Swiss marine power company WinGD is to integrate hybrid power and energy systems on four 113,600dwt wind-assisted tankers under construction for Union Maritime Limited (UML).
The agreement marks the first time that WinGD’s X-EL Integrated Energy solution will be deployed with wind-assisted propulsion systems, ensuring optimal use of power generated by the main engine and the sails onboard.
The vessels will be built by Xiamen Shipbuilding Industry Co, with WinGD configuring the hybrid power system, installing a shaft generator for the main engines, coupled with the WinGD X-EL energy management system.
The system will optimise the power and electrical distribution between the engines, shaft generator in a power-take out mode and sails, allowing for efficient energy use in extended ranges and all operating conditions.
The vessels are also the first on which WinGD will apply its integrated energy system to third-party main engines.
WinGD Head of Integrated Energy Solutions Stefan Goranov said: “To maximise the energy savings from wind-assisted propulsion, operators need an energy management system that can optimise engine and electrical power in response to the available wind power.
“Our expertise in system integration and control of two-stroke-based hybrid energy systems enable us to optimise the efficiency and reliability of operations of a vessel with wind-assisted propulsion. UML’s new vessels will be a showcase for the efficiencies that can be achieved through holistic energy management based around the main engine.”
WinGD X-EL Integrated Energy Solutions have been used by vessels in service since 2022. By using the power margin of the main engine, rather than the auxiliary engines traditionally used to generate electricity onboard, the solution delivers more fuel-efficient energy production and greater flexibility in how power is managed across vessels.
WinGD’s expertise in two-stroke engines means that the company can optimise electricity generation potential, while its state-of-the-art digital capabilities support both the configuration of the initial energy system – including its control strategies – and its subsequent management and in-service optimisation.
