The invention relates to a method of characterization of one petroleum, wherein the petroleum is placed in contact with a metal part, and which includes the following steps: i. Modifying the water content (W) of the petroleum, ii. Measuring the corrosion (CR) of said metal part by the petroleum whose water content (W) has hence been modified, iii. Building, by reiterating several times the two previous steps (i, ii), a database containing a plurality of different values of water content (W) of the petroleum and a plurality of values of corrosion (CR) each corresponding to one of said values of water content (W), iv. Determining, by processing said database, an optimum value or an optimum range of values of water content (M.sub.W) of the petroleum for which the corrosion of the metal part shows a minimum value (M.sub.CR).

Problems of corrosion in the petroleum exploitation plants.

A method to selectively remove metal compounds and sulfur from a petroleum feedstock is provided. The method comprising the steps of feeding a pre-heated water stream and a pre-heated petroleum feedstock to a mixing zone, mixing the pre-heated water stream and the pre-heated petroleum feedstock to form a mixed stream, introducing the mixed stream to a first supercritical water reactor to produce an upgraded stream, combining the upgraded stream and a make-up water stream in a make-up mixing zone to produce a diluted stream, wherein the make-up water stream increases the ratio of water to oil in the diluted stream as compared to the upgraded stream, and introducing the diluted stream to a second supercritical water reactor to produce a product effluent stream. The method can include mixing a carbon with the make-up water stream.

A wash separator comprises a vessel containing a first fluid and a second fluid whereby the second fluid has a different density from the first fluid. The first fluid (3) is immiscible with the second fluid and the first and second fluids are separated from each other by an interface. A feed stream comprising a dispersion of the first and second fluid wherein the second fluid forms a disperse phase in the form of droplets is distributed within the first fluid in the vessel forming a continuous phase. A distribution element is provided in the vessel to distribute the feed stream into the second fluid. The feed stream after having been discharged from the distribution element has a retention time of at most 15 minutes in the feed second fluid in the vessel.

The invention relates to a continuous process for converting carbonaceous material contained in one or more feedstocks into a liquid hydrocarbon product, said feedstocks including the carbonaceous material being in a feed mixture including one or more fluids, said fluids including water, the process comprising converting at least part of the carbonaceous material, and further in a state of cleaning the pressure and temperature is set to a predetermined desired level; where prior to the cleaning, the inflow of feed mixture is terminated and the system is filled with a fluid, where the temperature and the pressure are altered to the predetermined level at a predetermined rate and where the pressure is constantly kept at a level above the saturation pressure for the fluid at a given temperature, where the inflow of at least one cleaning fluid is initiated and the at least one cleaning fluid is circulated in the system for a predetermined time; where upon reaching the predetermined time for the cleaning fluid circulation, the temperature and pressure is altered to the operational pressure and temperature at a predetermined rate, where the pressure is constantly kept at a level above the saturation pressure for the fluid at a given temperature; and where upon reaching the operational conditions the inflow of the fluid/cleaning fluid is terminated and the inflow of feed mixture is initiated.

Processes and systems for the above ground extraction of crude oil from a mud-water slurry well bore mined from oil rich diatomite formations. The slurry is separated into liquid and solid factions, the liquid faction having oil, water and small sized solids, and the solid faction having larger chunks of solids. The solids faction is processed to form a slurry mixture which is cooked to disassociate oil therefrom and is centrifuged to yield an oil/solvent faction, a water faction, and a lowered oil content solids faction. The oil/solvent faction is further processed to separate the oil and solvent. Alternately, the mud-water slurry is treated to form an emulsion having a neutral pH, with solids being removed and the remaining emulsion processed to break the emulsion by removal of water as a vapor to recovery crude oil, with remaining crude oil in the solids being further processed.

A high voltage discharge generating a plasma wave front is disposed within a headspace over an oil-containing liquid in order to create various chemical changes within the headspace, and ultimately within the liquid in order to inactivate various microbes, synthesize new chemicals, speed separation of a mixture, and aid in oil extraction. Such a discharge may be repeated at an optimum duration and duty-cycle to maximize the chemical effects of the non-equilibrium plasma at a substantially lower temperature than for an equilibrium plasma.

A method is disclosed for the treatment of a liquid, in particular a mineral oil, for increasing the portion of low-boiling fractions. The treatment comprises generating pressure waves having a first frequency, subjecting the liquid to said pressure waves in a region of application and feeding the so-treated liquid to a tank. At least one pipe flowed through by the treated liquid and immediately following said region of application is excited to oscillations of a second frequency, which is the resonance frequency of the excited system.

A process for extracting bitumen from oil sand ore to produce a bitumen froth having reduced solids is provided, comprising mixing the oil sand ore with water and a first process aid comprising at least one surfactant to form an oil sand slurry; conditioning the oil sand slurry to produce a conditioned oil sand slurry; and introducing the conditioned oil sand slurry into a separation zone for forming the bitumen froth having reduced solids.

Hydrocarbon-containing feedstocks are processed to produce useful intermediates or products, such as fuels. For example, systems are described that can process a petroleum-containing feedstock, such as oil sands, oil shale, tar sands, and other naturally-occurring and synthetic materials that include both hydrocarbon components and solid matter, to obtain a useful intermediate or product.

The invention relates to a method for producing an oil rich fraction (OF) from primary feedstock (FS) that comprises water, first salt, second salt, and biomass. The feedstock (FS) is provided to a first reaction zone (Z1) of a conversion reactor (100), where it is allowed to react at a temperature of at least 350 C. in a pressure of at least 160 bar to form converted primary feedstock. The method comprises separating from the converted primary feedstock a first salt rich fraction (SF1), a second salt rich fraction (SF2), and an oil rich fraction (OF). The method comprises withdrawing the oil rich fraction (OF) from the first reaction zone (Z1) and withdrawing the first salt rich fraction (SF1) and the second salt rich fraction (SF2) from the conversion reactor (100). In the method the first salt rich fraction (SF1) comprises at least some of the first salt dissolved in the water, the second salt rich fraction (SF2) comprises at least some of the second salt in solid form, and at least one of the first salt and the second salt is a salt capable of catalysing the reaction of the biomass of the primary feedstock (FS) with the water of the primary feedstock (FS) to produce the oil rich fraction (OF). A device for the same.