Field Investigation of Hydraulic Fracturing in Coal Seams and Its Enhancement for Methane Extraction in the Southeast Sichuan Basin, China

Field Investigation of Hydraulic Fracturing in Coal Seams and Its Enhancement for Methane Extraction in the Southeast Sichuan Basin, China

Hydraulic fracturing is an effective technology for enhancing the extraction of reservoir methane, as proved by field experience and laboratory experiments. However, unlike conventional reservoirs, coal seams had high stress sensitivity and high anisotropy. Therefore, the efficiency of hydraulic fra...

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Main Authors: Zuxun Zhang, Hongtu Wang, Bozhi Deng, Minghui Li, Dongming Zhang
Format: Article
Language:English
Published: MDPI AG 2018-12-01
Series:Energies
Subjects:
hydraulic fracturing
coal seam methane
field investigation
methane extraction
methane enrichment circle
Online Access:https://www.mdpi.com/1996-1073/11/12/3451
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spelling doaj-9451b614cc5348e285dfa24e0c3e57722020-11-24T21:28:24ZengMDPI AGEnergies1996-10732018-12-011112345110.3390/en11123451en11123451Field Investigation of Hydraulic Fracturing in Coal Seams and Its Enhancement for Methane Extraction in the Southeast Sichuan Basin, ChinaZuxun Zhang0Hongtu Wang1Bozhi Deng2Minghui Li3Dongming Zhang4State Key Laboratory of Coal Mine Disaster Dynamics and Control, Chongqing University, Chongqing 400030, ChinaState Key Laboratory of Coal Mine Disaster Dynamics and Control, Chongqing University, Chongqing 400030, ChinaState Key Laboratory of Coal Mine Disaster Dynamics and Control, Chongqing University, Chongqing 400030, ChinaState Key Laboratory of Coal Mine Disaster Dynamics and Control, Chongqing University, Chongqing 400030, ChinaState Key Laboratory of Coal Mine Disaster Dynamics and Control, Chongqing University, Chongqing 400030, ChinaHydraulic fracturing is an effective technology for enhancing the extraction of reservoir methane, as proved by field experience and laboratory experiments. However, unlike conventional reservoirs, coal seams had high stress sensitivity and high anisotropy. Therefore, the efficiency of hydraulic fracturing in coal seams needs to be investigated. In this study, hydraulic fracturing was performed at Nantong mine in the southeast Sichuan basin, China. The field investigation indicated that the hydraulic fracturing could significantly enhance the methane extraction rate of boreholes ten times higher than that of normal boreholes in one of the minable coal seams (named #5 coal seam). The performance of hydraulic fracturing in three districts revealed that compared with south flank, the fluid pressure was higher and the injection rate was lower in north flank. The methane extraction rate of south flank was inferior to that of north flank. It indicated hydraulic fracturing had less effect on #5 coal seam in south flank. Moreover, the injection of high-pressure water in coal seams could also drive methane away from boreholes. The methane extraction rate of the test boreholes demonstrated the existence of methane enrichment circles after hydraulic fracturing. It indicated that hydraulic fracturing did act on #5 coal seam in south flank. However, due to the high stress sensitivity of coal seams and the high geo-stress of south flank, the induced artificial fractures in #5 coal seam might close with the decline of the fluid pressure that led to a sharp decline of the methane extraction rate.https://www.mdpi.com/1996-1073/11/12/3451hydraulic fracturingcoal seam methanefield investigationmethane extractionmethane enrichment circle
collection DOAJ
language English
format Article
sources DOAJ
author Zuxun Zhang
Hongtu Wang
Bozhi Deng
Minghui Li
Dongming Zhang
spellingShingle Zuxun Zhang
Hongtu Wang
Bozhi Deng
Minghui Li
Dongming Zhang
Field Investigation of Hydraulic Fracturing in Coal Seams and Its Enhancement for Methane Extraction in the Southeast Sichuan Basin, China
Energies
hydraulic fracturing
coal seam methane
field investigation
methane extraction
methane enrichment circle
author_facet Zuxun Zhang
Hongtu Wang
Bozhi Deng
Minghui Li
Dongming Zhang
author_sort Zuxun Zhang
title Field Investigation of Hydraulic Fracturing in Coal Seams and Its Enhancement for Methane Extraction in the Southeast Sichuan Basin, China
title_short Field Investigation of Hydraulic Fracturing in Coal Seams and Its Enhancement for Methane Extraction in the Southeast Sichuan Basin, China
title_full Field Investigation of Hydraulic Fracturing in Coal Seams and Its Enhancement for Methane Extraction in the Southeast Sichuan Basin, China
title_fullStr Field Investigation of Hydraulic Fracturing in Coal Seams and Its Enhancement for Methane Extraction in the Southeast Sichuan Basin, China
title_full_unstemmed Field Investigation of Hydraulic Fracturing in Coal Seams and Its Enhancement for Methane Extraction in the Southeast Sichuan Basin, China
title_sort field investigation of hydraulic fracturing in coal seams and its enhancement for methane extraction in the southeast sichuan basin, china
publisher MDPI AG
series Energies
issn 1996-1073
publishDate 2018-12-01
description Hydraulic fracturing is an effective technology for enhancing the extraction of reservoir methane, as proved by field experience and laboratory experiments. However, unlike conventional reservoirs, coal seams had high stress sensitivity and high anisotropy. Therefore, the efficiency of hydraulic fracturing in coal seams needs to be investigated. In this study, hydraulic fracturing was performed at Nantong mine in the southeast Sichuan basin, China. The field investigation indicated that the hydraulic fracturing could significantly enhance the methane extraction rate of boreholes ten times higher than that of normal boreholes in one of the minable coal seams (named #5 coal seam). The performance of hydraulic fracturing in three districts revealed that compared with south flank, the fluid pressure was higher and the injection rate was lower in north flank. The methane extraction rate of south flank was inferior to that of north flank. It indicated hydraulic fracturing had less effect on #5 coal seam in south flank. Moreover, the injection of high-pressure water in coal seams could also drive methane away from boreholes. The methane extraction rate of the test boreholes demonstrated the existence of methane enrichment circles after hydraulic fracturing. It indicated that hydraulic fracturing did act on #5 coal seam in south flank. However, due to the high stress sensitivity of coal seams and the high geo-stress of south flank, the induced artificial fractures in #5 coal seam might close with the decline of the fluid pressure that led to a sharp decline of the methane extraction rate.
topic hydraulic fracturing
coal seam methane
field investigation
methane extraction
methane enrichment circle
url https://www.mdpi.com/1996-1073/11/12/3451
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AT hongtuwang fieldinvestigationofhydraulicfracturingincoalseamsanditsenhancementformethaneextractioninthesoutheastsichuanbasinchina
AT bozhideng fieldinvestigationofhydraulicfracturingincoalseamsanditsenhancementformethaneextractioninthesoutheastsichuanbasinchina
AT minghuili fieldinvestigationofhydraulicfracturingincoalseamsanditsenhancementformethaneextractioninthesoutheastsichuanbasinchina
AT dongmingzhang fieldinvestigationofhydraulicfracturingincoalseamsanditsenhancementformethaneextractioninthesoutheastsichuanbasinchina
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