Hydraulic fracturing characteristics of laminated shale and its enlightenment to fracture pressure

Hydraulic fracturing is a common reservoir reconstruction technology in shale gas production. Accurate prediction of hydraulic fracture break pressure is of great significance to on-site fracturing construction. In order to explore the influence mechanism of shale bedding on hydraulic fracturing, taking the black shale in Changning area of Sichuan Province as the research object, the Brazilian splitting tensile strength test of the laminated shale was carried out. The hydraulic fracturing test of shale with different bedding angles was carried out using GCTS rock mechanics testing machine. The extension morphology and the roughness characteristics of the shale fractures were characterized combined with X-ray CT and three-dimensional scanner, and the fracturing pressure in hydraulic fracturing of shale was analyzed. The results shown that, (1) The tensile strength of shale decreased firstly and then increased with the variation of bedding angle, and the obvious anisotropy was exhibited. (2) The bedding had a great influence on the shale fracture pressure, the change of fracturing pressure and tensile strength of shale hydraulic fracturing under different bedding angle shown a similar trend, with the minimum at 30° and the maximum at 90°. (3) The bedding planes had a little influence on fracture extension of hydraulic fracturing, mainly single fracture produced by the tensile failure, and roughness of the fracture surface was higher and independent of the direction of bedding. (4) The existence of the plastic zone in the fractured wellbore was determined by numerical simulation, which also explained the abnormally high fracture pressures observed in the test, and suggested that there was a of hydraulic fracturing. Shales can be completely broken only after a very short time of crack inoculation. Fracture pressure was affected by the certain characteristic length of critical fracture initiation of shale with different bedding angle, and the new model can better predict the fracturing pressure of hydraulic fracturing in shale. The research results are of great significance for understanding the mechanism of fracture initiation and extension in deep shale, and the design of hydraulic fracturing construction. Ausführliche Beschreibung

Gespeichert in:

Autor*in:	Zhonghui SHEN [verfasserIn] Lingjian ZHOU [verfasserIn] Xijian LI [verfasserIn] Shengyue ZHANG [verfasserIn] Lei ZHOU [verfasserIn]

Format:	E-Artikel
Sprache:	Chinesisch

Erschienen:	2023

Schlagwörter:	shale gas exploration hydraulic fracturing shale bedding fracturing pressure tensile strength extension morphology fracture roughness

Übergeordnetes Werk:	In: Meitan kexue jishu - Editorial Department of Coal Science and Technology, 2022, 51(2023), 11, Seite 119-128
Übergeordnetes Werk:	volume:51 ; year:2023 ; number:11 ; pages:119-128

Links:	Link aufrufen Link aufrufen Link aufrufen Journal toc

DOI / URN:	10.13199/j.cnki.cst.2023-0028

Katalog-ID:	DOAJ100728782

Internformat


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520			\|a Hydraulic fracturing is a common reservoir reconstruction technology in shale gas production. Accurate prediction of hydraulic fracture break pressure is of great significance to on-site fracturing construction. In order to explore the influence mechanism of shale bedding on hydraulic fracturing, taking the black shale in Changning area of Sichuan Province as the research object, the Brazilian splitting tensile strength test of the laminated shale was carried out. The hydraulic fracturing test of shale with different bedding angles was carried out using GCTS rock mechanics testing machine. The extension morphology and the roughness characteristics of the shale fractures were characterized combined with X-ray CT and three-dimensional scanner, and the fracturing pressure in hydraulic fracturing of shale was analyzed. The results shown that, (1) The tensile strength of shale decreased firstly and then increased with the variation of bedding angle, and the obvious anisotropy was exhibited. (2) The bedding had a great influence on the shale fracture pressure, the change of fracturing pressure and tensile strength of shale hydraulic fracturing under different bedding angle shown a similar trend, with the minimum at 30° and the maximum at 90°. (3) The bedding planes had a little influence on fracture extension of hydraulic fracturing, mainly single fracture produced by the tensile failure, and roughness of the fracture surface was higher and independent of the direction of bedding. (4) The existence of the plastic zone in the fractured wellbore was determined by numerical simulation, which also explained the abnormally high fracture pressures observed in the test, and suggested that there was a of hydraulic fracturing. Shales can be completely broken only after a very short time of crack inoculation. Fracture pressure was affected by the certain characteristic length of critical fracture initiation of shale with different bedding angle, and the new model can better predict the fracturing pressure of hydraulic fracturing in shale. The research results are of great significance for understanding the mechanism of fracture initiation and extension in deep shale, and the design of hydraulic fracturing construction.
650		4	\|a shale gas exploration
650		4	\|a hydraulic fracturing
650		4	\|a shale bedding
650		4	\|a fracturing pressure
650		4	\|a tensile strength
650		4	\|a extension morphology
650		4	\|a fracture roughness
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700	0		\|a Xijian LI \|e verfasserin \|4 aut
700	0		\|a Shengyue ZHANG \|e verfasserin \|4 aut
700	0		\|a Lei ZHOU \|e verfasserin \|4 aut
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allfields	10.13199/j.cnki.cst.2023-0028 doi (DE-627)DOAJ100728782 (DE-599)DOAJ756f2513d65a431ea1f87941ed0a7d14 DE-627 ger DE-627 rakwb chi TN1-997 Zhonghui SHEN verfasserin aut Hydraulic fracturing characteristics of laminated shale and its enlightenment to fracture pressure 2023 Text txt rdacontent Computermedien c rdamedia Online-Ressource cr rdacarrier Hydraulic fracturing is a common reservoir reconstruction technology in shale gas production. Accurate prediction of hydraulic fracture break pressure is of great significance to on-site fracturing construction. In order to explore the influence mechanism of shale bedding on hydraulic fracturing, taking the black shale in Changning area of Sichuan Province as the research object, the Brazilian splitting tensile strength test of the laminated shale was carried out. The hydraulic fracturing test of shale with different bedding angles was carried out using GCTS rock mechanics testing machine. The extension morphology and the roughness characteristics of the shale fractures were characterized combined with X-ray CT and three-dimensional scanner, and the fracturing pressure in hydraulic fracturing of shale was analyzed. The results shown that, (1) The tensile strength of shale decreased firstly and then increased with the variation of bedding angle, and the obvious anisotropy was exhibited. (2) The bedding had a great influence on the shale fracture pressure, the change of fracturing pressure and tensile strength of shale hydraulic fracturing under different bedding angle shown a similar trend, with the minimum at 30° and the maximum at 90°. (3) The bedding planes had a little influence on fracture extension of hydraulic fracturing, mainly single fracture produced by the tensile failure, and roughness of the fracture surface was higher and independent of the direction of bedding. (4) The existence of the plastic zone in the fractured wellbore was determined by numerical simulation, which also explained the abnormally high fracture pressures observed in the test, and suggested that there was a of hydraulic fracturing. Shales can be completely broken only after a very short time of crack inoculation. Fracture pressure was affected by the certain characteristic length of critical fracture initiation of shale with different bedding angle, and the new model can better predict the fracturing pressure of hydraulic fracturing in shale. The research results are of great significance for understanding the mechanism of fracture initiation and extension in deep shale, and the design of hydraulic fracturing construction. shale gas exploration hydraulic fracturing shale bedding fracturing pressure tensile strength extension morphology fracture roughness Mining engineering. Metallurgy Lingjian ZHOU verfasserin aut Xijian LI verfasserin aut Shengyue ZHANG verfasserin aut Lei ZHOU verfasserin aut In Meitan kexue jishu Editorial Department of Coal Science and Technology, 2022 51(2023), 11, Seite 119-128 (DE-627)588190470 (DE-600)2469839-8 02532336 nnns volume:51 year:2023 number:11 pages:119-128 https://doi.org/10.13199/j.cnki.cst.2023-0028 kostenfrei https://doaj.org/article/756f2513d65a431ea1f87941ed0a7d14 kostenfrei http://www.mtkxjs.com.cn/article/doi/10.13199/j.cnki.cst.2023-0028 kostenfrei https://doaj.org/toc/0253-2336 Journal toc kostenfrei GBV_USEFLAG_A SYSFLAG_A GBV_DOAJ GBV_ILN_2055 AR 51 2023 11 119-128
spelling	10.13199/j.cnki.cst.2023-0028 doi (DE-627)DOAJ100728782 (DE-599)DOAJ756f2513d65a431ea1f87941ed0a7d14 DE-627 ger DE-627 rakwb chi TN1-997 Zhonghui SHEN verfasserin aut Hydraulic fracturing characteristics of laminated shale and its enlightenment to fracture pressure 2023 Text txt rdacontent Computermedien c rdamedia Online-Ressource cr rdacarrier Hydraulic fracturing is a common reservoir reconstruction technology in shale gas production. Accurate prediction of hydraulic fracture break pressure is of great significance to on-site fracturing construction. In order to explore the influence mechanism of shale bedding on hydraulic fracturing, taking the black shale in Changning area of Sichuan Province as the research object, the Brazilian splitting tensile strength test of the laminated shale was carried out. The hydraulic fracturing test of shale with different bedding angles was carried out using GCTS rock mechanics testing machine. The extension morphology and the roughness characteristics of the shale fractures were characterized combined with X-ray CT and three-dimensional scanner, and the fracturing pressure in hydraulic fracturing of shale was analyzed. The results shown that, (1) The tensile strength of shale decreased firstly and then increased with the variation of bedding angle, and the obvious anisotropy was exhibited. (2) The bedding had a great influence on the shale fracture pressure, the change of fracturing pressure and tensile strength of shale hydraulic fracturing under different bedding angle shown a similar trend, with the minimum at 30° and the maximum at 90°. (3) The bedding planes had a little influence on fracture extension of hydraulic fracturing, mainly single fracture produced by the tensile failure, and roughness of the fracture surface was higher and independent of the direction of bedding. (4) The existence of the plastic zone in the fractured wellbore was determined by numerical simulation, which also explained the abnormally high fracture pressures observed in the test, and suggested that there was a of hydraulic fracturing. Shales can be completely broken only after a very short time of crack inoculation. Fracture pressure was affected by the certain characteristic length of critical fracture initiation of shale with different bedding angle, and the new model can better predict the fracturing pressure of hydraulic fracturing in shale. The research results are of great significance for understanding the mechanism of fracture initiation and extension in deep shale, and the design of hydraulic fracturing construction. shale gas exploration hydraulic fracturing shale bedding fracturing pressure tensile strength extension morphology fracture roughness Mining engineering. Metallurgy Lingjian ZHOU verfasserin aut Xijian LI verfasserin aut Shengyue ZHANG verfasserin aut Lei ZHOU verfasserin aut In Meitan kexue jishu Editorial Department of Coal Science and Technology, 2022 51(2023), 11, Seite 119-128 (DE-627)588190470 (DE-600)2469839-8 02532336 nnns volume:51 year:2023 number:11 pages:119-128 https://doi.org/10.13199/j.cnki.cst.2023-0028 kostenfrei https://doaj.org/article/756f2513d65a431ea1f87941ed0a7d14 kostenfrei http://www.mtkxjs.com.cn/article/doi/10.13199/j.cnki.cst.2023-0028 kostenfrei https://doaj.org/toc/0253-2336 Journal toc kostenfrei GBV_USEFLAG_A SYSFLAG_A GBV_DOAJ GBV_ILN_2055 AR 51 2023 11 119-128
allfields_unstemmed	10.13199/j.cnki.cst.2023-0028 doi (DE-627)DOAJ100728782 (DE-599)DOAJ756f2513d65a431ea1f87941ed0a7d14 DE-627 ger DE-627 rakwb chi TN1-997 Zhonghui SHEN verfasserin aut Hydraulic fracturing characteristics of laminated shale and its enlightenment to fracture pressure 2023 Text txt rdacontent Computermedien c rdamedia Online-Ressource cr rdacarrier Hydraulic fracturing is a common reservoir reconstruction technology in shale gas production. Accurate prediction of hydraulic fracture break pressure is of great significance to on-site fracturing construction. In order to explore the influence mechanism of shale bedding on hydraulic fracturing, taking the black shale in Changning area of Sichuan Province as the research object, the Brazilian splitting tensile strength test of the laminated shale was carried out. The hydraulic fracturing test of shale with different bedding angles was carried out using GCTS rock mechanics testing machine. The extension morphology and the roughness characteristics of the shale fractures were characterized combined with X-ray CT and three-dimensional scanner, and the fracturing pressure in hydraulic fracturing of shale was analyzed. The results shown that, (1) The tensile strength of shale decreased firstly and then increased with the variation of bedding angle, and the obvious anisotropy was exhibited. (2) The bedding had a great influence on the shale fracture pressure, the change of fracturing pressure and tensile strength of shale hydraulic fracturing under different bedding angle shown a similar trend, with the minimum at 30° and the maximum at 90°. (3) The bedding planes had a little influence on fracture extension of hydraulic fracturing, mainly single fracture produced by the tensile failure, and roughness of the fracture surface was higher and independent of the direction of bedding. (4) The existence of the plastic zone in the fractured wellbore was determined by numerical simulation, which also explained the abnormally high fracture pressures observed in the test, and suggested that there was a of hydraulic fracturing. Shales can be completely broken only after a very short time of crack inoculation. Fracture pressure was affected by the certain characteristic length of critical fracture initiation of shale with different bedding angle, and the new model can better predict the fracturing pressure of hydraulic fracturing in shale. The research results are of great significance for understanding the mechanism of fracture initiation and extension in deep shale, and the design of hydraulic fracturing construction. shale gas exploration hydraulic fracturing shale bedding fracturing pressure tensile strength extension morphology fracture roughness Mining engineering. Metallurgy Lingjian ZHOU verfasserin aut Xijian LI verfasserin aut Shengyue ZHANG verfasserin aut Lei ZHOU verfasserin aut In Meitan kexue jishu Editorial Department of Coal Science and Technology, 2022 51(2023), 11, Seite 119-128 (DE-627)588190470 (DE-600)2469839-8 02532336 nnns volume:51 year:2023 number:11 pages:119-128 https://doi.org/10.13199/j.cnki.cst.2023-0028 kostenfrei https://doaj.org/article/756f2513d65a431ea1f87941ed0a7d14 kostenfrei http://www.mtkxjs.com.cn/article/doi/10.13199/j.cnki.cst.2023-0028 kostenfrei https://doaj.org/toc/0253-2336 Journal toc kostenfrei GBV_USEFLAG_A SYSFLAG_A GBV_DOAJ GBV_ILN_2055 AR 51 2023 11 119-128
allfieldsGer	10.13199/j.cnki.cst.2023-0028 doi (DE-627)DOAJ100728782 (DE-599)DOAJ756f2513d65a431ea1f87941ed0a7d14 DE-627 ger DE-627 rakwb chi TN1-997 Zhonghui SHEN verfasserin aut Hydraulic fracturing characteristics of laminated shale and its enlightenment to fracture pressure 2023 Text txt rdacontent Computermedien c rdamedia Online-Ressource cr rdacarrier Hydraulic fracturing is a common reservoir reconstruction technology in shale gas production. Accurate prediction of hydraulic fracture break pressure is of great significance to on-site fracturing construction. In order to explore the influence mechanism of shale bedding on hydraulic fracturing, taking the black shale in Changning area of Sichuan Province as the research object, the Brazilian splitting tensile strength test of the laminated shale was carried out. The hydraulic fracturing test of shale with different bedding angles was carried out using GCTS rock mechanics testing machine. The extension morphology and the roughness characteristics of the shale fractures were characterized combined with X-ray CT and three-dimensional scanner, and the fracturing pressure in hydraulic fracturing of shale was analyzed. The results shown that, (1) The tensile strength of shale decreased firstly and then increased with the variation of bedding angle, and the obvious anisotropy was exhibited. (2) The bedding had a great influence on the shale fracture pressure, the change of fracturing pressure and tensile strength of shale hydraulic fracturing under different bedding angle shown a similar trend, with the minimum at 30° and the maximum at 90°. (3) The bedding planes had a little influence on fracture extension of hydraulic fracturing, mainly single fracture produced by the tensile failure, and roughness of the fracture surface was higher and independent of the direction of bedding. (4) The existence of the plastic zone in the fractured wellbore was determined by numerical simulation, which also explained the abnormally high fracture pressures observed in the test, and suggested that there was a of hydraulic fracturing. Shales can be completely broken only after a very short time of crack inoculation. Fracture pressure was affected by the certain characteristic length of critical fracture initiation of shale with different bedding angle, and the new model can better predict the fracturing pressure of hydraulic fracturing in shale. The research results are of great significance for understanding the mechanism of fracture initiation and extension in deep shale, and the design of hydraulic fracturing construction. shale gas exploration hydraulic fracturing shale bedding fracturing pressure tensile strength extension morphology fracture roughness Mining engineering. Metallurgy Lingjian ZHOU verfasserin aut Xijian LI verfasserin aut Shengyue ZHANG verfasserin aut Lei ZHOU verfasserin aut In Meitan kexue jishu Editorial Department of Coal Science and Technology, 2022 51(2023), 11, Seite 119-128 (DE-627)588190470 (DE-600)2469839-8 02532336 nnns volume:51 year:2023 number:11 pages:119-128 https://doi.org/10.13199/j.cnki.cst.2023-0028 kostenfrei https://doaj.org/article/756f2513d65a431ea1f87941ed0a7d14 kostenfrei http://www.mtkxjs.com.cn/article/doi/10.13199/j.cnki.cst.2023-0028 kostenfrei https://doaj.org/toc/0253-2336 Journal toc kostenfrei GBV_USEFLAG_A SYSFLAG_A GBV_DOAJ GBV_ILN_2055 AR 51 2023 11 119-128
allfieldsSound	10.13199/j.cnki.cst.2023-0028 doi (DE-627)DOAJ100728782 (DE-599)DOAJ756f2513d65a431ea1f87941ed0a7d14 DE-627 ger DE-627 rakwb chi TN1-997 Zhonghui SHEN verfasserin aut Hydraulic fracturing characteristics of laminated shale and its enlightenment to fracture pressure 2023 Text txt rdacontent Computermedien c rdamedia Online-Ressource cr rdacarrier Hydraulic fracturing is a common reservoir reconstruction technology in shale gas production. Accurate prediction of hydraulic fracture break pressure is of great significance to on-site fracturing construction. In order to explore the influence mechanism of shale bedding on hydraulic fracturing, taking the black shale in Changning area of Sichuan Province as the research object, the Brazilian splitting tensile strength test of the laminated shale was carried out. The hydraulic fracturing test of shale with different bedding angles was carried out using GCTS rock mechanics testing machine. The extension morphology and the roughness characteristics of the shale fractures were characterized combined with X-ray CT and three-dimensional scanner, and the fracturing pressure in hydraulic fracturing of shale was analyzed. The results shown that, (1) The tensile strength of shale decreased firstly and then increased with the variation of bedding angle, and the obvious anisotropy was exhibited. (2) The bedding had a great influence on the shale fracture pressure, the change of fracturing pressure and tensile strength of shale hydraulic fracturing under different bedding angle shown a similar trend, with the minimum at 30° and the maximum at 90°. (3) The bedding planes had a little influence on fracture extension of hydraulic fracturing, mainly single fracture produced by the tensile failure, and roughness of the fracture surface was higher and independent of the direction of bedding. (4) The existence of the plastic zone in the fractured wellbore was determined by numerical simulation, which also explained the abnormally high fracture pressures observed in the test, and suggested that there was a of hydraulic fracturing. Shales can be completely broken only after a very short time of crack inoculation. Fracture pressure was affected by the certain characteristic length of critical fracture initiation of shale with different bedding angle, and the new model can better predict the fracturing pressure of hydraulic fracturing in shale. The research results are of great significance for understanding the mechanism of fracture initiation and extension in deep shale, and the design of hydraulic fracturing construction. shale gas exploration hydraulic fracturing shale bedding fracturing pressure tensile strength extension morphology fracture roughness Mining engineering. Metallurgy Lingjian ZHOU verfasserin aut Xijian LI verfasserin aut Shengyue ZHANG verfasserin aut Lei ZHOU verfasserin aut In Meitan kexue jishu Editorial Department of Coal Science and Technology, 2022 51(2023), 11, Seite 119-128 (DE-627)588190470 (DE-600)2469839-8 02532336 nnns volume:51 year:2023 number:11 pages:119-128 https://doi.org/10.13199/j.cnki.cst.2023-0028 kostenfrei https://doaj.org/article/756f2513d65a431ea1f87941ed0a7d14 kostenfrei http://www.mtkxjs.com.cn/article/doi/10.13199/j.cnki.cst.2023-0028 kostenfrei https://doaj.org/toc/0253-2336 Journal toc kostenfrei GBV_USEFLAG_A SYSFLAG_A GBV_DOAJ GBV_ILN_2055 AR 51 2023 11 119-128
language	Chinese
source	In Meitan kexue jishu 51(2023), 11, Seite 119-128 volume:51 year:2023 number:11 pages:119-128
sourceStr	In Meitan kexue jishu 51(2023), 11, Seite 119-128 volume:51 year:2023 number:11 pages:119-128
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topic_facet	shale gas exploration hydraulic fracturing shale bedding fracturing pressure tensile strength extension morphology fracture roughness Mining engineering. Metallurgy
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authorswithroles_txt_mv	Zhonghui SHEN @@aut@@ Lingjian ZHOU @@aut@@ Xijian LI @@aut@@ Shengyue ZHANG @@aut@@ Lei ZHOU @@aut@@
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Accurate prediction of hydraulic fracture break pressure is of great significance to on-site fracturing construction. In order to explore the influence mechanism of shale bedding on hydraulic fracturing, taking the black shale in Changning area of Sichuan Province as the research object, the Brazilian splitting tensile strength test of the laminated shale was carried out. The hydraulic fracturing test of shale with different bedding angles was carried out using GCTS rock mechanics testing machine. The extension morphology and the roughness characteristics of the shale fractures were characterized combined with X-ray CT and three-dimensional scanner, and the fracturing pressure in hydraulic fracturing of shale was analyzed. The results shown that, (1) The tensile strength of shale decreased firstly and then increased with the variation of bedding angle, and the obvious anisotropy was exhibited. (2) The bedding had a great influence on the shale fracture pressure, the change of fracturing pressure and tensile strength of shale hydraulic fracturing under different bedding angle shown a similar trend, with the minimum at 30° and the maximum at 90°. (3) The bedding planes had a little influence on fracture extension of hydraulic fracturing, mainly single fracture produced by the tensile failure, and roughness of the fracture surface was higher and independent of the direction of bedding. (4) The existence of the plastic zone in the fractured wellbore was determined by numerical simulation, which also explained the abnormally high fracture pressures observed in the test, and suggested that there was a of hydraulic fracturing. Shales can be completely broken only after a very short time of crack inoculation. Fracture pressure was affected by the certain characteristic length of critical fracture initiation of shale with different bedding angle, and the new model can better predict the fracturing pressure of hydraulic fracturing in shale. 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callnumber-first	T - Technology
author	Zhonghui SHEN
spellingShingle	Zhonghui SHEN misc TN1-997 misc shale gas exploration misc hydraulic fracturing misc shale bedding misc fracturing pressure misc tensile strength misc extension morphology misc fracture roughness misc Mining engineering. Metallurgy Hydraulic fracturing characteristics of laminated shale and its enlightenment to fracture pressure
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topic_title	TN1-997 Hydraulic fracturing characteristics of laminated shale and its enlightenment to fracture pressure shale gas exploration hydraulic fracturing shale bedding fracturing pressure tensile strength extension morphology fracture roughness
topic	misc TN1-997 misc shale gas exploration misc hydraulic fracturing misc shale bedding misc fracturing pressure misc tensile strength misc extension morphology misc fracture roughness misc Mining engineering. Metallurgy
topic_unstemmed	misc TN1-997 misc shale gas exploration misc hydraulic fracturing misc shale bedding misc fracturing pressure misc tensile strength misc extension morphology misc fracture roughness misc Mining engineering. Metallurgy
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title	Hydraulic fracturing characteristics of laminated shale and its enlightenment to fracture pressure
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title_full	Hydraulic fracturing characteristics of laminated shale and its enlightenment to fracture pressure
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title_sort	hydraulic fracturing characteristics of laminated shale and its enlightenment to fracture pressure
callnumber	TN1-997
title_auth	Hydraulic fracturing characteristics of laminated shale and its enlightenment to fracture pressure
abstract	Hydraulic fracturing is a common reservoir reconstruction technology in shale gas production. Accurate prediction of hydraulic fracture break pressure is of great significance to on-site fracturing construction. In order to explore the influence mechanism of shale bedding on hydraulic fracturing, taking the black shale in Changning area of Sichuan Province as the research object, the Brazilian splitting tensile strength test of the laminated shale was carried out. The hydraulic fracturing test of shale with different bedding angles was carried out using GCTS rock mechanics testing machine. The extension morphology and the roughness characteristics of the shale fractures were characterized combined with X-ray CT and three-dimensional scanner, and the fracturing pressure in hydraulic fracturing of shale was analyzed. The results shown that, (1) The tensile strength of shale decreased firstly and then increased with the variation of bedding angle, and the obvious anisotropy was exhibited. (2) The bedding had a great influence on the shale fracture pressure, the change of fracturing pressure and tensile strength of shale hydraulic fracturing under different bedding angle shown a similar trend, with the minimum at 30° and the maximum at 90°. (3) The bedding planes had a little influence on fracture extension of hydraulic fracturing, mainly single fracture produced by the tensile failure, and roughness of the fracture surface was higher and independent of the direction of bedding. (4) The existence of the plastic zone in the fractured wellbore was determined by numerical simulation, which also explained the abnormally high fracture pressures observed in the test, and suggested that there was a of hydraulic fracturing. Shales can be completely broken only after a very short time of crack inoculation. Fracture pressure was affected by the certain characteristic length of critical fracture initiation of shale with different bedding angle, and the new model can better predict the fracturing pressure of hydraulic fracturing in shale. The research results are of great significance for understanding the mechanism of fracture initiation and extension in deep shale, and the design of hydraulic fracturing construction.
abstractGer	Hydraulic fracturing is a common reservoir reconstruction technology in shale gas production. Accurate prediction of hydraulic fracture break pressure is of great significance to on-site fracturing construction. In order to explore the influence mechanism of shale bedding on hydraulic fracturing, taking the black shale in Changning area of Sichuan Province as the research object, the Brazilian splitting tensile strength test of the laminated shale was carried out. The hydraulic fracturing test of shale with different bedding angles was carried out using GCTS rock mechanics testing machine. The extension morphology and the roughness characteristics of the shale fractures were characterized combined with X-ray CT and three-dimensional scanner, and the fracturing pressure in hydraulic fracturing of shale was analyzed. The results shown that, (1) The tensile strength of shale decreased firstly and then increased with the variation of bedding angle, and the obvious anisotropy was exhibited. (2) The bedding had a great influence on the shale fracture pressure, the change of fracturing pressure and tensile strength of shale hydraulic fracturing under different bedding angle shown a similar trend, with the minimum at 30° and the maximum at 90°. (3) The bedding planes had a little influence on fracture extension of hydraulic fracturing, mainly single fracture produced by the tensile failure, and roughness of the fracture surface was higher and independent of the direction of bedding. (4) The existence of the plastic zone in the fractured wellbore was determined by numerical simulation, which also explained the abnormally high fracture pressures observed in the test, and suggested that there was a of hydraulic fracturing. Shales can be completely broken only after a very short time of crack inoculation. Fracture pressure was affected by the certain characteristic length of critical fracture initiation of shale with different bedding angle, and the new model can better predict the fracturing pressure of hydraulic fracturing in shale. The research results are of great significance for understanding the mechanism of fracture initiation and extension in deep shale, and the design of hydraulic fracturing construction.
abstract_unstemmed	Hydraulic fracturing is a common reservoir reconstruction technology in shale gas production. Accurate prediction of hydraulic fracture break pressure is of great significance to on-site fracturing construction. In order to explore the influence mechanism of shale bedding on hydraulic fracturing, taking the black shale in Changning area of Sichuan Province as the research object, the Brazilian splitting tensile strength test of the laminated shale was carried out. The hydraulic fracturing test of shale with different bedding angles was carried out using GCTS rock mechanics testing machine. The extension morphology and the roughness characteristics of the shale fractures were characterized combined with X-ray CT and three-dimensional scanner, and the fracturing pressure in hydraulic fracturing of shale was analyzed. The results shown that, (1) The tensile strength of shale decreased firstly and then increased with the variation of bedding angle, and the obvious anisotropy was exhibited. (2) The bedding had a great influence on the shale fracture pressure, the change of fracturing pressure and tensile strength of shale hydraulic fracturing under different bedding angle shown a similar trend, with the minimum at 30° and the maximum at 90°. (3) The bedding planes had a little influence on fracture extension of hydraulic fracturing, mainly single fracture produced by the tensile failure, and roughness of the fracture surface was higher and independent of the direction of bedding. (4) The existence of the plastic zone in the fractured wellbore was determined by numerical simulation, which also explained the abnormally high fracture pressures observed in the test, and suggested that there was a of hydraulic fracturing. Shales can be completely broken only after a very short time of crack inoculation. Fracture pressure was affected by the certain characteristic length of critical fracture initiation of shale with different bedding angle, and the new model can better predict the fracturing pressure of hydraulic fracturing in shale. The research results are of great significance for understanding the mechanism of fracture initiation and extension in deep shale, and the design of hydraulic fracturing construction.
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title_short	Hydraulic fracturing characteristics of laminated shale and its enlightenment to fracture pressure
url	https://doi.org/10.13199/j.cnki.cst.2023-0028 https://doaj.org/article/756f2513d65a431ea1f87941ed0a7d14 http://www.mtkxjs.com.cn/article/doi/10.13199/j.cnki.cst.2023-0028 https://doaj.org/toc/0253-2336
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