Exploitation of the far-offshore wind energy resource by fleets of energy ships - Part 1: Energy ship design and performance

Abstract

This paper deals with a new concept for the conversion of far-offshore wind energy into sustainable fuel. It relies on autonomously sailing energy ships and manned support tankers. Energy ships are windpropelled. They generate electricity using water turbines attached underneath their hull. Since energy ships are not grid-connected, they include onboard power-to-X plants for storage of the produced energy. In the present work, the energy vector is methanol. The aim of the paper is to propose an energy ship design and to provide an estimate for its energy performance as function of the wind conditions. The energy performance assessment is based on a numerical model which is described in the paper. Results show that the wind energy-to-methanol (chemical energy) conversion efficiency is 24% and that such an energy ship deployed in the North Atlantic Ocean could produce approximately 5GWh per annum of chemical energy (900 t of methanol per annum).