摘要
电性质是煤岩的重要物理性质。开展煤岩多孔介质及其充瓦斯后电性质的研究,对煤与瓦斯动力灾害的有效预防及煤层气的勘探开发具有重要的意义。研究了煤岩多孔介质及其充瓦斯后的交流导电性。研究表明:煤岩多孔介质电导率随瓦斯压力的增大而增大,不含瓦斯时的电导率明显低于含瓦斯时的电导率;无论是否含瓦斯,电导率都随温度的升高而增大,并且相同条件下,含瓦斯比不含瓦斯的电导率要大;电导率与外加电压无关;随着频率的增大,电导率也相应增大,煤的交变电导率与频率间存在分形关系。
Coal-rock electrical properties are very important, which reflect coal inner structure and ingredients, and vary obviously when coal is pressed or destroyed. The alternative characters of current electric conduction of rock-coal porous medium with gas are studied. It is concluded that the conductivity increases along with gas pressure, and conductivity of coal without gas is smaller than that of coal with gas, the conductivity increases along with temperature whether the coal contains gas or not, and the conductivity of coal with gas is bigger than that of coal without gas under the same conditions. The conductivity is not varied with the voltage of alternative electric field. The conductivity increases along with the frequency of alternative electric field, and the relationship between conductivity and the frequency is fractal one. It is possible that coal and gas outburst can be predicted by monitoring the variation of coal conductivity along with the gas pressure or coal temperature.
出处
《岩石力学与工程学报》
EI
CAS
CSCD
北大核心
2004年第11期1861-1866,共6页
Chinese Journal of Rock Mechanics and Engineering
关键词
采矿工程
煤岩多孔介质
瓦斯
电特性
Electric conductivity
Electric fields
Electric properties
Gases
Mining engineering
Porous materials
Rocks