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 读书世界首页 > 工业技术 > 石油、天然气工业
深水半潜式钻井平台关键技术
作  者:杨建民,谢彬主编
出 版 社: 出版年份:2014 年
ISBN:9787313104595 页数:575 页
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图书封面及目录
封面|1
内容提要|2
版权页|2
Key Words|5
PREFACE|7
目录|9
INTIUDUCTION|130.1 Introduction|13
0.2 Historical Developments of Semi-Submersible Rig|14
0.3 Key Technologies and Innovations of HYSY981|14
0.4 Conclusions|25
1 ENVIRONMENT OF SOUTH CHINA SEA|261.1 Prediction of Etreme Wind Speed under the Background of Climate Change|26
1.2 Non-stationary Variation of Tropical Cyclones Activities in the Northwest Pacific|37
1.3 Long Internal Solitary Waves Induced Currents in the Ocean|47
1.4 Validity Ranges of Interfacial Wave Theories in a Two-layer Fluid System|51
1.5 Modeling Evolution of Internal Waves in the South China Sea|70
1.6 Analysis of Current Induced by Long Internal Solitary Waves in Stratified Ocean|74
1.7 Characteristics of Flow Fields Induced by Interfacial Waves in two-Layer Fluid|87
1.8 Effects of Pycnocline Paparameters on evolution of Internal Solitons|91
2 HYDRODYNAMIC PERFORMANCE OF SEMI-SUBMERSIBLE PLATFORM|972.1 Wave Loading on Floating Platforms by Internal Solitary Waves|97
2.2 Analysis on Low Frequency Heave,Roll and Pitch Motions of a Deepwater Semi-Submersible|102
2.3 Effects of Volumetric Allocation on Heave Response of Semi-Submersible in Deep Sea|114
2.4 Prediction of Mooring Line Damping in Time Domainanalysis|124
2.5 Dynamic Analysis of Truncated Mooring Lines Using numerical Simulation and Model Tests|134
2.6 Numerical Calculation and Model Test Study on a Quay Mooring Semi-Submersible Drilling Platform|153
3 STRUCTION ANALYSIS OF SEM-SUBMERSIBLE PLATFORM|1753.1 Global Strength Assessment for Semi-Submersible Column after Supply vessel collision accident|175
3.2 Study on Simplified Fatigue Assessment Method for Semi-Submersible Rig in South China Sea|189
3.3 spectralbased fatigue analysis for deep water semi-submersible Rig in South China Sea|202
3.4 comparative an alysis on fatigue damage of deep water Hybrid mooring line|212
3.5 A Study on Numerical Simulation for Collision Response of a Semi-Submersible Platform|237
3.6 Collision Character Research for Semi-Submersible through Model Test,simplified Analytical and Numerical Simulation Method|251
4 VORTEX INDUCED VIBRATION|2684.1 Variation of Added Mass and Its Application to the Calculation of Amplitude Response for a Circular Cylinder|268
4.2 An Estimation Scheme for the Fluid Forces and Response Associated With a circular cylinder at lock-in|276
4.3 Hydroelastic Dynamic Characteristics of a Slender Axis-symmetric Body|291
4.4 Prediction of Vortex-Induced Vibration of Flexible Riser Using an Improved Wake Oscillator Model|306
4.5 Multi-Mode Vortex Induced Vibration of Slender Cable Experiencing Shear Flow|317
4.6 Controlling Parameter for Wave Types of Long Flexible Cable Undergoing Vortex-Induced Vibration|326
4.7 suppressing vortex-Induced Vibrations of long flexibleriser by multiple control rods|336
4.8 Influence of Attack Angle on VIV Suppression by Multiple Control Rods for Long Flexible Riser Model|348
4.9 Identification of Hydrodynamic Coefficients from Experiment of Vortex-Induced Vibration of Slender Riser Model|362
4.10 Experimental Investigation on VIV Responses of a Long Flexible Riser Towed Horizontally in a Wave Basin|384
4.11 laboratory investigation on the in linedynamic characteristic of long flexibler iser under vortexinducedvibration|397
4.12 Laboratory Tests of Vortex-Induced Vibrations of a Long Flexible Riser Pipe Subjected to Uniform Flow|410
5 EXPAND RESEARCH|4385.1 Thermo Mechanical Vibration Analysis of a Functionally Graded Shell with Flowing Fluid|438
5.2 Active Control of Functionally Graded Laminated Cylindrical Shells|454
5.3 Studies on Dynamic Behavior of Functionally Graded Cylindrical Shells with PZT Layers under Moving Loads|474
5.4 Thermo-magneto-Dynamic Stresses and Perturbation of Magnetic Field Vector in a Non-Homogeneous Hollow Cylinder|495
5.5 Effect of Temperature on Elastic Properties of Single Walled Carbon Nanotubes|513
5.6 Analysis of the Behavior of DOT Tunnel Lining Caused by Rolling Correction Operation|533
5.7 Multidisciplinary Design Optimization-A New way to Bring Softer Bows|545
5.8 Numerical Simulation of Wave-Current Flow Field around Pile Groups by a Vortex Method|557
封底|575
   
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