【作者】 贾林；

【导师】 夏玉成； 刘胜利；

【作者基本信息】 西安科技大学 ， 矿业工程， 2005， 硕士

【摘要】 红会三矿八采区是该矿的主要煤炭资源产地,是三矿职工的经济命脉。但是由于前几年小煤窑的无序开采,形成大量的废弃采空区和无数的“水袋”、“火坑”,使该矿职工处在“水深火热”之中。导致矿井在开掘过程中突水事故时有发生,涌水量也很大,造成矿井多次停产。这不仅给煤矿造成经济损失,而且给矿井的正常生产带来了安全隐患,直接影响矿区的正常生产。因此,查清楚勘探区内小窑采空区及其积水情况成为当务之急。 笔者有幸参与了甘肃煤田地质局综合普查队对该区进行的电法探测小窑采空区工作,在收集、研究电法勘探领域的国内外发展情况及研究成果基础上,参与了从测网布置、探测施工、数据采集、理论研究、成果解释与验证等全过程的工作,并重点对电法探测小窑采空区中遇到的几个关键技术问题开展了研究。 随着地球物理勘探技术的发展,电法已经成为探测老窑采空区的行之有效的方法。本次电法勘探工作,以25m×60m的测网,运用直流四极对称电测深法对红会三矿八采区实施探测。采空区呈高阻反映,采空强充水区呈次高阻反映。研究区内ρ S曲线类型分为两种:HA型曲线和HKH型曲线。HA型曲线为非采空区典型曲线:HKH型曲线为采空区曲线类型。等视电阻率(ρ S )剖面图能够较详细地反映出沿测线方向上地层的电性变化特征,是确定非采空区剖面位置的主要依据;ρ S等值线图基本代表了采空区的分布范围及形态,因此可以作为确定采空区平面位置的依据;采空区埋深则可利用反射系数法和中国矿业大学编制的直流电测深自动拟合反演程序予以确定;当采空区充水时,其电阻率值表现为次高阻反映,这是判断采空区内积水情况的主要依据。 本次电法勘探将研究区共划分为三大区块。Ⅰ区为采空区,Ⅱ区为非采空区,Ⅲ区为高阻异常区。通过小煤窑调查、钻孔及井下探巷验证,采空区、非采空区、采空积水区范围与电法勘探结果相符。 通过本次工作,作者认为,虽然利用直流电测深法探测小窑采空区的工作方法是可行有效的,但为了克服这种方法所得资料的多解性和局限性以及电性特征有可能受上覆高电阻岩层(第四系)屏蔽等弊端,在今后的同类工作中,应该推广应用高密度电法勘探方法。更多还原

【Abstract】 The 8^th panel of Honghui Coal Mine No.3 is the main coal-producing area of the mine and the economic vitals of the staff. But mining out of order by small coal kilns in the past years results in large numbers of excavated areas and countless of "water bags" and " fire pits". Especially the water bags have brought great trouble to the process of excavating and mining of the panel, and made the Mine have to stop producing occasionally, which not only influenced the producing order of the panel, but also are great dangers of production. All these make the staff of the Mine live in hard life. Therefore, it is very urgent to prospect the excavated areas and "water bags" in the panel.The author took part in the electricity prospecting for the excavated areas in the panel by Synthesis Prospecting Team of Gansu Coal Geology Bureau. On the basis of collecting and studying the development and achievements of electricity prospecting, the author took part in the collocation of survey net, prospecting, collection of data, theoretical study, interpretation and validation of the achievements, paying the main attention to some key techniques in electricity prospecting for the excavated areas.With the development of geophysical Prospecting techniques, electricity prospecting has been an effective method to detect excavated areas. In the electricity prospecting for the excavated areas in the 8th panel of Honghui Coal Mine No. 3, 25m×60m survey net was collocated and direct current four pole symmetry method was used. Excavated areas show high resistance, and the excavated areas filled with water show hypo-high resistance. The ρ_s curves are divided into two types: HA and HKH。 HA is the typical curve of not excavated areas, whereas HKH is the typical curve of excavated areas. The section of ρ_s can amply reflect the changes of electricity character of strata along the direction of survey line, therefore it is the main basis for ascertaining the location of excavated areas in section. Isoline map of ρ_s represent the boundary and shape, so the location of excavated areas in plan can be ascertained according to isoline map of ρ_s. the depth of excavated areas can be ascertained with the reflectance coefficient method or using the automatic calculating program of the depth in direct current electrical prospecting developed by China Mining University. When excavated areas are filled by water the electricity character show hypo-high resistance, which is the main basis for estimating thewater-filling state of excavated areas.The studied area is divided into three subareas through this electricity prospecting work. The subarea I is excavated area, the subarea II is not excavated area, and the subarea III is abnormity area of high resistance. The information from investigate of small coal kilns, drills and detecting tunnels validate that the fact is consilient with the conclusion from electricity prospecting about the ranges of excavated area and not excavated area as well as the water-filling state in excavated area.Although the method with direct current electricity prospecting for the excavated areas is of availability, author consider that the high dense electricity prospecting method should be used in aftertime in order to overcome the limitation such as indetermination of explanation, the disturbance of electricity character by over high resistance layer.更多还原