Author
Listed:
- Zhengyi Ti
- Feng Zhang
- Jin Pan
- Xiaofei Ma
- Zheng Shang
Abstract
To solve the hidden danger of high methane and low permeability gas in the coal mining process, potentially affecting the safety production in an orderly way, we propose the use of deep hole blasting technology to improve the permeability of the coal seam gas drainage, increase the quantity and rate of extraction, and reduce methane output. Taking the geological conditions of the 201 working surface of Tingnan Coal Mine as an example, it is calculated that the single drilled fracture crack extension range is 3.11~5.24 m according to the coal seam deep-hole pre-splitting blasting joint mechanism and fracture propagation mechanics model, providing a theoretical basis for choosing the appropriate hole spacing. Using COMSOL simulation software to simulate the effective gas drainage radius of a coal seam from a two-dimensional perspective on a single borehole radial, the least squares fitting method was used to analyze the simulated data, and obtained the effective drilling extraction radius after pre-split blasting in a deep hole that is 3.6 m, which is in accordance with the theoretical calculations. In order to obtain accurate and scientific calculations, Fast lagrangian analysis of continua (FLAC3D) numerical simulation software was used. After simulating the distribution of plastic zone between two blast holes at different intervals from a three-dimensional angle, and evaluating the development of cracks in the blasting hole, the white zone of the blasting space was completely eliminated when the interval between blasting holes was 7 m, and the cracks could be propagated throughout the surroundings. Therefore, a blasting hole spacing of 7 m is optimal. On-site monitoring in the Nanting coal mine showed that the quantity and rate of extraction of the single hole after pre-splitting blasting were 2.36 times and 1.62 times as much as before. By integrating the borehole drainage amount and the optimized calculation equation, it could be concluded that the permeability coefficient of the coal seam after blasting was 7.78 times as much as before. The function of time-variated drilling methane emission was obtained using multivariate statistical regressions based on the on-site monitored borehole methane emission (qt), and the drilling limit after pre-splitting blasting revealed that the limitation of methane extraction volume was 5.27 times as much as before.
Suggested Citation
Zhengyi Ti & Feng Zhang & Jin Pan & Xiaofei Ma & Zheng Shang, 2018.
"Permeability enhancement of deep hole pre-splitting blasting in the low permeability coal seam of the Nanting coal mine,"
PLOS ONE, Public Library of Science, vol. 13(6), pages 1-16, June.
Handle:
RePEc:plo:pone00:0199835
DOI: 10.1371/journal.pone.0199835
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Citations
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Cited by:
- Xiong Ding & Cheng Zhai & Jizhao Xu & Xu Yu & Yong Sun, 2022.
"Study on Coal Seepage Characteristics and Secondary Enhanced Gas Extraction Technology under Dual Stress Disturbance,"
Sustainability, MDPI, vol. 14(22), pages 1-18, November.
- Zebiao Jiang & Xiping Quan & Shixiang Tian & Hao Liu & Yaling Guo & Xiangxiang Fu & Xifa Yang, 2022.
"Permeability-Enhancing Technology through Liquid CO 2 Fracturing and Its Application,"
Sustainability, MDPI, vol. 14(16), pages 1-23, August.
- Haojun Wu & Min Gong & Xiaodong Wu & Yang Guo, 2022.
"Effect and Response of Coal and Rock Media Conditions on Deep-Hole Pre-Splitting Blasting Techniques for Gas Drainage,"
Energies, MDPI, vol. 15(22), pages 1-17, November.
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