矿业安全与环保
礦業安全與環保
광업안전여배보
MINING SAFETY & ENVIRONMENTAL PROTECTION
2014年
5期
101-104
,共4页
张庆华%林辉钦%王麒翔%覃木广%崔俊飞
張慶華%林輝欽%王麒翔%覃木廣%崔俊飛
장경화%림휘흠%왕기상%담목엄%최준비
瓦斯地质信息平台%瓦斯赋存%瓦斯地质%沉积环境
瓦斯地質信息平檯%瓦斯賦存%瓦斯地質%沉積環境
와사지질신식평태%와사부존%와사지질%침적배경
information platform of coal-bed gas geology%gas occurrence%coal-bed gas geology%sedimentary environment
煤层的瓦斯赋存及分布条件主要由聚煤期前后的沉积环境及其演化过程、区域性及局部地质构造条件所控制,矿区、煤矿直至煤层范围内的沉积环境及构造条件受到整体的沉积体系、地质演化过程及板块构造所控制。利用全国瓦斯地质信息平台,从各级别的沉积环境、瓦斯地质以及各煤矿区煤矿基本情况专题图,对瓦斯赋存及分布进行探讨性分析及评价,实现了对地质沉积在沉积、层序地层演化、构造等进行时空上的图形及关联信息综合展现,并通过对大构造区域范围到煤层局部范围内影响煤矿区瓦斯赋存因素的综合分析,有效地对煤层瓦斯赋存特征进行探讨性的预测评价。
煤層的瓦斯賦存及分佈條件主要由聚煤期前後的沉積環境及其縯化過程、區域性及跼部地質構造條件所控製,礦區、煤礦直至煤層範圍內的沉積環境及構造條件受到整體的沉積體繫、地質縯化過程及闆塊構造所控製。利用全國瓦斯地質信息平檯,從各級彆的沉積環境、瓦斯地質以及各煤礦區煤礦基本情況專題圖,對瓦斯賦存及分佈進行探討性分析及評價,實現瞭對地質沉積在沉積、層序地層縯化、構造等進行時空上的圖形及關聯信息綜閤展現,併通過對大構造區域範圍到煤層跼部範圍內影響煤礦區瓦斯賦存因素的綜閤分析,有效地對煤層瓦斯賦存特徵進行探討性的預測評價。
매층적와사부존급분포조건주요유취매기전후적침적배경급기연화과정、구역성급국부지질구조조건소공제,광구、매광직지매층범위내적침적배경급구조조건수도정체적침적체계、지질연화과정급판괴구조소공제。이용전국와사지질신식평태,종각급별적침적배경、와사지질이급각매광구매광기본정황전제도,대와사부존급분포진행탐토성분석급평개,실현료대지질침적재침적、층서지층연화、구조등진행시공상적도형급관련신식종합전현,병통과대대구조구역범위도매층국부범위내영향매광구와사부존인소적종합분석,유효지대매층와사부존특정진행탐토성적예측평개。
The gas occurrence and distribution are mainly subjected to the control of the sedimentary environment, the evolution and the regional and local geological conditions of coal seams, and the sedimentary environment and the structural conditions in a coal mining area, mine and even in the range of coal seams are subjected to the control of the overall sedimentary systems, the geological evolution process and plate tectonics. In this paper, explorative analysis and evaluation on the gas occurrence and distribution were carried out by using the information platform of coal-bed gas geology and according to the different sedimentary environment, coal-bed gas geology and the basic conditions of each mining area, which realized the integrated show of the time-space graphics and associated information of the geologic sedimentation and the evolution and structure of sequential strata. Based on the comprehensive analysis of the influence factors of gas occurrence from the regional range of large structures to the local range of coal seams in a mining area, explorative prediction and evaluation on the characteristics of coal seam gas occurrence were effectively conducted.