| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 101 | Method for removing contaminant and apparatus therefor | JP9709895 | 1995-04-21 | JPH07290038A | 1995-11-07 | ERIOTSUTO ENU DOUFUNII; POURU EMU TOONATOO; SUKOTSUTO EMU HIYUUBAA; RONARUDO II HESU |
| PURPOSE: To improve the purification efficiency of soil by arranging vacuum extraction pipes into plural preferential flow routes inserted down into the water impermeable soil layers in the ground and purifying and discharge the fluid extracted by a vacuum extraction system. CONSTITUTION: The preferential flow routes 22, 24 and 26 are formed around a central zone 14 penetrated with more highly thickened contaminants in a contaminated zone 14 in the ground. An air blow probe 27 is disposed with respect to the respective preferential flow routes 22, 24 and 26. Air or another fluid is guided to the preferential flow in the position parted from a well via this air blow probe 27. The fluid is extracted via the well bore 28. The gases removed by a vacuum extraction system 32 are discharged as they are to the atmosphere 34 if within the permissible range of the environment. If necessary, the gases are subjected to a purification treatment by incineration or passage through a component element 36, such as a condenser or an active carbon filter, for removing the contaminants. | ||||||
| 102 | Excitation of hydrocarbon stream from geological layer | JP2298783 | 1983-02-16 | JPS58153889A | 1983-09-13 | RICHIYAADO AREKISANDAA BUROON; FURANKU EDOWAADO KAROPURESO; CHIYAARUZU JIYASUTASU RIMUBAAN; ROBAATO DONARUDO NOORISU |
| 103 | 粘土安定剤としてのアルキル化ポリエーテルアミン | JP2015541830 | 2013-11-04 | JP6308686B2 | 2018-04-11 | パカルスキ,マレク; フオークナー,マシユー・ダブリユー |
| 104 | The cationic fluorinated polymer compositions, and methods of treating a hydrocarbon containing formation using it | JP2011518861 | 2009-07-15 | JP2011528725A | 2011-11-24 | アール.,ジュニア バラン,ジミー; ジー.アイ. ムーア,ジョージ |
| 独立して、式(I)
又は式(II)により表される第1の二価単位と、 四級アンモニウム基を含む第2の二価単位と、を有するフッ素化ポリマー。 フッ素化ポリマー及び溶媒を含有する組成物、これらの組成物を用いて炭化水素含有地層を処理する方法、及びフッ素化ポリマーで処理された物品を開示する。 フッ素化ポリマーを含有する組成物の作製方法も開示する。 |
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| 105 | Pollutant removal method and apparatus | JP13704096 | 1996-05-30 | JP3884793B2 | 2007-02-21 | アール.マンチニ アルフォンソ; エヌ.ダフニー エリオット; エフ.トーマサー ジョン; エム.フバー スコット; ティー.サロッティ マイケル; エー.ウィリアムズ リチャード; イー.ヘス ロナルド |
| 106 | Pollutant removal method and apparatus | JP9709895 | 1995-04-21 | JP3786987B2 | 2006-06-21 | エヌ.ドゥフニー エリオット; エム.ヒューバー スコット; エム.トーナトー ポウル; イー.ヘス ロナルド |
| 107 | Process for removing contaminants and apparatus therefor | JP13704096 | 1996-05-30 | JPH08332476A | 1996-12-17 | RICHIYAADO EE UIRIAMUZU; RONARUDO II HESU; MAIKERU TEII SAROTSUTEI; JIYON EFU TOOMASAA; SUKOTSUTO EMU FUBAA; ERIOTSUTO ENU DAFUNII; ARUFUONSO AARU MANCHINI |
| PROBLEM TO BE SOLVED: To provide a process for removing contaminants from sheet, groundwater and soil and apparatus therefor. SOLUTION: A borehole is provided in the contaminated area, a perforated riser pipe 44 is placed in the borehole, a vacuum extraction pipe 30 with an opening arranged inside of the perforated riser pipe 44 is instaled within the perforated riser pipe 44, and a packing 61 is instaled in a portion of the annular space between the vacuum extraction pipe and the perforated riser pipe 44. And gases and liquid are introduced from the subsurface to the packing 61 by applying a vacuum to the vacuum extraction pipe 30, and the gases and the liquid are transported to the surface as a common stream, and a stream which is primarily liquid and a stream which is primarily gaseous are formed, and contaminants are removed from at least one of the liquid stream and the gaseous stream. | ||||||
| 108 | 실리카 나노유체 제조방법 및 이를 이용한 석유회수증진방법 | KR1020180012174 | 2018-01-31 | KR101872020B1 | 2018-06-27 | 이원석; 장호창; 이정환 |
| 본발명은 (a) 탈이온수에실리카졸을분산시키는단계; (b) 실란커플링제(silane coupling agent)를투입하고실란반응을수행하여실리카나노입자의표면을개질하는단계; (c) 증류수에여과하고투석하여실리카나노입자를수득하는단계; 및 (d) 상기실리카나노입자를염수에분산시키는단계를포함하는실리카나노유체제조방법을제공한다. 따라서대형탄산염저류층의고염도조건하에서분산안정성이증가하여석유회수증진방법의주입유체로사용되어석유회수를증가시킬수 있다. | ||||||
| 109 | 기체 수화물로부터 탄화수소를 방출, 회수 및/또는 생성하는 방법, 및 온실 기체를 격리시키는 방법 | KR1020077006509 | 2005-09-16 | KR100927746B1 | 2009-11-20 | 그라우에,아르네; 크밤메,브요른; 하워드,제임스제이.; 발드윈,데르나르드에이.; 스티븐스,제임스씨.; 조르네스,데이비드알. |
| A method for releasing gas from a gas hydrate without melting the gas hydrate by substituting the gas with a releasing agent that forms a more stable hydrate structure than the gas. | ||||||
| 110 | 딥(deep) 카보네이트 자극(stimulation)을 통한 향산된 제조 목표: 원하는 습윤성을 갖는 불용성 고체 물질을 함유하는 안정화된 산 에멀젼 | KR1020187020214 | 2016-12-16 | KR1020180097641A | 2018-08-31 | |
| 딥카보네이트형성물자극을위한안정화된유화산 조성물이제공된다. 상기안정화된산 에멀젼조성물은산 및저류암(reservoir rock) 사이에배리어를제공하도록작동할수 있는석유, 상기저류암과반응하여저류암을용해시키고, 웜홀을생산하도록작동할수 있는산, 상기안정화된유화산을안정화시키도록작동할수 있는관능성(functional) 프레임워크, 상기안정화된유화산을안정화시키도록작동할수 있는유화제및 웰(well)의상기금속성분에대한부식으로부터보호하도록작동할수 있는부식억제제를포함한다. 상기석유는디젤일수 있다. 상기산은염산일수 있다. 상기관능성프레임워크는표면-개질된클레이-계물질, 제올라이트, 하이브리드유기-무기물질, 공유결합된-유기프레임워크물질, 및보론질화물, 및이들의조합을포함하는군으로부터선택될수 있다. 상기관능성프레임워크는유기클레이로부터선택되는표면-개질된클레이물질일수 있다. 상기부식억제제는양이온성암모늄-계부식억제제이다. | ||||||
| 111 | 탄층 가스 생산 방법 | KR1020160078647 | 2016-06-23 | KR1020160078319A | 2016-07-04 | 백영순; 조원준; 이현찬; 주우성; 모용기; 이지혜; 백현선; 안문성 |
| 본발명은탄층가스생산방법에관한것으로서, 탄에고정된가스를갖는탄층의위치를파악하는단계; 상기탄층과소통하는적어도하나의생산정(production well)을설치하는단계; 상기생산정에상기탄층과소통하며, 물이이동하는내부관및 상기내부관둘러싸는외부관으로이루어진이중관형시추관을설치하는단계; 상기시추관의내부관에펌프를연결하여탄층에함유된물을탈리시켜상기내부관을통해배출시키는단계; 상기탄층으로부터물이탈리됨으로인한압력저하로탄층에서탈착된탄층가스가확산이동하여상기외부관으로배출되는단계; 및상기내부관으로부터배출된물을기액분리기로보내어물에함유된탄층가스를분리하여회수하는단계를포함한다. 본발명에따르면, 보다경제적이고효율적으로가스를포집할수 있으며, 동시에폐수에의한환경문제도함께해결할수 있어실제공정에효과적으로적용할수 있다. | ||||||
| 112 | 기체 수화물로부터 탄화수소를 방출, 회수 및/또는 생성하는 방법, 및 온실 기체를 격리시키는 방법 | KR1020097014492 | 2005-09-16 | KR101005700B1 | 2011-01-05 | 그라우에,아르네; 크밤메,브요른; 하워드,제임스제이.; 발드윈,데르나르드에이.; 스티븐스,제임스씨.; 조르네스,데이비드알. |
| 기체를 상기 기체보다 더 안정한 수화물 구조를 형성하는 이탈제로 치환함으로써 기체 수화물을 용융시키지 않고 기체 수화물로부터 기체를 방출시키는 방법. 기체 수화물, 이탈제, 유리 기체, 기체 방출 | ||||||
| 113 | 기체 수화물로부터 탄화수소를 방출, 회수 및/또는 생성하는 방법, 및 온실 기체를 격리시키는 방법 | KR1020097014492 | 2005-09-16 | KR1020090090380A | 2009-08-25 | 그라우에,아르네; 크밤메,브요른; 하워드,제임스제이.; 발드윈,데르나르드에이.; 스티븐스,제임스씨.; 조르네스,데이비드알. |
| A method for releasing gas from a gas hydrate without melting the gas hydrate by substituting the gas with a releasing agent that forms a more stable hydrate structure than the gas. ® KIPO & WIPO 2009 | ||||||
| 114 | 기체 수화물로부터 탄화수소를 방출, 회수 및/또는 생성하는 방법, 및 온실 기체를 격리시키는 방법 | KR1020077006509 | 2005-09-16 | KR1020070060092A | 2007-06-12 | 그라우에,아르네; 크밤메,브요른; 하워드,제임스제이.; 발드윈,데르나르드에이.; 스티븐스,제임스씨.; 조르네스,데이비드알. |
| A method for releasing gas from a gas hydrate without melting the gas hydrate by substituting the gas with a releasing agent that forms a more stable hydrate structure than the gas. | ||||||
| 115 | FLOW RESTRICTOR | EP16155583.4 | 2012-07-25 | EP3045653B1 | 2018-11-28 | Craigon, Alan; Egleton, Philip CG; Reid, Stephen; Elrick, Andrew John; Porta, Santiago Galvez |
| A flow restrictor (190;290) for restricting flow in an annulus (104;315), the flow restrictor comprising a restrictor assembly actuable between a run in configuration and a set configuration in which at least a portion of the restrictor assembly is splayed to thereby substantially restrict flow in an annulus (104;315), and wherein the restrictor assembly has at least two layers (22;24) of interweaved elongate elements deformable to move between the run-in and set configurations. | ||||||
| 116 | Casing valves system for selective well stimulation and control | EP10155974.8 | 2007-01-25 | EP2189622B1 | 2018-11-21 | Tips, Timothy R.; Curington, Alfred R. |
| Casing valves for selective well stimulation and control. A well system (10) includes at least one valve (22,24,26,28) interconnected in a casing string (21) operable via at least one line external to the casing string to selectively control fluid flow between an exterior and interior of the casing string, and the casing string, valve and line being cemented in a wellbore. A method of selectively stimulating a subterranean formation includes: positioning a casing string in a wellbore, the casing string including spaced apart valves operable via a line to selectively control fluid flow between an interior and exterior of the casing string; and for each of multiple intervals of the formation in sequence, stimulating the interval by opening a corresponding one of the valves, closing the remainder of the valves, and flowing a stimulation fluid from the casing string into the interval. | ||||||
| 117 | A METHOD FOR INDIVIDUALLY SERVICING A PLURALITY OF ZONES OF A SUBTERRANEAN FORMATION | EP12704524.3 | 2012-02-10 | EP2673462B1 | 2018-10-31 | HOWELL, Matthew Todd |
| A method of servicing a subterranean formation comprising providing a first sleeve system comprising a first one or more ports and being transitionable from a first mode to a second mode and from the second mode to a third mode, and a second sleeve system comprising a second one or more ports and being transitionable from a first mode to a second mode and from the second mode to a third mode, wherein, in the first mode and the second mode, fluid communication via the one or more ports of the first or second sleeve system is restricted, and wherein, in the third mode, fluid may be communicated via the one or more ports of the first or second sleeve system, transitioning the first and second sleeve systems to the second mode, and allowing the first sleeve system to transition from the second mode to the third mode. | ||||||
| 118 | TARGETING ENHANCED PRODUCTION THROUGH DEEP CARBONATE STIMULATION; STABILIZED ACID EMULSIONS CONTAINING INSOLUBLE SOLID MATERIALS WITH DESIRED WETTING PROPERTIES | EP16834142.8 | 2016-12-16 | EP3390569A1 | 2018-10-24 | CAIRNS, Amy; AL-MUNTASHERI, Ghaithan, A.; SAYED, Mohammed; FU, Liling; QI, Genggeng; GIANNELIS, Emmanuel, P. |
| A stabilized emulsified acid composition for deep carbonate formation stimulation is provided. The stabilized acid emulsion composition includes a petroleum operable to provide a barrier between an acid and a reservoir rock, the acid operable to react with the reservoir rock to dissolve the reservoir rock and produce a wormhole, a functional framework operable to stabilize the stabilized acid emulsion, an emulsifier operable to stabilize the stabilized acid emulsion, and a corrosion inhibitor operable to provide protection against corrosion for the metal components of a well. The petroleum can be diesel. The acid can be hydrochloric acid. The functional framework can be selected from the group comprising surface-modified clay-based material, zeolites, hybrid organic-inorganic materials, covalent-organic framework materials, and boron nitride nanotubes, and combinations thereof. The functional framework can be a surface-modified clay material selected from an organoclay. The corrosion inhibitor is a cationic ammonium-based corrosion inhibitor. | ||||||
| 119 | SCAVENGING HYDROGEN SULFIDE | EP13866383.6 | 2013-12-17 | EP2935193B1 | 2018-10-10 | MARTINEZ, Aaron D.; MUKKAMALA, Ravindranath; ACOSTA OTERO, Erick J.; BAILEY, Joseph P. |
| Alpha-hydroxy alkyl esters have been found to perform as hydrogen sulfide scavengers. A method of scavenging hydrogen sulfide includes contacting a fluid containing hydrogen sulfide with a treatment fluid including an alpha-hydroxy alkyl ester. Accordingly, the alpha-hydroxy alkyl ester reacts with the hydrogen sulfide to reduce the amount of hydrogen sulfide in the fluid. A broad range of alpha-hydroxy alkyl esters are disclosed. | ||||||
| 120 | METHOD AND SYSTEM FOR INJECTING A TREATING FLUID INTO A WELL BELOW A SAFETY VALVE | EP16195215.5 | 2016-10-24 | EP3312380A1 | 2018-04-25 | GORT, Edwin, Hilbert |
A method for injecting a treating fluid into a hydrocarbon fluid production well via an injection conduit (15) which is at least partially formed by an annular space (13) between inner (12) and outer walls (11) of a double-walled tubular string (10) suspended within the well; as well as a system for injecting a treating fluid into a hydrocarbon fluid production well, the system comprising a flapper valve (3) in fluid connection with an injection conduit (15) which is at least partially formed by an annular space (13) between inner (12) and outer walls (11) of a double-walled tubular string (10) suspended within the well.
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