Abstract
Mineral base oils are used to produce commercial lubricants and are obtained from refining vacuum residue. Lubricants are used to reduce friction in industry devices, so their viscosity is a key characteristic that needs to be optimized throughout the process. The purpose of this study is to show how global chemical characterization of samples from the base oil production chain can facilitate a better understanding of the molecular impacts of processing and their effect on macroscopic properties like viscosity. Eight different samples were characterized by different analytical techniques, including liquid chromatography and mass spectrometry techniques, to understand their chemical evolution through the different process units at the molecular level. Furthermore, a statistical treatment allowed for the identification of parameters that influence viscosity, mainly sulfur and polyaromatics content. This study demonstrates the importance and effectiveness of cross-checking results from different complementary analytical techniques to acquire valuable data on lubricating oil base samples.
Highlights
High viscosity grade lubricants are used as marine lubricants to reduce friction in slow-speed engine cylinder oils
The results are shown for each unit
The analytical techniques used in this study allowed us to identify and characterize the hydrocarbon, sulfur, and vanadium-containing compounds present in the different samples
Summary
High viscosity grade lubricants are used as marine lubricants to reduce friction in slow-speed engine cylinder oils. As for other lubricants, they are composed of a base oil and additives packages that aimed to neutralize acidic combustion by-products, providing detergency or cleaning effect, preventing deposit formation by keeping deposit precursors soluble in the oil (dispersant) and reducing friction and wear. For these high viscosity grade lubricants, base oil or solvent-extracted bright stock, is most commonly obtained by solvent refining. Processes 2020, 8, 1472 the viscosity index, and pour point are key characteristics of these samples that need to be optimized throughout the refining process. The solvent extracted bright stock (BSS) is produced from crude oil vacuum residue (VR) by precipitating asphaltenes with liquid propane; this step allows for the optimization of the oil viscosity [1]
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