Experimental results of a waste-heat powered thermoacoustic refrigeration system for ships

• Published in: Science and technology for energy transition Vol. 78; p. 24
• Main Authors: Thiaucourt, Jonas, Merino Laso, Pedro, Eon, Bruno
• Format: Journal Article
• Language: English
• Published: IFP Énergies nouvelles (IFPEN), Commissariat à l’Energie Atomique et aux Energies Alternatives (CEA) 12.09.2023; EDP Sciences
• Subjects: Civil Engineering; Eco-conception; Engineering Sciences; marine engineering thermoacoustics; ship efficiency; shipping decarbonization; waste heat recovery systems; Waste heat recovery systems; Ship efficiency; Shipping decarbonization; Marine engineering thermoacoustics
• ISSN: 2804-7699; 2804-7699
• DOI: 10.2516/stet/2023022

Greenhouse gas emissions are a major concern for maritime transport. The International Maritime Organization (IMO) presents Waste Heat Recovery Systems (WHRS) from engine exhaust gas as a viable solution to improve energy utilization and reduce greenhouse gas emissions for marine power plants. In this paper, we present an original thermoacoustic WHRS and its associated experimental setup for validation. This WHRS aims to transport heat from a lower to a higher temperature reservoir (heat pump) and maintain a fridge at 0 °C. For the experimental setup, exhaust gases from a 4-stroke marine diesel engine are used to generate pressure waves (work) in thermoacoustic engines. The main result is the Coefficient of Performance (COP) of the system, around 0.3, assessed for various cold loads. The first results estimate that the system could substitute part of the chiller cold production onboard. Also, a preliminary economic analysis suggests that this system could perform 2% fuel savings that allow for a payback time below one year.