Offshore Wave Theories & Deepwater Structures Design Application (OWTA) Level 1 & Level 2

Description

The Offshore Wave Theories & Deepwater Structures Design Application (OWTA) Level 1 & Level 2 course is a specialized training program focused on the understanding of wave theories and the design application of deepwater structures in offshore engineering.

The course covers various aspects, including the physics of ocean waves, wave forecasting techniques, wave loading on offshore structures, and the design principles for deepwater structures.

Participants gain knowledge of different wave theories and their application in assessing wave characteristics, wave-induced loads, and their effects on offshore structures in deepwater environments.

The Level 1 course provides a foundation by introducing participants to fundamental wave theories, while the Level 2 course delves deeper into advanced topics such as wave structure interaction, extreme wave analysis, and fatigue and integrity considerations in deepwater structure design.

Through a combination of theoretical instruction, practical exercises, and case studies, participants acquire the skills necessary to apply wave theories and design principles in the analysis, selection, and construction of deepwater structures for offshore engineering projects.

Offshore Wave Theories & Deepwater Structures Design Application (OWTA) Level 1 & Level 2 covers Offshore Waves, Standing Wave vs. Progressive Wave , Linear Theory (also called Stokes First Order, Airy) , Stokes Second Order Theory , Stokes Fifth Order Theory , Stream Function Theory , Measured Wave Properties in Wave Tank , Offshore Applications of Wave Theory , Current — Uniform and Shear , Wave-current Interaction , Wind and Wind Spectrum, Calculations more.

OWTA Level 1 & Level 2 is designed to provide detailed knowledge of Offshore Wave Theories & Deepwater Structures Design Application for Engineers and will assist those who are switching or enhancing there career in deep and ultra deepwaters structures design and simulation.

Course Outlines

Offshore Waves
Standing Wave vs. Progressive Wave
Linear Theory (also called Stokes First Order, Airy)
Stokes Second Order Theory
Stokes Fifth Order Theory
Stream Function Theory
Measured Wave Properties in Wave Tank
Offshore Applications of Wave Theory
Current — Uniform and Shear
Wave-current Interaction
Wind and Wind Spectrum

Technical Support References

Ref 1: Offshore & Subsea Waves
Ref 2: Standing Wave vs Progressive Wave
Ref 3: Linear Wave Theory with Case Study
Ref 4: Stokes Second Order Theory with Case Study
Ref 5: Stokes Fifth Order Theory with Case Study
Ref 6: Stream Function Theory with Case Study
Ref 7: Measured Wave Properties in Wave Tank
Ref 8: Offshore Applications of Wave Theory with Case Study
Ref 9: Uniform and Shear Current with Case Study
Ref 10: Wave-current Interaction with Case Study
Ref 11: Wind and Wind Spectrum with Case Study

Assessment

Participant underpinning knowledge of Offshore Wave Theories & Deepwater Structures Design Application will be accessed with short answer multiple-choice questionnaire at the conclusion of the course.

Outcome

Participants will gain an in debt understanding of Offshore Wave Theories & Deepwater Structures Design Application .They will also be able to function with minimum supervision as Structural Engineer, Asset Integrity Engineer, Offshore Engineers, Technicians & Subsea Engineers for IOCs, Offshore Drilling & Installation Contractors.

Professional Certificate

Issued directly by Chess Subsea Engineering Europe.

Participant may be presented for Offshore Petroleum Training Organization (OPITO) Certification.

How to Register

Click here to download registeration booklet on msword and email completed booklet to info@chesssubseaengineering.org directly.