	US 12,241,033 B2
	Fuel compositions with enhanced stability and methods of making same
Cathelijne Anneroos de Vroom, Amsterdam (NL); Aldo Caiazzo, Amsterdam (NL); Claudette Salomons, Amsterdam (NL); and Plamen Yankulov, Sofia (BG)
Assigned to SHELL USA, INC., Houston, TX (US)
Appl. No. 17/625,822
Filed by SHELL OIL COMPANY, Houston, TX (US)
PCT Filed Jul. 28, 2020, PCT No. PCT/EP2020/071281 § 371(c)(1), (2) Date Jan. 10, 2022, PCT Pub. No. WO2021/018895, PCT Pub. Date Feb. 4, 2021.
Claims priority of provisional application 62/880,374, filed on Jul. 30, 2019.
Prior Publication US 2022/0259510 A1, Aug. 18, 2022
Int. Cl. C10L 1/19 (2006.01); C10G 75/04 (2006.01); C10L 1/08 (2006.01); C10L 10/00 (2006.01)

CPC C10L 1/19 (2013.01) [C10G 75/04 (2013.01); C10L 1/08 (2013.01); C10L 10/00 (2013.01); C10G 2300/107 (2013.01); C10G 2300/1077 (2013.01); C10G 2300/206 (2013.01); C10G 2300/302 (2013.01); C10G 2300/304 (2013.01); C10G 2300/80 (2013.01); C10G 2400/16 (2013.01); C10L 2200/0438 (2013.01); C10L 2200/0476 (2013.01); C10L 2200/0484 (2013.01); C10L 2230/14 (2013.01); C10L 2290/24 (2013.01)]

8 Claims

1. A method to improve or maintain stability and/or compatibility of a residual hydrocarbon marine fuel component or a residual marine fuel composition in a marine fuel composition, wherein the marine fuel composition meets the requirements of ISO 8217:2017 specification, said method comprising:

(a) blending at least 5% m/m to 20% m/m of a fatty acid alkyl ester component with a residual marine fuel composition comprising (i) at least 5% m/m to 95% m/m of a residual hydrocarbon marine fuel component selected from a group consisting of an atmospheric tower bottoms (ATB) residue, a vacuum tower bottoms residues (VTB), and any combination thereof and (ii) up to 90% m/m of a non-hydroprocessed hydrocarbon component, a hydroprocessed hydrocarbon component, or any combination thereof, wherein the fatty acids alkyl ester component is blended with the residual marine fuel composition before at least one other fuel composition or fuel component that decreases the asphaltenes solvency power of the residual marine fuel composition is added thereto and the combination of the residual marine fuel composition and the at least one other fuel composition or fuel component forms a blended residual marine fuel composition, and wherein at least the blending of the fatty acids alkyl esters component before the at least one other fuel composition ox fuel component is added increases the compatibility of said residual marine fuel composition and/or the stability of the blended residual marine fuel composition, wherein the increase in compatibility of the residual marine fuel composition and/or the stability of the blended residual marine fuel composition is at least measured by a decrease in the amount of asphaltenes flocculation and/or precipitation in the blended residual marine fuel composition relative to the amount of asphaltenes flocculation and/or precipitation in the same blended residual marine fuel composition which (i) does not comprise the fatty acid alkyl ester component or (ii) comprises the fatty acid alkyl ester component blended after the at least one other fuel composition or fuel component has been added to the residual marine fuel composition,

wherein stability is determined using the ASTM D7060 method;

wherein the non-hydroprocessed component is selected from the group consisting of light cycle oil (LCO), heavy cycle oil (HCO), fluid catalytic cracking (FCC) cycle oil, FCC slurry oil, pyrolysis light gas oil, cracked light gas oil (CLGO), cracked heavy gas oil (CHGO), pyrolysis light gas oil (PLGO), pyrolysis heavy gas oil (PHGO), pyrolysis residue (ECR), thermally cracked residue, thermally cracked heavy distillate, coker heavy distillates, vacuum gas oil (VGO), coker diesel, coker gas oil, coker VGO, thermally cracked VGO, thermally cracked diesel, thermally cracked gas oil, Group I slack waxes, lube oil aromatic extracts, deasphalted oil (DAO), and any combination thereof;

and wherein the hydro-processed component is selected from a group consisting of low-sulphur diesel (LSD) having a sulphur content of less than 500 ppmw, ultra low-sulfur diesel (ULSD) having a sulphur content of less than 15 ppmw; hydrotreated LCO, hydrotreated HCO; hydrotreated FCC cycle oil, hydrotreated pyrolysis gas oil, hydrotreated PLGO, hydrotreated PHGO, hydrotreated CLGO, hydrotreated CHGO, hydrotreated coker heavy distillates, hydrotreated thermally cracked heavy distillate, hydrotreated coker diesel, hydrotreated coker gas oil, hydrotreated thermally cracked diesel, hydrotreated thermally cracked gas oil, hydrotreated VGO, hydrotreated coker VGO, hydrotreated residues, hydrocracker bottoms, hydrotreated thermally cracked VGO, and hydroprocessed DAO, including hydrotreated hydrocracker DAO, and any combination thereof, wherein the fatty acid alkyl ester component is a product of trans-esterification of vegetable oils and/or animal fats with an alcohol, or the esters of fatty acids derived from vegetable oils and/or animal fats, and an alcohol (esterification), wherein said vegetable oils and/or animal fats are selected from the group consisting of Soy Oil, Palm Oil, Rapeseed Oil, Linseed Oil, Coconut Oil, Corn Oil, Cotton Oil, Cooking Oils, Used Cooking Oils, Waste Cooking Oils, Sunflower Oil, Safflower Oil, Algae Oil, Tallow, Lard, Yellow Grease, Brown Grease, Fish Oils, and any combination thereof.