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    • 1. 发明授权
    • Drilling well with drilling fluid of fluid phase and weighting agent
    • 用流体相钻井液和加重剂钻井
    • US07409994B2
    • 2008-08-12
    • US11617576
    • 2006-12-28
    • Jarrod MassamNeale BrowneMukesh Kapila
    • Jarrod MassamNeale BrowneMukesh Kapila
    • C09K8/34C09K8/36E21B21/00
    • C09K8/16C04B20/1022C09K8/032C09K8/36Y10S507/906
    • An additive that increases the density of fluids used in a wellbore during the construction or repair of oil, gas, injection, water, or geothermal wells comprises In one illustrative embodiment the additive comprises a weighting agent, and more preferably an ultra-fine weighting agent. Another embodiment includes a wellbore fluid containing an ultra-fine weighting agent that has an increased density with improved suspension stability without a significant viscosity increase. The wellbore fluid as described herein has rheological properties comparable to a conventional wellbore fluid. An illustrative embodiment of the claimed subject matter is further directed to a method for making the ultra-fine weighting agent and a method for using such ultra-fine weighting agent in a wellbore fluid. In one preferred embodiment the additive has a particle diameter between 4 μm to 15 μm. In another preferred embodiment, the additive has a D50 of approximately 3 μm (1 μm to 6 μm). In another preferred embodiment the additive has a D90 of approximately 6 μm (4 μm to 8 μm). The additive may be used in any wellbore fluid such as drilling, cementing, completion, packing, work-over (repairing), stimulation, well killing, and spacer fluid, as well as in a dense media separating fluid or in a ship's or other vehicle's ballast fluid.
    • 在油,气,注入,水或地热井的构造或修复期间增加在井眼中使用的流体密度的添加剂包括在一个说明性实施例中,添加剂包括加重剂,更优选超细加重剂 。 另一个实施方案包括含有超细加重剂的井眼流体​​,其具有增加的密度并且具有改善的悬浮液稳定性而没有显着的粘度增加。 如本文所述的井眼流体​​具有与常规井眼流体相当的流变特性。 所要求保护的主题的说明性实施例还涉及制造超细加重剂的方法和在井眼流体中使用这种超细加重剂的方法。 在一个优选实施方案中,添加剂的粒径在4μm至15μm之间。 在另一个优选的实施方案中,添加剂具有约3μm(1m至6μm)的D 50。 在另一个优选的实施方案中,添加剂具有约6μm(4μm至8μm)的D 90。 添加剂可以用于任何井筒流体,例如钻井,固井,完井,填料,加工(修复),刺激,杀伤和间隔液,以及分离流体或船舶或其他 车辆压载液。
    • 3. 发明申请
    • IN-LINE TREATMENT OF HYDROCARBON FLUIDS WITH OZONE
    • 用OZONE进行烃油处理
    • US20120037490A1
    • 2012-02-16
    • US13280107
    • 2011-10-24
    • Mukesh KapilaIvan BatinicPaul GoverNeale Browne
    • Mukesh KapilaIvan BatinicPaul GoverNeale Browne
    • B01D3/34
    • E21B21/066B09C1/06C10G27/14C10G2300/1033C10G2300/201
    • A system for treating recovered fluids in-line that includes a thermal reactor for separating contaminated drill cuttings into drill cuttings and contaminants by applying heat to the contaminated drill cuttings so as to vaporize contaminants from the contaminated drill cuttings; a first condenser in fluid connection with the thermal reactor for condensing the vaporized contaminants; a separator in fluid connection with the first condenser for separating the condensed vapors into an oleaginous liquid and an aqueous liquid, wherein at least a portion of one of the aqueous liquid and oleaginous liquid is fed back into the first condenser via a feedback line; and an ozone generator operatively coupled to the feedback line, wherein at least the portion of the fed back liquid is ozonated by the ozone generator and fed into the condenser is disclosed.
    • 一种用于处理回收流体的系统,其包括用于通过向受污染的钻屑施加热量将污染的钻屑分离成钻屑和污染物的热反应器,以便从污染的钻屑中蒸发污染物; 与热反应器流体连接的第一冷凝器,用于冷凝蒸发的污染物; 与第一冷凝器流体连接的分离器,用于将冷凝的蒸汽分离成油性液体和水性液体,其中至少一部分含水液体和含油液体经由反馈管线反馈到第一冷凝器中; 以及可操作地耦合到所述反馈管线的臭氧发生器,其中所述反馈液体的至少一部分被所述臭氧发生器臭氧化并进入所述冷凝器。
    • 6. 发明申请
    • METHOD OF DRILLING USING A SIZED BARITE AS A WEIGHTING AGENT FOR DRILLING FLUIDS
    • 使用尺寸的BARITE作为钻井液的称重剂进行钻孔的方法
    • US20070105725A1
    • 2007-05-10
    • US11617576
    • 2006-12-28
    • Jarrod MassamNeale BrowneMukesh Kapila
    • Jarrod MassamNeale BrowneMukesh Kapila
    • C09K8/26
    • C09K8/16C04B20/1022C09K8/032C09K8/36Y10S507/906
    • An additive that increases the density of fluids used in a wellbore during the construction or repair of oil, gas, injection, water, or geothermal wells comprises In one illustrative embodiment the additive comprises a weighting agent, and more preferably an ultra-fine weighting agent. Another embodiment includes a wellbore fluid containing an ultra-fine weighting agent that has an increased density with improved suspension stability without a significant viscosity increase. The wellbore fluid as described herein has Theological properties comparable to a conventional wellbore fluid. An illustrative embodiment of the claimed subject matter is further directed to a method for making the ultra-fine weighting agent and a method for using such ultra-fine weighting agent in a wellbore fluid. In one preferred embodiment the additive has a particle diameter between 4 μm to 15 μm. In another preferred embodiment, the additive has a D50 of approximately 3 μm (1 μm to 6 μm). In another preferred embodiment the additive has a D90 of approximately 6 μm (4 μm to 8 μm). The additive may be used in any wellbore fluid such as drilling, cementing, completion, packing, work-over (repairing), stimulation, well killing, and spacer fluid, as well as in a dense media separating fluid or in a ship's or other vehicle's ballast fluid.
    • 在油,气,注入,水或地热井的构造或修复期间增加在井眼中使用的流体密度的添加剂包括在一个说明性实施例中,添加剂包括加重剂,更优选超细加重剂 。 另一个实施方案包括含有超细加重剂的井眼流体​​,其具有增加的密度并且具有改善的悬浮液稳定性而没有显着的粘度增加。 如本文所述的井眼流体​​具有与常规井眼流体相当的神学特性。 所要求保护的主题的说明性实施例还涉及制造超细加重剂的方法和在井眼流体中使用这种超细加重剂的方法。 在一个优选实施方案中,添加剂的粒径在4μm至15μm之间。 在另一个优选的实施方案中,添加剂具有约3μm(1m至6μm)的D 50。 在另一个优选的实施方案中,添加剂具有约6μm(4μm至8μm)的D 90。 添加剂可以用于任何井筒流体,例如钻井,固井,完井,填料,加工(修复),刺激,杀伤和间隔液,以及分离流体或船舶或其他 车辆压载液。
    • 7. 发明授权
    • In-line treatment of hydrocarbon fluids with ozone
    • 烃类流体与臭氧的在线处理
    • US08882969B2
    • 2014-11-11
    • US13280107
    • 2011-10-24
    • Mukesh KapilaIvan BatinicPaul GoverNeale Browne
    • Mukesh KapilaIvan BatinicPaul GoverNeale Browne
    • C02F1/00B01D37/00C10G27/14E21B21/06B09C1/06
    • E21B21/066B09C1/06C10G27/14C10G2300/1033C10G2300/201
    • A system for treating recovered fluids in-line that includes a thermal reactor for separating contaminated drill cuttings into drill cuttings and contaminants by applying heat to the contaminated drill cuttings so as to vaporize contaminants from the contaminated drill cuttings; a first condenser in fluid connection with the thermal reactor for condensing the vaporized contaminants; a separator in fluid connection with the first condenser for separating the condensed vapors into an oleaginous liquid and an aqueous liquid, wherein at least a portion of one of the aqueous liquid and oleaginous liquid is fed back into the first condenser via a feedback line; and an ozone generator operatively coupled to the feedback line, wherein at least the portion of the fed back liquid is ozonated by the ozone generator and fed into the condenser is disclosed.
    • 一种用于处理回收流体的系统,其包括用于通过向受污染的钻屑施加热量将污染的钻屑分离成钻屑和污染物的热反应器,以便从污染的钻屑中蒸发污染物; 与热反应器流体连接的第一冷凝器,用于冷凝蒸发的污染物; 与第一冷凝器流体连接的分离器,用于将冷凝的蒸汽分离成油性液体和水性液体,其中至少一部分含水液体和含油液体经由反馈管线反馈到第一冷凝器中; 以及可操作地耦合到所述反馈管线的臭氧发生器,其中所述反馈液体的至少一部分被所述臭氧发生器臭氧化并进入所述冷凝器。
    • 8. 发明授权
    • In-line treatment of hydrocarbon fluids with ozone
    • 烃类流体与臭氧的在线处理
    • US08066851B2
    • 2011-11-29
    • US11877485
    • 2007-10-23
    • Mukesh KapilaIvan BatinicPaul GoverNeale Browne
    • Mukesh KapilaIvan BatinicPaul GoverNeale Browne
    • B01D1/00B01D3/00
    • E21B21/066B09C1/06C10G27/14C10G2300/1033C10G2300/201
    • A system for treating recovered fluids in-line that includes a thermal reactor for separating contaminated drill cuttings into drill cuttings and contaminants by applying heat to the contaminated drill cuttings so as to vaporize contaminants from the contaminated drill cuttings; a first condenser in fluid connection with the thermal reactor for condensing the vaporized contaminants; a separator in fluid connection with the first condenser for separating the condensed vapors into an oleaginous liquid and an aqueous liquid, wherein at least a portion of one of the aqueous liquid and oleaginous liquid is fed back into the first condenser via a feedback line; and an ozone generator operatively coupled to the feedback line, wherein at least the portion of the fed back liquid is ozonated by the ozone generator and fed into the condenser is disclosed.
    • 一种用于处理回收流体的系统,其包括用于通过向受污染的钻屑施加热量将污染的钻屑分离成钻屑和污染物的热反应器,以便从污染的钻屑中蒸发污染物; 与热反应器流体连接的第一冷凝器,用于冷凝蒸发的污染物; 与第一冷凝器流体连接的分离器,用于将冷凝的蒸汽分离成油性液体和水性液体,其中至少一部分含水液体和含油液体经由反馈管线反馈到第一冷凝器中; 以及可操作地耦合到所述反馈管线的臭氧发生器,其中所述反馈液体的至少一部分被所述臭氧发生器臭氧化并进入所述冷凝器。
    • 9. 发明授权
    • Method and system for harvesting weighting agent fines
    • 收取加重剂罚款的方法和制度
    • US07370820B2
    • 2008-05-13
    • US11046983
    • 2005-01-31
    • Neale BrowneMukesh Kapila
    • Neale BrowneMukesh Kapila
    • B02C19/00
    • C09K8/032B02C23/14
    • A method for harvesting weighting agent fines includes milling weighting agent into a plurality of pieces, classifying the pieces based on size to extract those particles having a particle size less than an acceptable maximum diameter, reclassifying the pieces based on size to extract those particles having a particle size less than an acceptable minimum diameter, collecting the particles having a particle size between the standard acceptable minimum and maximum diameters, and collecting the particles having a particle size less than the acceptable minimum diameter. A system for harvesting weighting agent fines includes a mill to reduce the weighting agent particle size, a first classifier to extract particles having a particle size less than the acceptable maximum diameter, a second classifier to extract particles having a particle size less than the acceptable minimum diameter, a fine particle collection area, and a coarse particle collection area.
    • 收集加重剂细粉的方法包括将加重剂加工成多个片段,根据尺寸对碎片进行分级,以提取具有小于可接受最大直径的粒度的那些颗粒,根据尺寸重新分级碎片以提取具有 颗粒尺寸小于可接受的最小直径,收集颗粒尺寸在标准可接受的最小和最大直径之间的颗粒,并收集粒径小于可接受的最小直径的颗粒。 用于收获加重剂细粉的系统包括用于减小加重剂颗粒尺寸的研磨机,提供具有小于可接受最大直径的粒度的颗粒的第一分级机,提取具有小于可接受最小直径的颗粒尺寸的颗粒的第二分级机 直径,细颗粒收集区域和粗颗粒收集区域。
    • 10. 发明申请
    • Method and system for harvesting weighting agent fines
    • 收取加重剂罚款的方法和制度
    • US20060169809A1
    • 2006-08-03
    • US11046983
    • 2005-01-31
    • Neale BrowneMukesh Kapila
    • Neale BrowneMukesh Kapila
    • B02C23/08C09K8/00
    • C09K8/032B02C23/14
    • A method for harvesting weighting agent fines includes milling weighting agent into a plurality of pieces, classifying the pieces based on size to extract those particles having a particle size less than an acceptable maximum diameter, reclassifying the pieces based on size to extract those particles having a particle size less than an acceptable minimum diameter, collecting the particles having a particle size between the standard acceptable minimum and maximum diameters, and collecting the particles having a particle size less than the acceptable minimum diameter. A system for harvesting weighting agent fines includes a mill to reduce the weighting agent particle size, a first classifier to extract particles having a particle size less than the acceptable maximum diameter, a second classifier to extract particles having a particle size less than the acceptable minimum diameter, a fine particle collection area, and a coarse particle collection area.
    • 收集加重剂细粉的方法包括将加重剂加工成多个片段,根据尺寸对碎片进行分级,以提取具有小于可接受最大直径的粒度的那些颗粒,根据尺寸重新分级碎片以提取具有 颗粒尺寸小于可接受的最小直径,收集颗粒尺寸在标准可接受的最小和最大直径之间的颗粒,并收集粒径小于可接受的最小直径的颗粒。 用于收获加重剂细粉的系统包括用于减小加重剂颗粒尺寸的研磨机,提供具有小于可接受最大直径的粒度的颗粒的第一分级机,提取具有小于可接受最小直径的颗粒尺寸的颗粒的第二分级机 直径,细颗粒收集区域和粗颗粒收集区域。