Hydrodynamics for Ocean Engineering (M-TECH HOE)


Master Supervisors: Guillaume Ducrozet / Jean-François Hetet (M1), Guillaume Ducrozet (M2) and Lionel Gentaz

Programme Objectives

This master specialism aims to give students advanced training on typical problems of hydrodynamics applied to naval architecture and ocean engineering: ship resistance, seakeeping, ship behaviour in irregular seas, water,  waves and marine environment... physical, modelling and numerical aspects are studied.

The programme includes theoretical courses on typical hydrodynamics problems: ship resistance, wave induced motions, wave and marine environment modeling ... and numerical methods used to solve these problems. A large part of the programme is also devoted to the practical use of software to solve the problems cited above through a large variety of numerical methods: boundary elements or spectral methods under potential flow theory, finite-difference or finite-volume techniques in solvers for viscous flows, Smooth Particle Hydrodynamics (SPH). Students are also involved in practical work using the ocean test facilities (towing tank, wave tank equipped with an multiflap wave generator etc.)

The programme of study lasts two academic years - denoted by M1 and M2 and is taught in English. 

Course Content - M1

30 ECTS Credits per semester.
Language of instruction: English

Autumn Semester Courses ECTS Spring Semester Courses ECTS
Continuum Mechanics 5 Fluid Mechanics 2 5
Fluid Mechanics 5 Mechanical Design 4
Programming and Algorithms 4 Energetics 5
Numerical Methods 4 Propulsion 5
Vibration and Differential Equations 4 Hydrodynamics 5
Business Environment 4 Conferences and Initiation to Research 2
Modern Languages * 4 Modern Languages * 4

* 'French as Foreign Language' except for French native speakers who will study 'Cultural and Communicational English'

NB Course content may be subject to minor changes

Course Content - M2

30 ECTS Credits per semester.
Language of instruction: English

Autumn Semester - Core Courses ECTS
General concepts of hydrodynamics 4
Water waves and sea states modelling 4
Wave-structure interactions and moorings 4
Numerical hydrodynamics 5
Experimental hydrodynamics 4
Modern Languages * 4
Project -
Conferences -

* 'French as Foreign Language' except for French native speakers who will study 'Cultural and Communicational English'

Autumn Semester - specialisation course (choose one of three)  ECTS
Marine Renewable Energy   5
Naval Engineering   5
Hydrodynamics R&D  5



Spring Semester ECTS
Master thesis / internship                                    30

Examples of previous internships in industry:
  • Naval numerical computations
  • Development of a Fluid-Structure Interaction model for the optimisation of a Wave Energy Converter
  • Coupling of VIV on offshore wind turbines
Examples of previous internships in research labs:
  • Experimental investigation of the improved dynamic response of barge type floating offshore wind turbines
  • Modeling of the response on irregular waves
  • Wave-current interactions in a HOS model
The Master's internship can be carried out within the framework of an internship in the Laboratory of Hydrodynamics, Energy and the Atmospheric Environment, but also in other university laboratories (IST Lisbon, NTNU in Trondheim, INSEAN in Rome, University of Auckland ...) or in industry, in France or abroad, on numerical or experimental subjects.

NB Course content may be subject to minor changes

Skills developed

  • Build and use models dedicated to hydrodynamics for ocean engineering
  • Define and perform experiments for free-surface hydrodynamics problems
  • Solve - numerically - free surface problems for ocean engineering applications
In addition to the above specialism-specific skills, students will also develop more general skills:
  • Identify models, perfom simulation and analyse results
  • Communicate comprehensive results in a meaningful way
  • Undertake bibliographic surveys of international research and professional literature
  • Manage or be part of a project

Prospects for employment or further study


The main prospects for employment after the Master programme are found in the naval industry, shipping, oil sector, coastal engineering or that of marine renewable energies; within R&D departments or design offices. 

At the conclusion of the Master's degree, graduates can pursue a PhD, in particular within the Laboratory of Hydrodynamics, Energy and Atmospheric Environment, which offers experimental and / or numerical studies, often in cooperation with industrial partners on numerous themes: wave-structure interactions, simulation of sea states on large estates, improvement of the generation and propagation of swell, hydrodynamic impacts, ship damage, marine renewable energies (wave energy, offshore wind etc).

Published on March 25, 2017 Updated on February 14, 2019