Conceptual Study and Development of an Autonomously Operating, Sailing Renewable Energy Conversion System

Author:

Rickert ChristopherORCID,Thevar Parambil Anurag,Leimeister Mareike

Abstract

With little time left for humanity to reduce climate change to a tolerable level, a highly scalable and rapidly deployable solution is needed that can be implemented by any country. Offshore wind energy in international waters is an underused resource and could even be harnessed by landlocked countries. In this paper, the use of sailing wind turbines operating autonomously in high seas to harvest energy is proposed. The electrical energy that is generated by the wind turbine is converted to a renewable fuel and stored onboard. Later, the fuel will be transferred to shore or to other destinations of use. The presented idea is explored at the system level, where the basic subsystems necessary are identified and defined, such as energy conversion and storage as well as propulsion subsystems. Moreover, various operating possibilities are investigated, including a comparison of different sailing strategies and fuels for storage. Existing ideas are also briefly addressed and an example concept is suggested as well. In this paper, the proposed sailing renewable energy conversion system is explored at a higher level of abstraction. Following up on this conceptual study, more detailed investigations are necessary to determine whether the development of such a sailing renewable energy conversion system is viable from an engineering, economic, and environmental point of view.

Funder

German Fraunhofer Institute for Wind Energy Systems IWES

Publisher

MDPI AG

Subject

Energy (miscellaneous),Energy Engineering and Power Technology,Renewable Energy, Sustainability and the Environment,Electrical and Electronic Engineering,Control and Optimization,Engineering (miscellaneous),Building and Construction

Reference52 articles.

1. United Nations (2022, April 22). United Nations Convention on the Law of the Sea of 10 December 1982. Available online: https://www.un.org/depts/los/convention_agreements/texts/unclos/UNCLOS-TOC.htm.

2. Manabe, H., Uehiro, T., Utiyama, M., Esaki, H., Kinoshita, T., Takagi, K., Okamura, H., and Satou, M. (2008, January 8–11). Development of the floating structure for the Sailing-type Offshore Wind Farm. Proceedings of the OCEANS 2008—MTS/IEEE Kobe Techno-Ocean, Kobe, Japan.

3. Optimum routing of a sailing wind farm;Tsujimoto;J. Mar. Sci. Technol.,2009

4. FARWIND (2021, July 20). Technology. Available online: https://farwind-energy.com/.

5. Exploitation of the far-offshore wind energy resource by fleets of energy ships—Part 1: Energy ship design and performance;Babarit;Wind Energy Sci.,2020

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