MARATHON OIL CANADA CORPORATION Patent applications |
Patent application number | Title | Published |
20140110307 | DUAL REACTOR FOR IMPROVED CONVERSION OF HEAVY HYDROCARBONS - An improved hydrocarbon cracking process includes a first reactor such as a nozzle reactor positioned in series with a second reactor such as a tubular reactor. A cracking fluid such as steam or natural gas is reacted with heavy hydrocarbon material in the first reactor. The first reactor may provide a tremendous amount of thermal and kinetic energy that initiates cracking of heavy hydrocarbon materials. The second reactor provides sufficient residence time at high temperature to increase the conversion of heavy hydrocarbon materials to the desired level. The cracking fluid functions as a hydrogen donor in the cracking reactions so that very little of the heavy hydrocarbon material becomes hydrogen depleted and forms coke even if the heavy hydrocarbon material is repeatedly recycled through the process. | 04-24-2014 |
20130341245 | Methods and Systems for Upgrading Hydrocarbon Residuum - A hydrocarbon upgrading method is described. The method can generally include a step of providing a nozzle reactor, a step of injecting hydrocarbon residuum into the feed passage of the nozzle reactor, and a step of injecting a cracking material into the main passage of the nozzle reactor, and a step of collecting a product stream exiting the exit opening of the main passage of the nozzle reactor. The hydrocarbon residuum used in the method can be obtained from a hydroconversion-type upgrader, such as an ebullating bed hydrocracker. | 12-26-2013 |
20130220890 | METHOD FOR EXTRACTING BITUMEN FROM AN OIL SAND STREAM - The present invention provides a method for extracting bitumen from an oil sand stream that includes the steps of: providing an oil sand stream; contacting the oil sand stream with a liquid comprising a solvent thereby obtaining a solvent-diluted oil sand slurry; separating the solvent-diluted oil sand slurry, thereby obtaining a solids-depleted stream and a solids-enriched stream; increasing the S/B weight ratio of the solids-enriched stream thereby obtaining a solids-enriched stream having an increased S/B weight ratio and a liquid stream; filtering the solids-enriched stream having an increased S/B weight ratio, thereby obtaining bitumen-depleted sand. In another embodiment, the invention is a system for practicing this method. | 08-29-2013 |
20130206647 | PROCESS FOR EXTRACTING BITUMEN AND DRYING THE TAILINGS - A process for separating bitumen from bitumen ore material includes extracting bitumen with a hydrocarbon solvent to produce a bitumen-enriched solvent phase and tailings. The tailings are dried or stripped in a dryer to remove any remaining hydrocarbon solvent. The amount of solvent discharged in the tailings may be less than 4 bbl per 1000 bbl of recovered bitumen. | 08-15-2013 |
20130206405 | METHODS AND SYSTEMS FOR IN-SITU EXTRACTION OF BITUMEN - Methods and systems for in situ extraction of bitumen from deposits of bitumen-containing material are described. The methods and systems can generally include establishing freeze walls within the deposit of bitumen-containing material to establish a confined zone into which solvents can be injected in order to extract bitumen from the bitumen-containing deposits. Different types of solvents can be sequentially injected in order to extract bitumen and also help reduce the amount of solvent left behind in the deposit. | 08-15-2013 |
20130161238 | Methods and Systems for Removing Material from Bitumen-Containing Solvent - Methods and systems for preparing bitumen-laden solvent for downstream processing are described. The bitumen-laden solvent can be treated with various materials, such as water and emulsion breakers, followed by treating the bitumen-laden solvent in a desalter. The desalted bitumen-laden solvent can then be subjected to downstream processing, such as upgrading in a nozzle reactor. | 06-27-2013 |
20130105362 | SYSTEMS AND METHODS FOR INTEGRATING BITUMEN EXTRACTION WITH BITUMEN UPG... | 05-02-2013 |
20130105361 | Nozzle Reactor Systems and Methods of Use | 05-02-2013 |
20130092599 | METHODS AND SYSTEMS FOR UPGRADING HYDROCARBON - Methods and systems of upgrading hydrocarbon material, such as bituminous material, are described. The methods and systems can reduce or eliminate the need for the use of atmospheric and/or vacuum distillation towers by instead using clyconic separation apparatus. The methods and systems can include the use of one or more cyclonic separation apparatus aligned in series in order to separate out a high boiling point fraction of the hydrocarbon material and then upgrading the high boiling point hydrocarbon material in a nozzle reactor. | 04-18-2013 |
20130048539 | Methods and Systems for Upgrading Hydrocarbon - Methods and systems for upgrading hydrocarbon are described. The system can include a combustor and a nozzle reactor. The combustor can be used to produce a motive fluid suitable for use in the nozzle reactor. The motive fluid produced by the combustor and a hydrocarbon stream can be injected into the nozzle reactor to upgrade the hydrocarbon material. The systems and methods can also be integrated with a steam assisted gravity drainage system. | 02-28-2013 |
20130043033 | UPGRADING HYDROCARBON MATERIAL ON OFFSHORE PLATFORMS - Methods and systems for upgrading hydrocarbon on offshore platforms are described. Hydrocarbon material can be extracted from deposits under bodies of water and upgraded on offshore platforms, such as through the use of one or more nozzle reactors. The upgraded hydrocarbon material produced by the nozzle reactor, can than be transported back to shore through pipelines, in part due to the improved viscosity of the upgraded material. | 02-21-2013 |
20130026078 | Methods for Extracting Bitumen From Bituminous Material - Methods for preparing solvent-dry, stackable tailings. The method can include the steps of adding a first quantity of solvent to a bitumen material to form a first mixture, separating a first quantity of bitumen-enriched solvent from the first mixture and thereby creating solvent-wet tailings, and adding a quantity of water to the solvent-wet tailings to separate a solvent component from the solvent-wet tailings and thereby forming solvent-dry, stackable tailings. The solvent used in the methods can include paraffinic solvent, such as pentane. | 01-31-2013 |
20130026077 | Methods and Apparatus for Bitumen Extraction - A bitumen extraction method can include the use of a two or more mixing drums aligned in series for spraying solvent over bituminous material and/or tailings loaded in the mixing drums while the mixing drums rotate. Such mixing can result in the dissolution of bitumen into the solvent, which then allows for the separation of a “dilbit” stream from the bituminous material. | 01-31-2013 |
20130026076 | Methods for Obtaining Bitumen from Bituminous Materials - A method of extracting bitumen from bituminous material. In some embodiments, the method may include loading a bitumen material in a column, followed by feeding a first quantity of solvent into the column. The method may also include collecting the bitumen-enriched solvent exiting the column. A quantity of the bitumen-enriched solvent may then be fed into the column. In some embodiments, the method may include simultaneously loading bitumen material and a solvent in a column, followed by feeding additional solvent into the column. The method may also include collecting bitumen-enriched solvent exiting the column, and feeding a quantity of the bitumen-enriched solvent into the column. | 01-31-2013 |
20130025861 | Methods and Systems for In-Situ Extraction of Bitumen - A method for carrying out in-situ bitumen extraction can include a step of forming one or more vertical freeze walls within or around a deposit of bituminous material and establishing a laterally confined deposit of bituminous material; a step of injecting a solvent within the laterally confined deposit of bituminous material; a step of withdrawing a mixture of dissolved bitumen and solvent from within the laterally confined deposit of bituminous material; a step of injecting water within the laterally confined deposit of bituminous material; and a step of withdrawing a mixture of solvent and water from within the laterally confined deposit of bituminous material. | 01-31-2013 |
20130006026 | Methods of Transporting Various Bitumen Extraction Products and Compositions Thereof - Methods for transporting bitumen extraction product include providing bitumen-laden aromatic solvent, providing bitumen-laden paraffinic solvent, and blending the two materials. The resulting mixture can be transported through existing pipeline infrastructure and can use existing separation processing equipment, and thereby avoids the need for separate infrastructure for each composition. Combining the two compositions can also avoid undesirable asphaltene precipitation. | 01-03-2013 |
20120305452 | Dry, Stackable Tailings and Methods for Producing the Same - Methods for preparing solvent-dry, stackable tailings. The methods may include a primary leaching or extraction process that separates most of the bitumen from a material comprising bitumen and produces first solvent-wet tailings. The first solvent-wet tailings are washed with a second solvent that removes the first solvent from the tailings. Second solvent remaining in the tailings is removed to thereby produce solvent-dry, stackable tailings. | 12-06-2012 |
20120228196 | Methods of Preparing Bituminous Material for Bitumen Extraction - Methods of preparing bituminous material for extraction processing are described. The methods can include mixing bituminous material with hydrocarbon solvent before and/or during a step of crushing the bituminous material to reduce the size of clumps contained in the bituminous material. The steps of adding hydrocarbon solvent and crushing the bituminous material can be carried out multiple times. | 09-13-2012 |
20120152809 | Methods and Apparatus for Bitumen Extraction - Methods and system for extracting bitumen can include the use of a mixing drum for spraying solvent over bituminous material to help dissolve bitumen and create a bitumen-laden solvent phase that can be separated from the non-bituminous components of the bituminous material. The mixing drum can be rotating during the spraying step to help promote dissolution of bitumen. The mixing drum can also include an internal screen for separating bitumen-laden solvent from the non-bituminous material. In some embodiments, two or more mixing drums are used in series, with the non-bituminous material from the first mixing drum being sprayed with additional solvent in the second mixing drum and bitumen laden solvent from the second mixing drum being used as the solvent sprayed over bituminous material in the first mixing drum. Hydrocyclones can also be incorporated in the in system and methods for increased extraction efficiency. | 06-21-2012 |
20120151834 | Methods of Upgrading Asphaltene Compositions - Methods for pyrolyzing asphaltene material includes providing a composition including from 50 to 90 wt % asphaltene material and from 50 to 10 wt % inert material, and pyrolyzing the composition. The presence of the inert material can help to ensure that the asphaltene material does not interfere with the pyrolyzing process and equipment. Method of forming asphaltene pellets can also be used in order to improve asphaltene pyrolysis. | 06-21-2012 |
20120145603 | Process for Extracting Bitumen and Drying the Tailings - A process for separating bitumen from bitumen ore material includes extracting bitumen with a hydrocarbon solvent to produce a bitumen-enriched solvent phase and tailings. The tailings are dried or stripped in a dryer to remove any remaining hydrocarbon solvent. The amount of solvent discharged in the tailings may be less than 4 bbl per 1000 bbl of recovered bitumen. | 06-14-2012 |
20110233114 | NOZZLE REACTOR AND METHOD OF USE - A method of cracking hydrocarbon material in a nozzle reactor. The method includes a step of providing a nozzle reactor, a step of injecting a stream of cracking material into the reactor body of the nozzle reactor, and a step of injecting hydrocarbon material into the reactor body of the nozzle reactor, wherein the cracking material is methanol, ethanol, ethane, propane, biodiesel, carbon monoxide, nitrogen, or combinations thereof. The cracking material can also include steam. The hydrocarbon material can be injected into the reactor body at a direction transverse to the direction the cracking material is injected into the reactor body. | 09-29-2011 |
20110180459 | METHODS FOR EXTRACTING BITUMEN FROM BITUMINOUS MATERIAL - Methods for preparing solvent-dry, stackable tailings. The method can include the steps of adding a first quantity of first solvent to a bitumen material to form a first mixture, separating a first quantity of bitumen-enriched solvent from the first mixture and thereby creating first solvent-wet tailings, adding a quantity of second solvent to first solvent-wet tailings to separate a first quantity of first solvent component from the first solvent-wet tailings and thereby producing second solvent-wet tailings, and adding a quantity of water to the second solvent-wet tailings to separate a first quantity of second solvent component from the second solvent-wet tailings and thereby forming solvent-dry, stackable tailings. | 07-28-2011 |
20110180458 | METHODS FOR EXTRACTING BITUMEN FROM BITUMINOUS MATERIAL - Methods for preparing solvent-dry, stackable tailings. The method can include the steps of adding a first quantity of first solvent to a bitumen material to form a first mixture, separating a first quantity of bitumen-enriched solvent from the first mixture and thereby creating first solvent-wet tailings, adding a quantity of second solvent to first solvent-wet tailings to separate a first quantity of first solvent component from the first solvent-wet tailings and thereby producing second solvent-wet tailings, and adding a quantity of water to the second solvent-wet tailings to separate a first quantity of second solvent component from the second solvent-wet tailings and thereby forming solvent-dry, stackable tailings. | 07-28-2011 |
20110180454 | METHODS FOR PREPARING SOLID HYDROCARBONS FOR CRACKING - A method of preparing solid hydrocarbons for cracking. The method includes preparing a mixture including solid hydrocarbon material dissolved in a solvent. After optionally separating non-dissolved solids from the mixture, the mixture is injected into a nozzle reactor for upgrading of the hydrocarbon component of the mixture. | 07-28-2011 |
20110155648 | METHODS FOR OBTAINING BITUMEN FROM BITUMINOUS MATERIALS - A method of extracting bitumen from bituminous material. In some embodiments, the method may include loading a bitumen material in a column, followed by feeding a first quantity of first solvent into the column. The method may also include collecting the bitumen-enriched solvent exiting the column. A quantity of the bitumen-enriched solvent may then be fed into the column. In some embodiments, the method may include simultaneously loading bitumen material and a first solvent in a column, followed by feeding additional first solvent into the column. The method may also include collecting bitumen-enriched solvent exiting the column, and feeding a quantity of the bitumen-enriched solvent into the column. | 06-30-2011 |
20110084000 | SYSTEMS AND METHODS FOR PROCESSING NOZZLE REACTOR PITCH - Methods and systems for cracking hydrocarbon material in a nozzle reactor and processing any un-cracked hydrocarbon material passing through the nozzle reactor. The nozzle reactor used may have a configuration whereby cracking material is injected into the nozzle reactor at a high velocity, including supersonic speed. The hydrocarbon material is injected into the nozzle reactor and intersects with the cracking material to crack hydrocarbon material. Any hydrocarbon material that pass through the nozzle reactor un-cracked can be re-injected into the nozzle reactor. An increase in the concentration and amount of un-cracked hydrocarbons injected into the nozzle reactor may increase the overall conversion of hydrocarbons into lighter hydrocarbons. | 04-14-2011 |
20110062057 | METHODS FOR OBTAINING BITUMEN FROM BITUMINOUS MATERIALS - Methods for extracting bitumen from bituminous material through the use of a polar solvent. The method may include a primary leaching or extraction process that separates most of the bitumen from a material comprising bitumen and produces first solvent-wet tailings. A polar solvent is added to the first solvent-wet tailings in order to remove the first solvent (plus any entrained bitumen) from the tailings. A mixture of polar solvent and first solvent produced by the addition of the polar solvent to the first solvent-wet tailings may be phase separated by maintaining the polar solvent-first solvent mixture for a period of time. Alternatively, the polar solvent and first solvent may leave the tailings in a phase separated state. Phase separation may occur due to the presence of water in the polar solvent-first solvent mixture. Water may also be added to the mixture of solvents to serve as an antisolvent and initiate phase separation. The separated solvents may then be recovered and reused in the method. | 03-17-2011 |
20100320118 | OXIDATION OF ASPHALTENES - A method for processing asphaltenes is disclosed. The method can include separating asphaltenes from an asphaltene-containing composition and oxidizing the separated asphaltenes to form oxidation products. Alternatively, the method can include oxidizing asphaltenes within an asphaltene-containing composition without first separating the asphaltenes. Once formed, the oxidation products can be combined with other hydrocarbons. The amount of oxidation can be limited to an amount sufficient to produce a mixture suitable for the desired application. This method can be used to upgrade asphaltenes from a variety of sources, including oil sands. The oxidation step can be performed, for example, by introducing an oxidizing agent and, in some cases, a catalyst into the asphaltenes. A solvent or miscibility agent also can be introduced to improve mixing between the oxidizing agent and the asphaltenes. | 12-23-2010 |
20100264062 | NOZZLE REACTOR AND METHOD OF USE - Embodiments of a nozzle reactor of the type useable to inject a first material feed stock and a second material feed stock to cause interaction between the first material feed stock and second material feed stock are described herein. According to some embodiments, the nozzle reactor may crack residual oil produced by other processing units in a refinery process. Furthermore, nozzle reactors may replace traditional processing units of a refinery process, such as cokers, hydrocrackers and deasphalting units. | 10-21-2010 |
20100032348 | METHODS FOR OBTAINING BITUMEN FROM BITUMINOUS MATERIALS - Methods for obtaining bitumen from bituminous material. The methods may include a dissolution step where a first solvent is added to material comprising bitumen to dissolve the bitumen contained therein. The majority of the dissolved bitumen is then removed from the mixture of first solvent and material comprising bitumen by filtering or settling the mixture of first solvent and material comprising bitumen. Any residual dissolved bitumen is then removed from the mixture of first solvent and material comprising bitumen by adding additional first solvent to the mixture to displace the residual dissolved bitumen from the mixture. | 02-11-2010 |
20090266741 | NOZZLE REACTOR AND METHOD OF USE - A nozzle reactor system for increasing the conversion rate of material feed injected into the nozzle reactor system. The system includes two or more nozzle reactors aligned in series, such that material exiting a first nozzle reactor may be injected into a second nozzle reactor, Each nozzle reactor includes an interior reactor chamber and an injection passage and a material feed passage that are each in material injecting communication with the interior reactor chamber. Furthermore, the injection passage is aligned transversely to the injection passage. The injection passage is configured to accelerate cracking material passed therethrough to a supersonic speed. A method of increasing the conversion rate of material feed utilizing multiple cracking steps is also described. | 10-29-2009 |
20090175769 | PROCESSING ASPHALTENE-CONTAINING TAILINGS - Embodiments of a method and a system for recovering energy, materials or both from asphaltene-containing tailings are disclosed. The asphaltene-containing tailings can be generated, for example, from a process for recovering hydrocarbons from oil sand. Embodiments of the method can include a flotation separation and a hydrophobic agglomeration separation. Flotation can be used to separate the asphaltene-containing tailings into an asphaltene-rich froth and an asphaltene-depleted aqueous phase. The asphaltene-rich froth, or an asphaltene-rich slurry formed from the asphaltene-rich froth, then can be separated into a heavy mineral concentrate and a light tailings. Hydrophobic agglomeration can be used to recover an asphaltene concentrate from the light tailings. Another flotation separation can be included to remove sulfur-containing minerals from the heavy mineral concentrate. Oxygen-containing minerals also can be recovered from the heavy mineral concentrate. Water removed by the various separation steps can be recycled and its heat energy recovered. | 07-09-2009 |
20090173668 | PROCESSING ASPHALTENE-CONTAINING TAILINGS - Embodiments of a method and a system for recovering energy, materials or both from asphaltene-containing tailings are disclosed. The asphaltene-containing tailings can be generated, for example, from a process for recovering hydrocarbons from oil sand. Embodiments of the method can include a flotation separation and a hydrophobic agglomeration separation. Flotation can be used to separate the asphaltene-containing tailings into an asphaltene-rich froth and an asphaltene-depleted aqueous phase. The asphaltene-rich froth, or an asphaltene-rich slurry formed from the asphaltene-rich froth, then can be separated into a heavy mineral concentrate and a light tailings. Hydrophobic agglomeration can be used to recover an asphaltene concentrate from the light tailings. Another flotation separation can be included to remove sulfur-containing minerals from the heavy mineral concentrate. Oxygen-containing minerals also can be recovered from the heavy mineral concentrate. Water removed by the various separation steps can be recycled and its heat energy recovered. | 07-09-2009 |