Total Lubmarine's Talusia Universal Gains NOL from WinGD
Total Lubmarine’s Talusia Universal (BN57) has received a No Objection Letter (NOL) from WinGD for all fuels (liquid and gas) with a sulphur content 0.00%S - 1.50%S.
The NOL was awarded with no restrictions following the successful completion of two rigorous tests carried out on two different vessels fitted with W6X72 engines.
The tests were conducted on split engines comparing Talusia Universal with a BN40 reference Cylinder Lube Oil (CLO). One test carried out with compliant VLSFO <0.5%S, the other one with compliant ULSFO <0.1%S for 2350 and 2000 running hours respectively.
“Following both tests, Talusia Universal performed significantly better than the reference CLO for deposit control and general piston cleanliness, while maintaining excellent wear rates.” said Justin Van Tries – Total Lubmarine’s engineer responsible for sea trials.
Talusia Universal is formulated with a unique chemistry (with additional surfactant molecules) that helps the neutralization process and the control of engine deposit growth.
It is proven to handle the engine cleanliness demands of all technologies operating with low sulphur fuels in all conditions with an accumulated experience of over 12 years.
The efficiency of Talusia Universal to maintain the engine cleanliness is as good as the high BN rated products on the market. It can also be used on WinGD engines with X-DF technology.
The NOL from WinGD follows the awarding of an NOL from MAN Energy Solutions in late 2019 for Talusia Universal following tests carried out on MAN B&W 2-stroke engines operating on fuels with less than 0.5%S Very Low Sulphur Fuel Oil (VLSFO).
Because of its approval tests, Talusia Universal can be used continuously with 0.1%S 2020 compliant fuels, in both the WinGD DF and MAN GI engines running in gas mode, without risk of deposit growth.
It is also proven to provide additional safety margins compared to BN40 CLO, achieving the lowest recommended LOFR when based on visual inspection and drain oil analysis.