RECOVERY METHOD OF SHALE CARBONATE OIL FIELD

FIELD: petroleum industry.SUBSTANCE: invention refers to the petroleum industry and may be used during the recovery of thick shale carbonate oil fields. The method includes drilling of horizontal wells, cementing of an annular space between a production casing and a reservoir in a horizontal shaft,...

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Hauptverfasser:	Evdokimov Aleksandr Mikhajlovich, Maganov Nail Ulfatovich, Khisamov Rais Salikhovich, Akhmetgareev Vadim Valerevich
Format:	Patent
Sprache:	eng ; rus
Schlagworte:	EARTH DRILLING EARTH DRILLING, e.g. DEEP DRILLING FIXED CONSTRUCTIONS MINING OBTAINING OIL, GAS, WATER, SOLUBLE OR MELTABLE MATERIALS OR ASLURRY OF MINERALS FROM WELLS
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creator	Evdokimov Aleksandr Mikhajlovich Maganov Nail Ulfatovich Khisamov Rais Salikhovich Akhmetgareev Vadim Valerevich
description	FIELD: petroleum industry.SUBSTANCE: invention refers to the petroleum industry and may be used during the recovery of thick shale carbonate oil fields. The method includes drilling of horizontal wells, cementing of an annular space between a production casing and a reservoir in a horizontal shaft, the secondary penetration of the field with the orientation direction of perforations, conduction of multistage hydraulic fracturing, application of packers for separation of horizontal shaft to sites, and product extraction from the horizontal wells. According to the invention, the oil field with the average thickness of oil-saturated reservoir should be selected, H > 50 m and average absolute permeability of less than 2 mD, the oil field is drilled with the horizontal wells with parallel location of horizontal shafts, moreover, the horizontal shafts of injection wells are located over the horizontal shafts of production wells at the distance of h = (0.5-0.9)·H in the vertical direction and of s = (1.0-4.0)·H in the horizontal direction. The length of each horizontal shaft is performed equal to l ≥ 4·h. In the injection wells along a horizontal shaft, the bottom half of the circumference of the production casing and cement rock is perforated, and in the production wells, the top part of the circumference is perforated. All wells are subject to the acid multistage hydraulic fracturing with the distance between the stages of no more than 50 m. Moreover, the location of each corresponding stage of the fracturing in the injection and production wells does not match structurally. The rate and the volume of pumped acid are determined according to the conditions, firstly, of the formation of the structure of carbonate dissolving representing the branched hollows; secondly, of the half-length of fractures a = (0.8-2.0)·s and the height of fractures c = (0.5-1.0)·h. After the multistage hydraulic fracturing, the production wells is completed and commissioned into production. At each reducing of the oil production rate of the production wells to the values lower than economically reasonable, the large-scale acid processing is conducted in corresponding injection wells, moreover, before the acid feed, water with the total mineralization of more than 1 g/l and particles resistant to impacts of applied acids, is pumped into an injection well, with diameters; with diameters exceeding the average diameter of pore channels of the reservoir, water with particles is pumped until
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fullrecord	<record><control><sourceid>epo_EVB</sourceid><recordid>TN_cdi_epo_espacenet_RU2612061C1</recordid><sourceformat>XML</sourceformat><sourcesystem>PC</sourcesystem><sourcerecordid>RU2612061C1</sourcerecordid><originalsourceid>FETCH-epo_espacenet_RU2612061C13</originalsourceid><addsrcrecordid>eNrjZNAJcnX2D3MNilTwdQ3x8HdR8HdTCPZw9HFVcHYMcvL3cwxxVfD39FFw83T1ceFhYE1LzClO5YXS3AwKbq4hzh66qQX58anFBYnJqXmpJfFBoUZmhkYGZobOhsZEKAEAN2okkA</addsrcrecordid><sourcetype>Open Access Repository</sourcetype><iscdi>true</iscdi><recordtype>patent</recordtype></control><display><type>patent</type><title>RECOVERY METHOD OF SHALE CARBONATE OIL FIELD</title><source>esp@cenet</source><creator>Evdokimov Aleksandr Mikhajlovich ; Maganov Nail Ulfatovich ; Khisamov Rais Salikhovich ; Akhmetgareev Vadim Valerevich</creator><creatorcontrib>Evdokimov Aleksandr Mikhajlovich ; Maganov Nail Ulfatovich ; Khisamov Rais Salikhovich ; Akhmetgareev Vadim Valerevich</creatorcontrib><description>FIELD: petroleum industry.SUBSTANCE: invention refers to the petroleum industry and may be used during the recovery of thick shale carbonate oil fields. The method includes drilling of horizontal wells, cementing of an annular space between a production casing and a reservoir in a horizontal shaft, the secondary penetration of the field with the orientation direction of perforations, conduction of multistage hydraulic fracturing, application of packers for separation of horizontal shaft to sites, and product extraction from the horizontal wells. According to the invention, the oil field with the average thickness of oil-saturated reservoir should be selected, H > 50 m and average absolute permeability of less than 2 mD, the oil field is drilled with the horizontal wells with parallel location of horizontal shafts, moreover, the horizontal shafts of injection wells are located over the horizontal shafts of production wells at the distance of h = (0.5-0.9)·H in the vertical direction and of s = (1.0-4.0)·H in the horizontal direction. The length of each horizontal shaft is performed equal to l ≥ 4·h. In the injection wells along a horizontal shaft, the bottom half of the circumference of the production casing and cement rock is perforated, and in the production wells, the top part of the circumference is perforated. All wells are subject to the acid multistage hydraulic fracturing with the distance between the stages of no more than 50 m. Moreover, the location of each corresponding stage of the fracturing in the injection and production wells does not match structurally. The rate and the volume of pumped acid are determined according to the conditions, firstly, of the formation of the structure of carbonate dissolving representing the branched hollows; secondly, of the half-length of fractures a = (0.8-2.0)·s and the height of fractures c = (0.5-1.0)·h. After the multistage hydraulic fracturing, the production wells is completed and commissioned into production. At each reducing of the oil production rate of the production wells to the values lower than economically reasonable, the large-scale acid processing is conducted in corresponding injection wells, moreover, before the acid feed, water with the total mineralization of more than 1 g/l and particles resistant to impacts of applied acids, is pumped into an injection well, with diameters; with diameters exceeding the average diameter of pore channels of the reservoir, water with particles is pumped until the pumping pressure rises at least five times. Therefore, the shale oil field is produced in the mode of acid and gravity drainage (AGD).EFFECT: technical result lies in the increasing of oil production from the thick shale carbonate oil fields.2 dwg Изобретение относится к нефтедобывающей промышленности и может быть применено при разработке мощных сланцевых карбонатных нефтяных залежей. Способ включает бурение горизонтальных скважин, цементирование в горизонтальном стволе кольцевого пространства между обсадной колонной и коллектором, вторичное вскрытие залежи с ориентированным направлением перфорационных отверстий, проведение МГРП, применение пакеров для разделения горизонтальных стволов на участки, отбор продукции из горизонтальных скважин. Согласно изобретению выбирают залежь со средней толщиной нефтенасыщенного коллектора H > 50 м и средней абсолютной проницаемостью менее 2 мД, залежь разбуривают горизонтальными скважинами с параллельным расположением горизонтальных стволов, причем горизонтальные стволы нагнетательных скважин размещают над горизонтальными стволами добывающих скважин на расстоянии по вертикали h = (0,5-0,9)·Н, по горизонтали s = (1,0-4,0)·Н. Длину каждого горизонтального ствола выполняют равной l ≥ 4·h. В нагнетательных скважинах вдоль по горизонтальному стволу перфорируют нижнюю половину окружности эксплуатационной колонны и цементного камня, а в добывающих - верхнюю. Во всех скважинах проводят кислотный МГРП с расстоянием между ступенями не более 50 м. Причем местоположение каждой соответствующей ступени МГРП в добывающей и нагнетательной скважинах не совпадает в структурном плане. Скорость и объем закачиваемой кислоты определяют из условий, во-первых, образования структуры растворения карбонатов, представляющей из себя разветвленные полости, во-вторых, полудлиной трещин a = (0,8-2,0)·s и высотой трещин с = (0,5-1,0)·h. После МГРП добывающие скважины осваивают и пускают в</description><language>eng ; rus</language><subject>EARTH DRILLING ; EARTH DRILLING, e.g. DEEP DRILLING ; FIXED CONSTRUCTIONS ; MINING ; OBTAINING OIL, GAS, WATER, SOLUBLE OR MELTABLE MATERIALS OR ASLURRY OF MINERALS FROM WELLS</subject><creationdate>2017</creationdate><oa>free_for_read</oa><woscitedreferencessubscribed>false</woscitedreferencessubscribed></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Tsyndetics_thumb_exl</thumbnail><linktohtml>$$Uhttps://worldwide.espacenet.com/publicationDetails/biblio?FT=D&date=20170302&DB=EPODOC&CC=RU&NR=2612061C1$$EHTML$$P50$$Gepo$$Hfree_for_read</linktohtml><link.rule.ids>230,308,780,885,25564,76419</link.rule.ids><linktorsrc>$$Uhttps://worldwide.espacenet.com/publicationDetails/biblio?FT=D&date=20170302&DB=EPODOC&CC=RU&NR=2612061C1$$EView_record_in_European_Patent_Office$$FView_record_in_$$GEuropean_Patent_Office$$Hfree_for_read</linktorsrc></links><search><creatorcontrib>Evdokimov Aleksandr Mikhajlovich</creatorcontrib><creatorcontrib>Maganov Nail Ulfatovich</creatorcontrib><creatorcontrib>Khisamov Rais Salikhovich</creatorcontrib><creatorcontrib>Akhmetgareev Vadim Valerevich</creatorcontrib><title>RECOVERY METHOD OF SHALE CARBONATE OIL FIELD</title><description>FIELD: petroleum industry.SUBSTANCE: invention refers to the petroleum industry and may be used during the recovery of thick shale carbonate oil fields. The method includes drilling of horizontal wells, cementing of an annular space between a production casing and a reservoir in a horizontal shaft, the secondary penetration of the field with the orientation direction of perforations, conduction of multistage hydraulic fracturing, application of packers for separation of horizontal shaft to sites, and product extraction from the horizontal wells. According to the invention, the oil field with the average thickness of oil-saturated reservoir should be selected, H > 50 m and average absolute permeability of less than 2 mD, the oil field is drilled with the horizontal wells with parallel location of horizontal shafts, moreover, the horizontal shafts of injection wells are located over the horizontal shafts of production wells at the distance of h = (0.5-0.9)·H in the vertical direction and of s = (1.0-4.0)·H in the horizontal direction. The length of each horizontal shaft is performed equal to l ≥ 4·h. In the injection wells along a horizontal shaft, the bottom half of the circumference of the production casing and cement rock is perforated, and in the production wells, the top part of the circumference is perforated. All wells are subject to the acid multistage hydraulic fracturing with the distance between the stages of no more than 50 m. Moreover, the location of each corresponding stage of the fracturing in the injection and production wells does not match structurally. The rate and the volume of pumped acid are determined according to the conditions, firstly, of the formation of the structure of carbonate dissolving representing the branched hollows; secondly, of the half-length of fractures a = (0.8-2.0)·s and the height of fractures c = (0.5-1.0)·h. After the multistage hydraulic fracturing, the production wells is completed and commissioned into production. At each reducing of the oil production rate of the production wells to the values lower than economically reasonable, the large-scale acid processing is conducted in corresponding injection wells, moreover, before the acid feed, water with the total mineralization of more than 1 g/l and particles resistant to impacts of applied acids, is pumped into an injection well, with diameters; with diameters exceeding the average diameter of pore channels of the reservoir, water with particles is pumped until the pumping pressure rises at least five times. Therefore, the shale oil field is produced in the mode of acid and gravity drainage (AGD).EFFECT: technical result lies in the increasing of oil production from the thick shale carbonate oil fields.2 dwg Изобретение относится к нефтедобывающей промышленности и может быть применено при разработке мощных сланцевых карбонатных нефтяных залежей. Способ включает бурение горизонтальных скважин, цементирование в горизонтальном стволе кольцевого пространства между обсадной колонной и коллектором, вторичное вскрытие залежи с ориентированным направлением перфорационных отверстий, проведение МГРП, применение пакеров для разделения горизонтальных стволов на участки, отбор продукции из горизонтальных скважин. Согласно изобретению выбирают залежь со средней толщиной нефтенасыщенного коллектора H > 50 м и средней абсолютной проницаемостью менее 2 мД, залежь разбуривают горизонтальными скважинами с параллельным расположением горизонтальных стволов, причем горизонтальные стволы нагнетательных скважин размещают над горизонтальными стволами добывающих скважин на расстоянии по вертикали h = (0,5-0,9)·Н, по горизонтали s = (1,0-4,0)·Н. Длину каждого горизонтального ствола выполняют равной l ≥ 4·h. В нагнетательных скважинах вдоль по горизонтальному стволу перфорируют нижнюю половину окружности эксплуатационной колонны и цементного камня, а в добывающих - верхнюю. Во всех скважинах проводят кислотный МГРП с расстоянием между ступенями не более 50 м. Причем местоположение каждой соответствующей ступени МГРП в добывающей и нагнетательной скважинах не совпадает в структурном плане. Скорость и объем закачиваемой кислоты определяют из условий, во-первых, образования структуры растворения карбонатов, представляющей из себя разветвленные полости, во-вторых, полудлиной трещин a = (0,8-2,0)·s и высотой трещин с = (0,5-1,0)·h. После МГРП добывающие скважины осваивают и пускают в</description><subject>EARTH DRILLING</subject><subject>EARTH DRILLING, e.g. DEEP DRILLING</subject><subject>FIXED CONSTRUCTIONS</subject><subject>MINING</subject><subject>OBTAINING OIL, GAS, WATER, SOLUBLE OR MELTABLE MATERIALS OR ASLURRY OF MINERALS FROM WELLS</subject><fulltext>true</fulltext><rsrctype>patent</rsrctype><creationdate>2017</creationdate><recordtype>patent</recordtype><sourceid>EVB</sourceid><recordid>eNrjZNAJcnX2D3MNilTwdQ3x8HdR8HdTCPZw9HFVcHYMcvL3cwxxVfD39FFw83T1ceFhYE1LzClO5YXS3AwKbq4hzh66qQX58anFBYnJqXmpJfFBoUZmhkYGZobOhsZEKAEAN2okkA</recordid><startdate>20170302</startdate><enddate>20170302</enddate><creator>Evdokimov Aleksandr Mikhajlovich</creator><creator>Maganov Nail Ulfatovich</creator><creator>Khisamov Rais Salikhovich</creator><creator>Akhmetgareev Vadim Valerevich</creator><scope>EVB</scope></search><sort><creationdate>20170302</creationdate><title>RECOVERY METHOD OF SHALE CARBONATE OIL FIELD</title><author>Evdokimov Aleksandr Mikhajlovich ; Maganov Nail Ulfatovich ; Khisamov Rais Salikhovich ; Akhmetgareev Vadim Valerevich</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-epo_espacenet_RU2612061C13</frbrgroupid><rsrctype>patents</rsrctype><prefilter>patents</prefilter><language>eng ; rus</language><creationdate>2017</creationdate><topic>EARTH DRILLING</topic><topic>EARTH DRILLING, e.g. DEEP DRILLING</topic><topic>FIXED CONSTRUCTIONS</topic><topic>MINING</topic><topic>OBTAINING OIL, GAS, WATER, SOLUBLE OR MELTABLE MATERIALS OR ASLURRY OF MINERALS FROM WELLS</topic><toplevel>online_resources</toplevel><creatorcontrib>Evdokimov Aleksandr Mikhajlovich</creatorcontrib><creatorcontrib>Maganov Nail Ulfatovich</creatorcontrib><creatorcontrib>Khisamov Rais Salikhovich</creatorcontrib><creatorcontrib>Akhmetgareev Vadim Valerevich</creatorcontrib><collection>esp@cenet</collection></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext_linktorsrc</fulltext></delivery><addata><au>Evdokimov Aleksandr Mikhajlovich</au><au>Maganov Nail Ulfatovich</au><au>Khisamov Rais Salikhovich</au><au>Akhmetgareev Vadim Valerevich</au><format>patent</format><genre>patent</genre><ristype>GEN</ristype><title>RECOVERY METHOD OF SHALE CARBONATE OIL FIELD</title><date>2017-03-02</date><risdate>2017</risdate><abstract>FIELD: petroleum industry.SUBSTANCE: invention refers to the petroleum industry and may be used during the recovery of thick shale carbonate oil fields. The method includes drilling of horizontal wells, cementing of an annular space between a production casing and a reservoir in a horizontal shaft, the secondary penetration of the field with the orientation direction of perforations, conduction of multistage hydraulic fracturing, application of packers for separation of horizontal shaft to sites, and product extraction from the horizontal wells. According to the invention, the oil field with the average thickness of oil-saturated reservoir should be selected, H > 50 m and average absolute permeability of less than 2 mD, the oil field is drilled with the horizontal wells with parallel location of horizontal shafts, moreover, the horizontal shafts of injection wells are located over the horizontal shafts of production wells at the distance of h = (0.5-0.9)·H in the vertical direction and of s = (1.0-4.0)·H in the horizontal direction. The length of each horizontal shaft is performed equal to l ≥ 4·h. In the injection wells along a horizontal shaft, the bottom half of the circumference of the production casing and cement rock is perforated, and in the production wells, the top part of the circumference is perforated. All wells are subject to the acid multistage hydraulic fracturing with the distance between the stages of no more than 50 m. Moreover, the location of each corresponding stage of the fracturing in the injection and production wells does not match structurally. The rate and the volume of pumped acid are determined according to the conditions, firstly, of the formation of the structure of carbonate dissolving representing the branched hollows; secondly, of the half-length of fractures a = (0.8-2.0)·s and the height of fractures c = (0.5-1.0)·h. After the multistage hydraulic fracturing, the production wells is completed and commissioned into production. At each reducing of the oil production rate of the production wells to the values lower than economically reasonable, the large-scale acid processing is conducted in corresponding injection wells, moreover, before the acid feed, water with the total mineralization of more than 1 g/l and particles resistant to impacts of applied acids, is pumped into an injection well, with diameters; with diameters exceeding the average diameter of pore channels of the reservoir, water with particles is pumped until the pumping pressure rises at least five times. Therefore, the shale oil field is produced in the mode of acid and gravity drainage (AGD).EFFECT: technical result lies in the increasing of oil production from the thick shale carbonate oil fields.2 dwg Изобретение относится к нефтедобывающей промышленности и может быть применено при разработке мощных сланцевых карбонатных нефтяных залежей. Способ включает бурение горизонтальных скважин, цементирование в горизонтальном стволе кольцевого пространства между обсадной колонной и коллектором, вторичное вскрытие залежи с ориентированным направлением перфорационных отверстий, проведение МГРП, применение пакеров для разделения горизонтальных стволов на участки, отбор продукции из горизонтальных скважин. Согласно изобретению выбирают залежь со средней толщиной нефтенасыщенного коллектора H > 50 м и средней абсолютной проницаемостью менее 2 мД, залежь разбуривают горизонтальными скважинами с параллельным расположением горизонтальных стволов, причем горизонтальные стволы нагнетательных скважин размещают над горизонтальными стволами добывающих скважин на расстоянии по вертикали h = (0,5-0,9)·Н, по горизонтали s = (1,0-4,0)·Н. Длину каждого горизонтального ствола выполняют равной l ≥ 4·h. В нагнетательных скважинах вдоль по горизонтальному стволу перфорируют нижнюю половину окружности эксплуатационной колонны и цементного камня, а в добывающих - верхнюю. Во всех скважинах проводят кислотный МГРП с расстоянием между ступенями не более 50 м. Причем местоположение каждой соответствующей ступени МГРП в добывающей и нагнетательной скважинах не совпадает в структурном плане. Скорость и объем закачиваемой кислоты определяют из условий, во-первых, образования структуры растворения карбонатов, представляющей из себя разветвленные полости, во-вторых, полудлиной трещин a = (0,8-2,0)·s и высотой трещин с = (0,5-1,0)·h. После МГРП добывающие скважины осваивают и пускают в</abstract><oa>free_for_read</oa></addata></record>
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subjects	EARTH DRILLING EARTH DRILLING, e.g. DEEP DRILLING FIXED CONSTRUCTIONS MINING OBTAINING OIL, GAS, WATER, SOLUBLE OR MELTABLE MATERIALS OR ASLURRY OF MINERALS FROM WELLS
title	RECOVERY METHOD OF SHALE CARBONATE OIL FIELD
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