Characterization of Coal Micro-Pore Structure and Simulation on the Seepage Rules of Low-Pressure Water Based on CT Scanning Data

Characterization of Coal Micro-Pore Structure and Simulation on the Seepage Rules of Low-Pressure Water Based on CT Scanning Data

This paper used the X-ray three-dimensional (3D) microscope and acquired, through CT scanning, the 3D data of the long-frame coal sample from the Daliuta Coal Mine. Then, the 3D datacube reconstructed from the coal’s CT scanning data was visualized with the use of Avizo, an advanced visualization so...

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Main Authors: Gang Zhou, Qi Zhang, Ruonan Bai, Guanhua Ni
Format: Article
Language:English
Published: MDPI AG 2016-07-01
Series:Minerals
Subjects:
CT
coal microscopic structure model
pores and throats
visualization of three-dimensional (3D) data cube
seepage simulation of water-injection
Online Access:http://www.mdpi.com/2075-163X/6/3/78
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spelling doaj-854c7dbc888b4f3a9a20754f29ffd55e2020-11-24T21:06:41ZengMDPI AGMinerals2075-163X2016-07-01637810.3390/min6030078min6030078Characterization of Coal Micro-Pore Structure and Simulation on the Seepage Rules of Low-Pressure Water Based on CT Scanning DataGang Zhou0Qi Zhang1Ruonan Bai2Guanhua Ni3State Key Laboratory of Mining Disaster Prevention and Control Co-founded by Shandong Province and the Ministry of Science and Technology, Shandong University of Science and Technology, Qingdao 266590, ChinaState Key Laboratory of Mining Disaster Prevention and Control Co-founded by Shandong Province and the Ministry of Science and Technology, Shandong University of Science and Technology, Qingdao 266590, ChinaState Key Laboratory of Mining Disaster Prevention and Control Co-founded by Shandong Province and the Ministry of Science and Technology, Shandong University of Science and Technology, Qingdao 266590, ChinaState Key Laboratory of Mining Disaster Prevention and Control Co-founded by Shandong Province and the Ministry of Science and Technology, Shandong University of Science and Technology, Qingdao 266590, ChinaThis paper used the X-ray three-dimensional (3D) microscope and acquired, through CT scanning, the 3D data of the long-frame coal sample from the Daliuta Coal Mine. Then, the 3D datacube reconstructed from the coal’s CT scanning data was visualized with the use of Avizo, an advanced visualization software (FEI, Hillsboro, OR, USA). By means of a gray-scale segmentation technique, the model of the coal’s micro-pore structure was extracted from the object region, and the precise characterization was then conducted. Finally, the numerical simulation on the water seepage characteristics in the coal micro-pores model under the pressure of 3 MPa was performed on the CFX platform. Results show that the seepage of low-pressure water exhibited preference to the channels with large pore radii, short paths, and short distance from the outlet. The seepage pressure of low-pressure water decreased gradually along the seepage direction, while the seepage velocity of low-pressure water decreased gradually along the direction from the pore center to the wall. Regarding the single-channel seepage behaviors, the seepage velocity and mass flow rate of water seepage in the X direction were the largest, followed by the values of the seepage in the Y direction, and the seepage velocity and mass flow rate of water seepage in the Z direction were the smallest. Compared with the results in single-channel seepage, the dual-channel seepage in the direction of (X + Y) and the multi-channel seepage in the direction of (X + Y + Z) exhibited significant increases in the overall seepage velocity. The present study extends the application of 3D CT scanning data and provides a new idea and approach for exploring the seepage rules in coal micro-pore structures.http://www.mdpi.com/2075-163X/6/3/78CTcoal microscopic structure modelpores and throatsvisualization of three-dimensional (3D) data cubeseepage simulation of water-injection
collection DOAJ
language English
format Article
sources DOAJ
author Gang Zhou
Qi Zhang
Ruonan Bai
Guanhua Ni
spellingShingle Gang Zhou
Qi Zhang
Ruonan Bai
Guanhua Ni
Characterization of Coal Micro-Pore Structure and Simulation on the Seepage Rules of Low-Pressure Water Based on CT Scanning Data
Minerals
CT
coal microscopic structure model
pores and throats
visualization of three-dimensional (3D) data cube
seepage simulation of water-injection
author_facet Gang Zhou
Qi Zhang
Ruonan Bai
Guanhua Ni
author_sort Gang Zhou
title Characterization of Coal Micro-Pore Structure and Simulation on the Seepage Rules of Low-Pressure Water Based on CT Scanning Data
title_short Characterization of Coal Micro-Pore Structure and Simulation on the Seepage Rules of Low-Pressure Water Based on CT Scanning Data
title_full Characterization of Coal Micro-Pore Structure and Simulation on the Seepage Rules of Low-Pressure Water Based on CT Scanning Data
title_fullStr Characterization of Coal Micro-Pore Structure and Simulation on the Seepage Rules of Low-Pressure Water Based on CT Scanning Data
title_full_unstemmed Characterization of Coal Micro-Pore Structure and Simulation on the Seepage Rules of Low-Pressure Water Based on CT Scanning Data
title_sort characterization of coal micro-pore structure and simulation on the seepage rules of low-pressure water based on ct scanning data
publisher MDPI AG
series Minerals
issn 2075-163X
publishDate 2016-07-01
description This paper used the X-ray three-dimensional (3D) microscope and acquired, through CT scanning, the 3D data of the long-frame coal sample from the Daliuta Coal Mine. Then, the 3D datacube reconstructed from the coal’s CT scanning data was visualized with the use of Avizo, an advanced visualization software (FEI, Hillsboro, OR, USA). By means of a gray-scale segmentation technique, the model of the coal’s micro-pore structure was extracted from the object region, and the precise characterization was then conducted. Finally, the numerical simulation on the water seepage characteristics in the coal micro-pores model under the pressure of 3 MPa was performed on the CFX platform. Results show that the seepage of low-pressure water exhibited preference to the channels with large pore radii, short paths, and short distance from the outlet. The seepage pressure of low-pressure water decreased gradually along the seepage direction, while the seepage velocity of low-pressure water decreased gradually along the direction from the pore center to the wall. Regarding the single-channel seepage behaviors, the seepage velocity and mass flow rate of water seepage in the X direction were the largest, followed by the values of the seepage in the Y direction, and the seepage velocity and mass flow rate of water seepage in the Z direction were the smallest. Compared with the results in single-channel seepage, the dual-channel seepage in the direction of (X + Y) and the multi-channel seepage in the direction of (X + Y + Z) exhibited significant increases in the overall seepage velocity. The present study extends the application of 3D CT scanning data and provides a new idea and approach for exploring the seepage rules in coal micro-pore structures.
topic CT
coal microscopic structure model
pores and throats
visualization of three-dimensional (3D) data cube
seepage simulation of water-injection
url http://www.mdpi.com/2075-163X/6/3/78
work_keys_str_mv AT gangzhou characterizationofcoalmicroporestructureandsimulationontheseepagerulesoflowpressurewaterbasedonctscanningdata
AT qizhang characterizationofcoalmicroporestructureandsimulationontheseepagerulesoflowpressurewaterbasedonctscanningdata
AT ruonanbai characterizationofcoalmicroporestructureandsimulationontheseepagerulesoflowpressurewaterbasedonctscanningdata
AT guanhuani characterizationofcoalmicroporestructureandsimulationontheseepagerulesoflowpressurewaterbasedonctscanningdata
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