Your search keyword '"He Yunlan"' showing total 3 results

1. Analysis of water chemical characteristics and application around large opencast coal mines in grassland: a case study of the North Power Shengli coal mine

Author

Peng Suping, Xing Zhenguo, Chong Shan, Feng Feisheng, He Yunlan, and Du Wenfeng

Subjects

geography, geography.geographical_feature_category, Mining engineering, business.industry, Coal mining, Environmental science, business, Grassland

Published

2019

2. Cimas con gas de filones de carbón: litología e influencia en el enriquecimiento de metano en capas de carbón

Author

Dongjing Xu, Wang Xikai, Hongjie Sun, Feng Feisheng, He Yunlan, Chong Shan, and Xing Zhenguo

Subjects

010504 meteorology & atmospheric sciences, Coalbed methane, Lithology, carbón metano, 0211 other engineering and technologies, Borehole, 02 engineering and technology, 01 natural sciences, Seismic wave, Rock petrophysics, 021108 energy, Siltstone, Petrology, Roof, enriquecimiento, 0105 earth and related environmental sciences, petrofísica de roca, business.industry, Petrophysics, Coal mining, litología, baja frecuencia, Enrichment, General Earth and Planetary Sciences, business, Low frequency, Geology

Abstract

To identify the lithology of coal seam roof and explore the influence of these roofs on the enrichment of coalbed methane, low-frequency rock petrophysics experiments, seismic analyses and gas-bearing trend analyses were performed. The results show that the sound wave propagation speed in rock at seismic frequencies was lower than that at ultrasound frequencies. Additionally, the P-wave velocities of gritstone, fine sandstone, argillaceous siltstone and mudstone were 1,651 m/s, 2,840 m/s, 3,191 m/s and 4,214 m/s, respectively. The surface properties of the coal seam roofs were extracted through 3D seismic wave impedance inversion. The theoretical P-wave impedance was calculated after the tested P-wave velocity was determined. By matching the theoretical P-wave impedance of the four types of rocks with that of the coal seam roofs, we identified the lithology of the roofs. By analyzing known borehole data, we found that the identified lithology was consistent with that revealed by the data. By comparing and analyzing the coal seam roof lithology and the gas-bearing trends in the study area, we discovered that the coal seam roof lithology was related to the enrichment of coalbed methane. In the study area, areas with high gas contents mainly coincided with roof zones composed of mudstone and argillaceous siltstone, and those with low gas contents were mainly associated with fine sandstone roof areas. Thus, highly compact areas of coal seam roof are favorable for the formation and preservation of coalbed methane. RESUMEN Para identificar la litología de una cima con gas de filones de carbón y explorar la influencia de estas cimas en el enriquecimiento de metano en capas de carbón, se realizaron experimentos de petrofísica en rocas de baja frecuencia, análisis sísmicos y análisis de tendencias con gas. Los resultados muestran que la velocidad de propagación de la onda de sonido en roca a frecuencias sísmicas fue menor que la de las frecuencias de ultrasonido. Además, las velocidades de la onda P de arenisca, arenisca fina, limolita arcillosa y lutita fueron 1.651 m/s, 2.840 m/s, 3.191 m/s y 4.214 m/s, respectivamente. Las propiedades de la superficie de los techos con gas de filones de carbón se extrajeron mediante inversión de impedancia de onda sísmica 3D. La impedancia teórica de la onda P se calculó después de determinar la velocidad de la onda P probada. Al hacer coincidir la impedancia teórica de la onda P de los cuatro tipos de rocas con la de las cimas con gas de filones de carbón, se identificó la litología de las cimas. Al analizar los datos conocidos del pozo, se encontró que la litología identificada era consistente con la revelada por los datos. Al comparar y analizar la litología de la cima con gas de filones de carbón y las tendencias con gas en el área de estudio, descubrimos que la litología de esta cima estaba relacionada con el enriquecimiento del metano de las capas de carbón. En el área de estudio, las áreas con alto contenido de gas coincidieron principalmente con zonas de techo compuestas de lutita y limolita arcillosa, y aquellas con bajo contenido de gas se asociaron principalmente con áreas de techo de arenisca fina. Por lo tanto, las áreas altamente compactas del techo con vetas de carbón son favorables para la formación y preservación del metano de las capas de carbón.

Published

2020

3. Hydrogeological changes caused by opencast coal mining in steppe zone: a case study of Shengli 1 open-pit coal mine

Author

Du Wenfeng, Feng Feisheng, Dongjing Xu, Changchao She, He Yunlan, Chong Shan, Xing Zhenguo, Peng Yu, and Peng Suping

Subjects

geography, Hydrogeology, geography.geographical_feature_category, Mining engineering, business.industry, Steppe, Coal mining, business, Geology

Published

2018