China》 SCIE CAS 2016年第5期841-846,共6页 中国海洋大学学报（英文版）

基金 financially supported by the National Nature Science Foundation of China (Grant No. 51279189)

关键词 submarine pipeline CURRENT scour development maximum entropy theory pipeline calculating entropy subsequent submarine empirical gradual iterative acceleration continuity

分类号 P756.2 [天文地球—海洋科学]

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1Azamathulla, H. M., YusofF, M. A. M., and Hazen, Z. A., 2013. Soft computing for prediction of river pipeline scour depth. Neural Computing and Applications, 23: 2465-2469.
2Azamathulla, H. M., YusofF, M. A. M., and Hazen, Z. A., 2014. Scour below submerged skewed pipeline. Journal of Hydrology, 509 (2): 615-620.
3Bakhtiary, Y. A., Kazeminezhad, H. M., Shahide, E. A., Baas, J., and Cheng, L., 2011. Euler-Euler two-phase flow simulation of tunnel erosion beneath marine pipelines. Applied Ocean Research, 33 (2): 137-146.
4Brors, B., 1999. Numerical modeling of flow and scour at pipelines. Journal of Hydraulic Engineering, 125 (5): 511-523.
5Cheng, L., Kervin, Y., Zhang, Z. P., and Teng, B., 2009. Three-dimensional scour below offshore pipelines in steady currents. Coastal Engineering, 56 (5): 557-590.
6Chiew, Y. M., 1991. Prediction of maximum scour depth at submarine pipelines. Journal of Hydraulic Engineering, 117 (4): 452-466.
7Chiu, C. L., Nordin, C. F., and Hu, W. D., 1983. A method for mathematical modeling and computation of hydraulic processes in river bends. In: Proceedings of Rivers '83, a Specialty Conference on River Meandering. Sponsored by the Waterway, Port, Coastal and Ocean Division of ASCE, New Orleans, 24-26.
8Chiu, C. L., 1986. Structure of 3D flow in rectangular openchannels. Journal of Hydraulic Engineering, 112: 1051-1067.
9Chiu, C. L., 1989. Velocity distribution in open channel flow. Journal of Hydraulic Engineering, 115: 576-594.
10Chiu, C. L., 1991. Application of entropy concept in open-channel flow study. Journal of Hydraulic Engineering, 117: 615-628.

1任亮,李宏男,周晶,孙丽,李东升.Application of Tube-Packaged FBG Strain Sensor in Vibration Experi ment of Submarine Pipeline Model[J].China Ocean Engineering,2006,20(1):155-164. 被引量：11
2张正秋,李维亮.ENTROPY THEORY AND PARAMETERIZATION OF NONUNIFORM DISTRIBUTION OF PRECIPITATION[J].Acta meteorologica Sinica,1998,12(3):334-344. 被引量：1
3申仲翰,刘玉标,李青平,黄清华,祝发荣.Experiments on Interaction Between Current-Induced Vibration and Scour of Submarine Pipelines on Sandy Bottom[J].China Ocean Engineering,2000,15(4):423-434. 被引量：5
4黄小光,许金泉.Numerical Procedure for Static and Dynamic Analysis of Fluid-Conveying Submarine Pipeline Span on Linear Elastic Seabed[J].Journal of Shanghai Jiaotong university(Science),2010,15(6):719-725. 被引量：1
5QI Yuanjing,YANG Yu,JIN Fengjun.China＇s economic development stage and its spatiotemporal evolution： A prefectural-level analysis[J].Journal of Geographical Sciences,2013,23(2):297-314. 被引量：15
6余建星,席兆胜,李鸿涛.Research on Fatigue Invalidation of A Submarine Pipeline Span Subjected to Waves and Currents[J].China Ocean Engineering,2006,20(4):595-604. 被引量：4
7李昕,刘亚坤,周晶,马恒春,朱彤.Experimental Study on Free Spanning Submarine Pipeline Under Dynamic Excitation[J].China Ocean Engineering,2002,17(4):537-548. 被引量：9
8陈严飞,李昕,周晶,关炯.Study on Interaction Relationship for Submarine Pipeline with Axial Corrosion Defects[J].China Ocean Engineering,2008,22(3):359-370. 被引量：10
9Wang Jinying Senior Engineer, Bohai Engineering and Design Company, 300452 Tianjin.Design of Submarine Pipeline in BZ34-2/4 Oil Field[J].China Ocean Engineering,1992,7(3):279-296.
10Fan Yunlin and Chang Dezhi Associate Professor, Dept. of Ocean Eng., Tianjin University Engineer, Construction Committee of Weihai City, Shandong Province.Some Considerations in Design and Construction of the Wei-Liu Water Supplying Submarine Pipeline[J].China Ocean Engineering,1991,6(4):499-506. 被引量：1

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Scour Development Around Submarine Pipelines due to Current Based on the Maximum Entropy Theory

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