Spatial Feature of Jurassic Sandstone Permeability Based on Pumping Test

Zai Bin Liu

doi:10.4028/www.scientific.net/AMR.726-731.3283

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Low-Flow Runoff Prediction Using the Grey Self-Memory Model
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Prediction of Rainfall in Da-Dong-Yong Hydrologic Station Based on Wavelet Neural Network
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Spatial Feature of Jurassic Sandstone Permeability Based on Pumping Test
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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 726-731Spatial Feature of Jurassic Sandstone Permeability...

Spatial Feature of Jurassic Sandstone Permeability Based on Pumping Test

Abstract:

In order to plan mining areas, design coal mines in Jurassic coal field, Jurassic sandstone water should be controlled. Spatial feature of Jurassic sandstone permeability should be studied. Pumping test data of a coal mine in Ulugkhemsky coal field in Russia were collected to study spatial feature of Jurassic sandstone on Plane characteristics and vertical characteristics. The result indicates that permeability coefficients near the river and alluvium deposit area are higher than that of normal formation area. Sandstone permeability coefficients decrease with distances to the river increase and buried depths increase. Permeability-Buried Depth fitting equation was established to predict Jurassic permeability coefficients of different depth in normal formation area.

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Periodical:

Advanced Materials Research (Volumes 726-731)

Pages:

3283-3288

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.726-731.3283

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Online since:

August 2013

Authors:

Zai Bin Liu

Keywords:

Jurassic Sandstone, Permeability Coefficient, Pumping Test

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References

[1] Zhang Hong, Jin Xianglan etc. Comparison of coalfields and coal-mining geological conditions of the main coal-producing countries in the world [J]. Coal Geology & Exploration. 35(6), 2007 1-9.

Google Scholar

[2] SL320-2005, Code of pumping test in borehole for water resources and hydropower engineering [S].

Google Scholar

[3] Du Xin, Zeng Yawu etc. Research on permeability coefficient of rock mass based on underwater pumping test and its applicaiont. Chinese Journal of Rock Mechanics and Engineering. 29(Supp.2), 2010 3542-3548.

Google Scholar

[4] Wang Xinfeng, Liang Xing etc. A new method of hydraulic conductivity calculating and analysis by water pressure test in layered rock. Hydrogeology & Engineering Geology. 38(1), 2011 46-52.

Google Scholar

[5] Zhong Jiagao, Liang Xing etc. Study on permeability of rock mass at guandi hydropower station using fractal theory. Journal of Engineering Geology, 16(supp.1) 2008 551-555.

Google Scholar