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Course Information

Course Name
Turkish DTM512E Yüzen Üretim Sistemlerinin Hidrodinamiği
English DTM512E Hydro.of Floating Prod.Systems
Course Code
DTM 512E Credit Lecture
(hour/week)
Recitation
(hour/week)
Laboratory
(hour/week)
Semester -
3 - - -
Course Language English
Course Coordinator İsmail Hakkı Helvacıoğlu
Course Objectives Introducing the Floating Production Systems (FPS) and their hydrodynamic properties
Mathematical and physical modelling of FPS motion response and solving their hydrodynamic design problems under external forces.
Course Description Description of Floating Production Systems (FPS): SPM (Single Point Mooring) Terminals, Semi-submersibles. Sea Waves, Current and Wind Characteristics: Wind Waves, Linear Wave Theory, Wave Energy Spectra, Statistical Analysis of Waves. Morison Equation and Potential Theory Based Analysis of FPSs: Time and Frequency Domain Simulation, Experimental Measurements, Cummins' Technique for Time Domain Simulation, Solution of the Motion Equations in Time and Frequency Domain. Statistical and Dynamical Analysis of Mooring Systems: Catenary Equations, Dynamic Analysis Methods: Lumped Mass Method, Finite Difference Methods, Finite Element Methods. Effect of Non-linearities on the Behaviour of FPSs: Non-linearities Due to Viscous Damping, Drag Forces and Mooring Forces, Non-linear Behaviour of FPSs.
Course Outcomes 1. Understanding the basic hydrodynamic design problems of Floating Production Systems
2. Introduction to the effect of environmental forces and their effects on FPSs
3. Mathematical and Physical Modeling of FPSs
4. Solving the specific problems related to FPSs
Pre-requisite(s)
Required Facilities
Other
Textbook
Other References 1. Chakrabarti, S.K., 1990, Non-linear Methods in Offshore Engineering, Elsevier Science Publishers, Amsterdam.

2. Faltinsen, O.M., 1990, Sea Loads on Ships and Offshore Structures, Cambridge University Press.

3. Bertaux, H.O., 1976, Buoy Engineering, John Wiley & Sons, New York.

4. Brebbia, C. A. And Walker, S., 1979, Dynamic Analysis of Offshore Structures, Newnes-Butterworths, London.

5. Morgan, N., 1990, Marine Technology Reference Book, Butterworths, London.

6. Muga, B. J. And Wilson, J. F., 1970, Dynamic Analysis of Ocean Structures, Plenum Press.of Offshore Engineering, Technical University Aachen, NSMB, Wageningen.
 
 
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