A surge in industry interest combined with systems builders and yards scaling up production and installation capacity, is set to accelerate growth in orders for wind-assisted propulsion systems (WAPS) in the coming years.
In response to this trend, DNV's new whitepaper provides a detailed look at WAPS technologies, their onboard implementation, and potential fuel savings to help shipowners determine whether they are a viable business option for their vessels and operations.
Design and operational factors
DNV’s whitepaper explores the design and operational factors influencing WAPS fuel savings and provides steps for evaluating the technical feasibility of new systems, from concept to implementation.
The paper includes two case studies in EU waters modeling how different WAPS installations can effectively reduce fuel costs and emissions in compliance with EU ETS and FuelEU Maritime.
Maritime energy transition
Knut Ørbeck-Nilssen, CEO of Maritime at DNV, said, “As we navigate the maritime energy transition, it's crucial to consider all options for decarbonisation. And as more verified data comes in, the business case for WAPS technologies is building."
"They are already delivering significant fuel savings when matched to the right vessel type and operational profile. And as part of the suite of new energy efficiency technologies, WAPS is stepping up to deliver immediate emissions reductions and play a growing role in the maritime decarbonisation journey.”
Retrofitting WAPS
Currently, 75% of the WAPS fleet are retrofits, primarily tankers and general cargo vessels
Retrofitting WAPS is possible for almost any ship with sufficient deck space and unobstructed airflow, even if not originally designed for sails. However, vessels with WAPS integrated into the design offer even greater opportunities for optimisation.
Currently, 75% of the WAPS fleet are retrofits, primarily tankers and general cargo vessels. Rotor sails have been the preferred technology for the bulk and tanker sectors (54% share of systems installed), while suction sails are the main choice for general cargo ships (67%).
Hybrid propulsion systems
Hasso Hoffmeister, Senior Principal Engineer at DNV, stated, “Current WAPS technologies use advanced control and automation systems, combining aerodynamics, automation, computer modelling, and modern materials."
"These technologies are not widely adopted but show significant promise as a component in hybrid propulsion systems. Looking ahead, we might see the first pure wind-powered modern large cargo vessel, Orcelle, contracted in the next few years.”
Reducing fuel consumption
WAPS can help meet these requirements through a correction factor as well as improve CII ratings
Drivers behind the rapid WAPS uptake are also tied to the economic benefits of complying with current and future regulations like the Energy Efficiency Design Index (EEDI), Efficiency Existing Ship Index (EEXI), and upcoming IMO regulations that set CO2 emission requirements for new and existing ships.
WAPS can help meet these requirements through a correction factor as well as improve Carbon Intensity Indicator (CII) ratings by reducing fuel consumption.
Modular approach
DNV has been at the forefront of developing rules and standards for verifying and certifying WAPS and their integration onboard, publishing the first-class notation for ships using WAPS in 2019.
This notation is supported by the ST-0511 “Wind Assisted Propulsion Systems” certification standard. DNV’s “WAPS Ready” notation, which uses a modular approach to verify compliance for future WAPS installations, and DNV’s new recommended practice (RP), which proposes an on/off methodology to measure performance, will be updated in 2025.
