Swiss marine power company WinGD has introduced a core engine technology that for the first time eliminates the need for ship operators to compromise on optimal combustion when using multiple fuels. Variable Compression Ratio (VCR), jointly developed with Mitsui E&S DU Co (MESDU), will be installed on a vessel powered by an X62DF engine and then rolled out across selected engines of the X-DF engine portfolio.

An engine’s compression ratio is usually a fixed parameter, playing a direct role in power and fuel efficiency. Because fuels have different ideal compression ratios, in dual-fuel engines designers have had to select which fuel to optimize for. With VCR, the engine adjusts to each fuel’s optimal compression, improving fuel efficiency for operators who want the flexibility to choose between diesel, LNG, or bio- or e-fuel equivalents depending on availability and cost.

Marcel Ott, General Manager Application Engineering, WinGD, said: “VCR finally brings compression without compromise to marine dual-fuel engines. This breakthrough, the result of several years of work with MESDU, comes at a crucial time in the maritime industry as operators increasingly look for the ability to switch between fuels without sacrificing power, efficiency, or emissions.”

In trials on a 6X72DF test engine at MESDU’s facilities in Japan, VCR reduced fuel consumption and CO2 emissions by 6% when running in diesel mode. Although the engine had previously been optimized for gas mode, improvements were also evident when using LNG, with fuel consumption and emissions reduced by 3%. The improvement was achieved because the engine was originally configured to a compression ratio that favored LNG while still offering good diesel performance. With VCR, this compromise is no longer required.

As well as optimizing compression ratios for different fuels, VCR can also benefit engines operating under different ambient conditions and intake air compositions, such as when using exhaust gas recirculation. This makes it a critical advance as shipping adopts the new fuels and technologies that will allow it to reach decarbonization targets.

The compression ratio is altered by changing the piston position to adjust the combustion chamber volume. The simple mechanical configuration has no impact on the engine footprint or installation requirements. VCR can also be adjusted for a part load operation, meaning relatively larger savings can be achieved at the low speeds that operators may consider to further reduce their emissions.

WinGD plans to introduce VCR as an option for its X72DF, X62DF, and short-stroke X62DF-S engines, with retrofit packages available after the technology is introduced for new builds. A wider portfolio rollout will be considered based on market demand.

Marcel Ott, General Manager Application Engineering, WinGD