Methods and systems for, among other embodiments, transporting renewable diesel (RD) through a pipeline, or a portion thereof, are provided. In certain embodiments, the method may include transporting the renewable diesel from a first pipeline terminal to a second pipeline terminal, the renewable diesel wrapped head and tail with a compatible diesel fuel. The method may also include restricting the transport of the diesel fuel in the pipeline to diesel fuel compositions having a first composition or first specification, the first composition or first specification characterized by a selected amount of the renewable diesel, or a component thereof, the selected amount being less than the selected amount allowed in a second target specification for the diesel fuel. The method may also include combining, at the second pipeline terminal, at least a portion of the mixed interface fraction stream with at least a portion of the diesel fuel fraction stream so as to produce a diesel fuel stream meeting the second target specification.

The invention relates to quaternary ammonium amide and/or ester salts and their use as additives, including their use in fuels, such as diesel fuel. The invention particularly relates to the use of quaternary ammonium amide and/or ester salts as detergents in diesel fuels.

A transportable and combustible gaseous suspension includes solid fuel particles suspended in a gaseous carrier. The solid fuel particles have a sufficiently small particle size so that they remain suspended during transportation. The gaseous carrier may include reactive and inert gases. The solid fuel particles may include coal-derived solid carbonaceous matter. Other examples of solid fuel particles include biomass, refined bioproducts, and combustible polymer particles. The combustible gaseous suspension can be tailored to have an energy density at atmospheric pressure which is comparable to conventional gaseous hydrocarbon fuels. The gaseous combustible fuel may be pressurized to a pressure in the range from 2 to 100 atmospheres.

A fuel additive concentrate for gasoline, a gasoline fuel containing an additive mixture, a method for reducing wear in an engine and in a fuel delivery system of a gasoline engine, and a method for improving injector performance. The additive concentrate includes an aromatic solvent and a mixture that contains (i) N,N-bis(2-hydroxyethyl)alkylamide, (ii) 2-((2-(bis(2-hydroxyethyl)amino)ethyl)amino)ethyl alkanoate and N-(2-(bis(2-hydroxyethyl)amino)ethyl)-N-(2-hydroxyethyl)alkylamide, and (iii) fatty acid ester(s) and amide(s) derived from a self-condensation product of diethanolamine (DEA) containing at least 3 amino groups. A weight ratio of (i) to (ii) to (iii) in the concentrate ranges from about 8:2:0 to about 2:5:3. The fuel additive mixture is substantially devoid of glycerin and remains fluid at a temperature down to about 20 C.

The present invention relates to a process for preparing grafted polyalkyl(meth)acrylates (PAMAs) containing dispersant repeating units in the polymer backbone as well as in the grafted layer, which polymers are characterized by a low sulfur content, the products available by this process and their use as an additive to fuels, especially to middle distillates and blends thereof. The present invention further relates to a composition comprising the grafted polyalkyl(meth)acrylates prepared by the process according to the present invention and the use of said composition as an additive component to fuels, especially to middle distillates and blends thereof, and for improving the cold flow properties of fuel oil and fuel oil compositions, especially to middle distillate fuels and blends thereof.

The invention provides a method of reducing the propensity of a diesel fuel composition to take up zinc when exposed to zinc during storage and/or transportation, the method comprising formulating a diesel fuel composition to be stored or transported in contact with zinc such that said diesel fuel composition has an aniline point greater than 80 C.

Disclosed herein is a fuel additive comprising a mixture of (a) one or more fatty acid sorbitan esters and (b) one or more fatty acid monoesters of a polyol, wherein the one or more fatty acid sorbitan esters are present in an amount of about 0.05 wt. % to about 50 wt. %, based on the weight of the fuel additive, and the one or more fatty acid monoesters of a polyol are present in an amount of about 99.95 wt. % to about 50 wt. %, based on the weight of the fuel additive. Also disclosed is a fuel composition comprising a major amount of a fuel and minor amount of the fuel additive.

Systems and methods use a glycol solution for inhibiting formation of hydrates in a flowline. The solution forms a mixture with the produced water thereby inhibiting the formation of natural gas hydrates in the flowline. After a period of use, a rich glycol solution forms which is then regenerated by heat in a heating means such as a reboiler located at a receiving facility, resulting in a lean glycol solution suitable for use inhibiting the formation of natural gas hydrates. The concentration of the lean glycol solution is varied based on input parameters selected from operating conditions of the fluid handling system to ensure that a required concentration of the lean glycol solution is met, as determined by a processor. A control means controls the lean glycol concentration using lean glycol temperature, lean glycol concentration and/or a duty of the heating means as a control variable.

The present invention is related to the use of formulations of new random copolymers and terpolymers, synthesized by a method of semi continuous emulsion polymerization, and that function as flow improvers, lowering the pour point and reducing the viscosity of Mexicans crude oils, which have gravities within the range of 9 to 30 API.

Transport compositions include a crude oil composition and a solvent formulation including at least one terpene component. In some embodiments, the terpene is a monoterpene. In some embodiments, the terpene is pure gum turpentine, oil of turpentine, a component of turpentine, or a combination of these. Addition of a minimal amount of solvent formulation to the crude oil composition raises the flash point of the mixture, preferably to a predetermined value, which may be in the range of 100 to 120 F., in the range of 120 to 140 F., above 140 F., or above 170 F., depending on the application. The amount of terpene is preferably in the range about 0.005 to about 5 percent by total weight of the transport composition. Methods of raising the flash point of a crude oil composition and methods of increasing the safety of handling a crude oil composition are also disclosed.