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  5. AMOS 2021 - Hydrodynamic Challenges in Achieving Autonomous Marine Operations and Systems (DIT.AD019.136)
Research project

AMOS 2021 - Hydrodynamic Challenges in Achieving Autonomous Marine Operations and Systems (DIT.AD019.136)

Thematic area

Engineering, ICT and technologies for energy and transportation

Project area

Tecnologie Marittime (DIT.AD019)

Structure responsible for the research project

Institute of Marine Engineering (INM)

Project manager

CLAUDIO LUGNI
Phone number: 06502991
Email: claudio.lugni@cnr.it

Abstract

CNR-INM will provide support to the CoE research program by contributing to topics in different
AMOS projects, with the following main objectives:
1. Violent Fluid-structure interactions between ship/offshore structures and abnormal waves
in rough sea: continuation of the development activity.
2. Experimental investigation of the cavity dynamics of a free fall cone impacting the water
surface: data analysis. Preparation of a journal paper.
3. Development of a novel device system for energy extraction from sea waves: Euler
scaling. Preparation of a journal paper.
4. Continuation of the development of different strategies for the solution of Navier-Stokes
equation through HPC solver: possible domain decomposition strategy with HPC.
Preparation of a journal paper.
5. Experiments on live fish to be done at CNR lab.
6. Cooperation for the development of efficient articulated/flexible robots through
preliminary hydrodynamic studies.

Goals

CNR-INM will provide support to the CoE research program by contributing to topics in different
AMOS projects, with the following main objectives:
1. Violent Fluid-structure interactions between ship/offshore structures and abnormal waves
in rough sea: continuation of the development activity.
2. Experimental investigation of the cavity dynamics of a free fall cone impacting the water
surface: data analysis. Preparation of a journal paper.
3. Development of a novel device system for energy extraction from sea waves: Euler
scaling. Preparation of a journal paper.
4. Continuation of the development of different strategies for the solution of Navier-Stokes
equation through HPC solver: possible domain decomposition strategy with HPC.
Preparation of a journal paper.
5. Experiments on live fish to be done at CNR lab.
6. Cooperation for the development of efficient articulated/flexible robots through
preliminary hydrodynamic studies.

Start date of activity

01/01/2021

Keywords

research hydrodynamics challenges

Last update: 19/04/2024