Numerical Ship and Offshore Hydrodynamics

ABOUT THE COURSE:This course will provide the thorough understanding of the several numerical methods in the domain of ocean engineering, broadly in the domain of wave structure interaction. The proposed course mostly focuses on different numerical methods based on potential theory, for example, zero and forward speed 3D frequency and time domain panel method, strip theory, time domain method based on Impulse response function etc. Also, at latter stage of the course, Hydroelasticity of ship will also be discussed. This is a comprehensive and contemporary course for industry personnel, undergraduate, masters and PhD level students in the domain of ocean engineering/ mathematics/civil engineering.INTENDED AUDIENCE:BE/ME/Ph,d Student in the field of Ocean Engineering and Naval Architecture, Mechanical Engineering, Civil Engineering, Industry personnel from Ship and Offshore Industry, Classification societies etc.PREREQUISITES:Basic Fluid Dynamics, Numerical Methods (Optional)INDUSTR SUPPORT IRS ( Indian Register for Shipping ),Indian Navy,GRSE,Offshore Companies

Week 1:Basic Seakeeping with Tutorial Week 2:Basic Wave Hydrodynamics with Tutorial Week 3:Introduction to Boundary Element Method ( Part 1) Week 4:Boundary Element Method ( Part 2) with Coding Tutorial that will be applied to solve finding added mass of a body in infinite fluid domain. Week 5:3D Frequency Domain Panel Method (Part 1) Week 6:3D Frequency Domain Panel Method (Part 2) Week 7: Time Domain Panel Method using IFR with Coding Tutorial. The tutorial will help you to write a code to predict motion of a ship using IRF. Introduce non linear load such as slamming load in IRF solution. Week 8:Strip Theory With Coding Tutorial on how to calculate 2-D added mass of ship shape body Week 9:Time Domain Panel method (Part 1) Week 10:Time Domain Panel Method (part 2) With Coding Tutorial on numerically calculate the Green’s function. Week 11:Numerical Method for Hydroelasticity Week 12:Modelling of Slamming and Green water load