| Autore |
Huang Weiping
|
| Pubbl/distr/stampa |
Singapore : , : Springer, , [2022]
|
| Descrizione fisica |
1 online resource (293 pages)
|
| Disciplina |
627.98
|
| Soggetto topico |
Offshore structures - Design and construction
Risers (Founding)
Marine engineering
|
| ISBN |
981-16-2887-4
981-16-2888-2
|
| Formato |
Materiale a stampa  |
| Livello bibliografico |
Monografia |
| Lingua di pubblicazione |
eng
|
| Nota di contenuto |
Intro -- Preface -- Contents -- 1 Deepwater Riser -- 1.1 Introduction -- 1.1.1 Developing Mode for Deepwater Oilfield -- 1.1.2 Facilities for Deepwater Oil & -- Gas Development -- 1.2 Deepwater Risers -- 1.2.1 Top Tensioned Riser -- 1.2.2 Catenary Riser -- References -- 2 Sea Loads -- 2.1 Introduction -- 2.2 Wave Loads -- 2.2.1 Wave Factors -- 2.2.2 Regular Wave Theory -- 2.2.3 Random Wave Theory -- 2.2.4 Wave Force on a Cylinder -- 2.3 Current Loads -- 2.3.1 Vortex Shedding in Steady Flow -- 2.3.2 Vortex Shedding Frequency -- 2.3.3 Vortex Induced Force -- 2.3.4 Vortex Shedding in an Oscillatory Flow -- References -- 3 Vibration of Structure -- 3.1 Single-Degree-Of-Freedom System -- 3.1.1 Dynamical Characteristics -- 3.1.2 Free Vibration -- 3.1.3 Forced Vibration -- 3.2 Multi DOF System -- 3.2.1 Dynamic Characteristics -- 3.2.2 Forced Vibration -- 3.3 Beam Vibration -- 3.3.1 Motion Equation -- 3.3.2 Frequency and Mode Shape of Simply Supported Beam -- 3.3.3 Effect of Tension -- 3.3.4 Effect of Large Deflection -- 3.3.5 Effect of Elastic Foundation -- 3.3.6 Transfer Matrix Method -- 4 Equation of Riser Vibration -- 4.1 Introduction -- 4.2 Rigid Riser Equation -- 4.2.1 Basic Equation -- 4.2.2 Inner Flow Effect -- 4.3 Flexible Riser Equation -- 4.3.1 Bending Vibration Equation -- 4.3.2 Effect of Rigid Oscillation -- References -- 5 Riser Dynamic Characteristics -- 5.1 Introduction -- 5.2 Rigid Riser Dynamic Characteristics -- 5.2.1 Analytic Method -- 5.2.2 Transfer Matrix Method -- 5.2.3 Matrix Analysis Method -- 5.3 Simple Catenary Riser -- 5.3.1 Analytic Method -- 5.3.2 Transfer Matrix Method -- 5.3.3 Matrix Analysis Method -- 6 Wave Induced Vibration -- 6.1 Introduction -- 6.2 Wave Force -- 6.2.1 Wave -- 6.2.2 Load (API 2009) -- 6.2.3 Load Model (API 2009) -- 6.2.4 Conditions Affecting Hydrodynamic Loads (API 2009) -- 6.3 Analysis Model.
6.3.1 Structural Model -- 6.3.2 Boundary Conditions -- 6.3.3 System Model -- 6.4 Steel Catenary Riser -- 6.4.1 Motion Equation -- 6.4.2 FEM Mode -- 6.4.3 Pipe and Soil Interaction -- 6.4.4 Pipe and Soil Interaction Model -- 6.4.5 p-y Curve Method for Analyzing Interaction Between Pipe and Soil (Yang 2014) -- 6.5 Top Tensioned Riser -- 6.5.1 Motion Equation -- 6.5.2 Boundary Conditions -- 6.5.3 Coupled Analysis -- References -- 7 Vortex-Induced Vibration -- 7.1 Introduction -- 7.2 An Isolated Circular Cylinder -- 7.2.1 Synchronization and Lock-In -- 7.2.2 VIV in Two Degree-Of-Freedom -- 7.2.3 Random and Harmonic Vibration -- 7.3 Tandem Cylinders -- 7.3.1 Wake Pattern -- 7.3.2 Vortex Induced Force -- 7.3.3 Vibration Features -- 7.4 Vortex Induced Force Model -- 7.4.1 For Single Riser -- 7.4.2 Tandem Risers (Zhou 2017) -- 7.5 Steel Caternary Riser -- 7.5.1 Rigid Oscillation Equation -- 7.5.2 Coupling Motion Equation -- 7.6 Top Tensioned Riser -- 7.6.1 Motion Equation -- 7.6.2 Boundary Condition -- 7.6.3 Coupled Analysis -- References.
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| Record Nr. | UNINA-9910743250103321 |
Info
Determining design criteria for feeding biomass into a fluidized bed using a feed screw / / Tim Dunning
