| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 81 | HYDRAULIC EMBEDMENT OF WASTE IN SUBTERRANEAN FORMATIONS | EP91919963.0 | 1991-10-25 | EP0507925A1 | 1992-10-14 | CAHILL, Calvin D. |
| Un procédé et un appareil (10) servent à enterrer hydrauliquement des déchets dans une formation souterraine. Selon le procédé, on perce des puits dans des formations géologiques stables jusqu'à des milliers de pieds sous terre, on fracture ces formations, on y introduit par pompage un mélange de déchets toxiques sous forme solide, liquide ou pâteuse, ainsi qu'un milieu sélectionné de transport, de manière à empêcher les déchets de migrer. Bien que le milieu approprié de transport puisse être sélectionné sur la base de facteurs divers, le milieu de transport sélectionné empêche les déchets de migrer en réagissant chimiquement ou sous l'effet de la chaleur et/ou de la pression jusqu'à devenir extrêmement visqueux ou solide. Le procédé empêche les déchets de migrer, soit par pompage d'un fluide qui scelle la formation souterraine fracturée avant que le mélange n'y soit introduit par pompage, soit par enrobage des déchets avant qu'ils ne soient mélangés avec le milieu de transport et injectés dans la formation fracturée. L'invention concerne également un appareil (10) de mise en oeuvre du procédé. | ||||||
| 82 | Process for removing water soluble organic compounds from produced water | EP90124160.4 | 1990-12-13 | EP0432787A1 | 1991-06-19 | Means, Mitchell C.; Braden, Michael L. |
A process for the removal of water soluble organic compounds from produced water is provided. The process allows for the removal of water soluble organic compounds by passing the produced water through a column of adsorbing resin which is capable of removing the soluble organic compounds from the water and providing an environmentally acceptable effluent. The removal of pollutants from the produced water is monitored continuously by a fluorescence detector. The process further allows for the regeneration of he adsorbing resin by regenerating the resin with a solvent capable of eluting accumulated soluble organic compounds from the column followed by treatment of the resin with steam to remove residual eluting solvent. The process further allows for the treatment of the eluting solvent and soluble organic compound admixture in a manner to allow reuse of the solvent and to allow recovery of the soluble organic compounds or to allow direct injection of the soluble organic compound admixture into the oil stream. Thus, the invention provides a process for removal and recovery of water soluble organic compounds from produced water which creates no environmentally hazardous waste streams. |
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| 83 | SYSTEMS AND METHODS FOR INJECTING A PARTICULATE MIXTURE | EP11849124 | 2011-09-29 | EP2652250A4 | 2018-04-25 | YALE DAVID P; TROSHKO ANDREY A; LEONARDI SERGIO A; ADAIR NEAL L |
| A method of backfilling a subsurface formation that includes forming a mixture tailings from at least two sources that have particles with different size distributions. The water content of the mixture is varied to control the rheology of the mixture. The mixture is injected through one or more pipes into a target location, such as a subsurface formation. | ||||||
| 84 | AN INTEGRATED SYSTEM FOR OFFSHORE INDUSTRIAL ACTIVITIES WITH FUME INJECTION | EP12830562.0 | 2012-12-19 | EP2795055B1 | 2018-01-10 | MYHR, Gunnar |
| This invention is related to integrated systems for offshore or land based industrial activities which use for feedstock or produce gas, crude oil and/or refined petroleum products/components, and provide reservoir injection of fume gases, can receive and store CO2 or flue gases from other offshore or onshore industrial processes or hydrocarbon producing installations, and can provide industrial products, the generation and transmission of electric power and communications between the various elements or units within a defined network or grid. The at least one industrial activity is represented by combinations of at least one hydrocarbon producing installation, at least one distillation unit, at least one upgrading unit, oil refinery, combined cycle electric power plant, production of heat, production of steam, production of at least one fertilizer, production of at least one petrochemical product. A most favorable integrated system can detect and measure the demand, include applying and the control of fogging of the at least one gas turbine (5) and provide and control wet compression (7), generate electric power accordingly by a combined cycle gas combustion process, and provide the optimization (minimization) of O2, enabling the reinjection of the fume gases (CO2 + N2) into producing HC reservoirs, thus provide pressure support for enhanced HC recovery. Associated or integrated heat and/or steam production ( from the at least one steam or boiler unit) can facilitate other activities on the at least one installation or distributed to the network (10). The integrated system will control the supply of electric power to the grid or network in question. The control of the system is integrated, coordinated and operated in real time. | ||||||
| 85 | Méthode de détermination des capacitiés de stockage de gaz acides d'un milieu géologique à l'aide d'un modèle de transport réactif multiphasique | EP06291894.1 | 2006-12-07 | EP1795699B1 | 2017-11-22 | Michel, Anthony; Trenty, Laurent |
| 86 | A SONIC/ULTRASONIC-ASSISTED METHOD FOR THE COMPACTION AND INJECTION OF GRANULAR SLURRIES AND PASTES IN THE SUBSURFACE | EP15713458.6 | 2015-03-27 | EP3126615A1 | 2017-02-08 | LARSEN, Øystein; SIKANETA, Sakalima, George |
| A compaction and/or hydro fracture generation device (10) comprises a compression device (11), a vibration generator device (12) arranged to generate vibrations in the ultrasonic frequency range, and a power source connected to the vibration generator. | ||||||
| 87 | WELL TREATMENT DEVICE, METHOD, AND SYSTEM | EP13837480 | 2013-09-11 | EP2895686A4 | 2016-09-28 | GAY MICHAEL; ESPINOZA CHARLES; ZEMLAK KYLE |
| A down-hole treatment tool including a tool body having a bore therethrough, a treatment port orifice disposed on the body, a sliding sleeve within the bore of the body. A constant-volume annular chamber, in isolation from the inner bore and the environment outside the body, provides a debris-free environment for locking the sleeve. A dissolvable treatment port cover provides protection of the treatment port until operation of the treatment port is needed. The treatment port cover and lubrication ports enable lubrication of the sleeve and inner bore of the body without risk of contamination by debris. | ||||||
| 88 | METHOD FOR REMOVING CONTAMINANTS FROM WASTEWATER IN HYDRAULIC FRACTURING PROCESS | EP13877286.8 | 2013-06-28 | EP2971485A1 | 2016-01-20 | Nevin, Donald |
| A borehole is drilled from the surface to an underground shale matrix. A pipe is inserted into the borehole. Openings are created in the pipe in fluid communication with fractures in the shale matrix. The interior surface of at least one section of pipe is coated with a contaminant-capturing substance. Fracturing fluid including water, proppants and chemicals is pumped through the pipe and into the fractures in the shale matrix. The fluid re-enters the pipe from the shale matrix and moves toward the surface through the coated pipe section where contaminants are sequestered by the coating. Natural gas or oil from the fractured shale then enters the pipe and moves to the surface to be collected. The coated pipe section remains in the ground permanently such that the necessity of disposing of the captured contaminants is eliminated. | ||||||
| 89 | Bohrlochkomplettierung einer Speicherbohrung | EP14170623.4 | 2014-05-30 | EP2821586A3 | 2015-02-25 | |
Die Erfindung betrifft eine Bohrlochkomplettierung einer Speicherbohrung (1) einer Druckluftkaverne, umfassend eine Standrohrtour (4), eine Ankerrohrtour (5), eine Futterrohrtour (6) aus einem ersten Werkstoff und eine sich in die Druckluftkaverne (2) erstreckende Förderrohrtour (3). Bei der Bohrlochkomplettierung gemäß der Erfindung ist vorgesehen, dass die Futterrohrtour (6) als Futterrohrschuh (10) an ihrem in der Speicherbohrung (1) führenden Ende wenigstens eine Futterrohrsektion aus einem zweiten korrosionsbeständigen Werkstoff umfasst, der von dem ersten Werkstoff verschieden ist, dass der Futterrohrschuh (10) über eine Rohrmuffe aus einem dritten Werkstoff an die Futterrohrtour (6) angeschlossen ist und dass der dritte Werkstoff von dem ersten und zweiten Werkstoff verschieden ist.
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| 90 | Procédé pour maintenir un volume de gaz dans un réservoir géologique souterrain par injection d'azote | EP12290209.1 | 2012-06-26 | EP2565371B1 | 2014-09-10 | Barroux, Claire |
| 91 | RECOVERY OR STORAGE PROCESS | EP10738158 | 2010-02-05 | EP2394020A4 | 2014-03-19 | FOUNDAS EMMANUEL; BRESNEHAN RODNEY MICHAEL |
| A method for recovering gases and/or liquids stored within one or more gas and/or liquid reservoirs comprising locating the upper consolidated boundary of the one or more gas and/or liquid reservoirs; drilling an access well which extends downwardly to at least adjacent the upper consolidated boundary of the one or more gas and/or liquid reservoirs; drilling a section of the access well extending along or adjacent at least a portion of the upper consolidated boundary of the one or more gas and/or liquid reservoirs; creating permeability pathways into the one or more gas and/or liquid reservoirs to enable the release of gas and/or liquid from the one or more gas and/or liquid reservoirs into the access well; and recovering the released gas and/or liquid through the access well. The method is also used for storage or sequestering of gases and/or liquids into one or more gas and/or liquid reservoirs wherein permeability pathways are created to inject the gases and/or liquids into the reservoirs from the access well. | ||||||
| 92 | METHOD FOR DETECTING GAS OUTFLOW FROM AN UNDERGROUND GAS STORAGE LAYER BY MEANS OF PRESSURE MONITORING, AND AN UNDERGROUND GAS STORAGE SYSTEM | EP10855958.4 | 2010-12-23 | EP2605049A1 | 2013-06-19 | PARK, Yong-Chan; HUH, Dae-Gee |
A geological gas storage system and a method of detecting gas leakage from the geological gas storage system by using pressure monitoring, the geological gas storage system including: a formation structure including a reservoir formed of a permeable rock material in deep onshore/offshore formations, an impermeable cap rock layer formed above the reservoir, and an upper permeable formation formed of a permeable rock material above the cap rock layer; a hollow casing inserted in inner walls of the gas injection well bored from the ground to the reservoir and including a portion disposed at the same depth as a depth of the reservoir in which a plurality of gas injection holes are perforated in a circumferential direction of the casing; and a pressure sensor disposed at the same depth as a depth of the upper permeable formation and detecting pressure of the upper permeable formation. The method of detecting gas leakage from the geological gas storage system by using pressure monitoring includes detecting gas leakage from the reservoir by measuring a change in pressure of the upper permeable formation by using a pressure sensor installed at the upper permeable formation in the geological gas storage system having the above structure. |
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| 93 | SURVEILLANCE GEOCHIMIQUE D´UN STOCKAGE GEOLOGIQUE DE CO2 A L´AIDE DE RAPPORTS CHIMIQUES DE GAZ RARES ASSOCIES | EP09753144.6 | 2009-10-27 | EP2350599B1 | 2013-03-27 | PRINZHOFER, Alain; GIANNESINI, Sophie; MAGNIER, Clotilde; MOREIRA, Manuel |
| 94 | DISPOSAL OF SLURRY IN UNDERGROUND GEOLOGIC FORMATIONS | EP08746871.6 | 2008-04-25 | EP2142451B1 | 2012-06-20 | KEARNEY, Raymond, J. |
| The current invention provides processes and apparatuses for introducing slurry into underground geological formations thereby disposing of the slurry, while also sequestering carbon dioxide and collecting methane from the slurry. | ||||||
| 95 | RECOVERY OR STORAGE PROCESS | EP10738158.4 | 2010-02-05 | EP2394020A1 | 2011-12-14 | FOUNDAS, Emmanuel; BRESNEHAN, Rodney, Michael |
| A method for recovering gases and/or liquids stored with in one or more gas and/or liquid reservoirs comprising locating the upper consolidated boundary of the one or more gas and/or liquid reservoirs; drilling an access well which extends downwardly to at least adjacent the upper consolidated boundary of the one or more gas and/or liquid reservoirs; drilling a section of the access well extending along or adjacent at least a portion of the upper consolidated boundary of the one or more gas and/or liquid reservoirs; creating permeability pathways into the one or more gas and/or liquid reservoirs to enable the release of gas and/or liquid from the one or more gas and/or liquid reservoirs into the access well; and recovering the released gas and/or liquid through the access well. The method is also used for storage or sequestering of gases and/or liquids into one or more gas and/or liquid reservoirs wherein permeability pathways are created to inject the gases and/or liquids into the reservoirs from the access well. | ||||||
| 96 | SURVEILLANCE GEOCHIMIQUE D´UN STOCKAGE GEOLOGIQUE DE CO2 A L´AIDE DE RAPPORTS CHIMIQUES DE GAZ RARES ASSOCIES | EP09753144.6 | 2009-10-27 | EP2350599A1 | 2011-08-03 | PRINZHOFER, Alain; GIANNESINI, Sophie; MAGNIER, Clotilde; MOREIRA, Manuel |
| The present invention relates to a method of monitoring a geological CO 2 storage site, in which the following steps are carried out: the contents of CO 2 and rare gases contained in a geological aquifer lying above the cover for a future CO 2 storage site are analyzed; the contents of rare gases associated with the injected CO 2 are analyzed; the rocks constituting said cover are characterized; a leakage of CO 2 and rare gases coming from the storage site and passing through the cover into said upper geological layer is modelled; a threshold for at least one rare-gas ratio corresponding to a CO 2 leak rate is determined; a ratio of rare gases present in the geological layer lying above said storage site is measured and compared with said threshold; and the CO 2 leakage rate is determined. | ||||||
| 97 | DISPOSAL OF SLURRY IN UNDERGROUND GEOLOGIC FORMATIONS | EP08746871.6 | 2008-04-25 | EP2142451A1 | 2010-01-13 | KEARNEY, Raymond, J. |
| The current invention provides processes and apparatuses for introducing slurry into underground geological formations thereby disposing of the slurry, while also sequestering carbon dioxide and collecting methane from the slurry. | ||||||
| 98 | A METHOD FOR SEQUESTERING A FLUID WITHIN A HYDROCARBON CONTAINING FORMATION | EP01943286.3 | 2001-04-24 | EP1276960B1 | 2004-09-15 | VINEGAR, Harold, J.; WELLINGTON, Scott, Lee; BERCHENKO, Ilya, Emil; MAHER, Kevin, Albert; DE ROUFFIGNAC, Eric; BAXLEY, Phillip, Temmons; ZHANG, Etuan; KARANIKAS, John, Michael |
| A method for sequestering a fluid is disclosed, which method comprises sequestering the fluid within a portion of an in-situ heat treated hydrocarbon containing formation, such as a coal seam in which hydrocarbons have been pyrolysed, of which at least a portion has preferably a permeability of at least 100 millidarcy. | ||||||
| 99 | A METHOD FOR TREATING A HYDROCARBON CONTAINING FORMATION | EP01933879.7 | 2001-04-24 | EP1276964A1 | 2003-01-22 | WELLINGTON, Scott, Lee; VINEGAR, Harold, J.; DE ROUFFIGNAC, Eric; BERCHENKO, Ilya, Emil; STEGEMEIER, George, Leo; KARANIKAS, John, Michael |
| A method is disclosed for treating a hydrocarbon containing formation in-situ and producing a hydrocarbon fluid from the formation, which method comprises pyrolysing hydrocarbons present in the formation at a hydrogen partial pressure of at least 1 bar and at most 50 bar, thereby producing hydrocarbons having a high API gravity, a low carbon number and a low olefins and poly-aromatic compound content. | ||||||
| 100 | METHOD AND SYSTEM FOR TREATING A HYDROCARBON CONTAINING FORMATION | EP01927922.3 | 2001-04-24 | EP1276959A2 | 2003-01-22 | BERCHENKO, Ilya, Emil; VAN HARDEVELD, Robert, Martijn; KARANIKAS, John, Michael; KEEDY, Charles, Robert; MAHER, Kevin, Albert; DE ROUFFIGNAC, Eric; RYAN, Robert, Charles; SCHOELING, Lanny, Gene; SHAHIN, Gordon, Thomas; STEGEMEIER, George, Leo; VINEGAR, Harold, J.; WELLINGTON, Scott, Lee; ZHANG, Etuan; COLES, John, Matthew; FOWLER, Thomas, David; MADGAVKAR, Ajay, Madhav; MENOTTI, James, Louis; HUNSUCKER, Bruce, Gerard; BIELAMOWICZ, Lawrence, James |
| A method is disclosed for treating a hydrocarbon containing formation in situ and producing a hydrocarbon fluid from the formation, which method comprises pyrolysing hydrocarbons present in the formation during the production of the hydrocarbon fluid from the formation with the application of a pressure/temperature control such that the pressure is at least the pressure which can be calculated for a selected temperature, or the temperature is at most the temperature which can be calculated for a selected pressure from the equation (I) wherein P is pressure (bar absolute), T is temperature (°C), and A and B are predetermined parameters which relate to a property which is relevant to the quantity, the composition or the quality of the hydrocarbon fluids produced. Optionally, the method is followed by the step of in-situ producing synthesis gas, which step comprises providing a partly depleted hydrocarbon containing formation which is treated according to the said method for treating a hydrocarbon containing formation in-situ, and reacting the hydrocarbon containing formation with a synthesis gas generating fluid. Optionally the synthesis gas so produced is converted into hydrocarbons; and/or energy is generated by expanding and/or combusting the synthesis gas so produced or using the synthesis gas so produced in a fuel cell. | ||||||
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