ABS And HHI Complete Simulation JDP To Analyze Carbon-Footprint Of Vessels In Design Stage Itself
ABS and Hyundai Heavy Industries (HHI) have completed a Joint Development Project (JDP) to build multi-physics simulations capable of analyzing the carbon-footprint of vessels in the design stage.
The simulations allow in-depth evaluation of the impact of a range of energy saving options, offering a detailed preview of a vessel’s performance before key investment decisions are made.
“The modeling and simulation techniques that ABS and HHI are pioneering allow owners, designers and shipyards unprecedented insight into the impact of multiple decarbonization strategies on a vessel’s performance at the earliest possible stage. This approach unlocks benefits in operational efficiency, safety and investment decision making,” said Patrick Ryan, ABS Senior Vice President, Global Engineering and Technology.
“This technology also aligns with our industry-leading efforts to introduce a paperless end-to-end class process, demonstrating how we are moving ahead and realizing the benefits of digital class for the industry.”
“This joint project will give us more options to review alternative technologies at early design stage. Our vessels fully comply with IMO’s environmental regulations before 2050, with LNG dual fuel propulsion systems, including various original energy saving devices and continuous developments will keep HHI and ABS front-runners in this fast changing industry,” said Jaeeul Kim, Executive Vice President and CTO of HHI.
The simulations connect to a broad range of inputs from many model types such as computational fluid dynamics models, wave resistance models, and data-validated engine performance models. A multi-physics model unlocks the ability to evaluate the performance impact from the design options and the operational measures. Examples of technologies that can be evaluated in the modeling process include air lubrication systems, energy-saving devices, voyage speed profiles, and engine fuel options. The simulations can also reflect the impact of inputs from a range of data sources and optimization tools allowing comprehensive analysis of the trade-off between different vessel configurations.
“Developing a detailed understanding of the impact of your chosen decarbonization pathway on a vessel during the concept design phase is a major step forward in helping owners navigate the complexity of building a fleet capable of meeting IMO sustainability objectives,” said Georgios Plevrakis, ABS Director, Global Sustainability.
The JDP is the latest in a series of sustainability focused projects between HHI and ABS, following the LNG Bunkering Vessel Compatibility Study, which was delivered in June. The project included a review of existing and proposed LNG bunkering vessels including LNG capacities, mooring arrangements, bunker manifold arrangements, hose handling arrangements and ship-to-ship communications.