中国煤炭地质
中國煤炭地質
중국매탄지질
COAL GEOLOGY OF CHINA
2014年
6期
63-68
,共6页
伽马伽马曲线%视电阻率曲线%煤层厚度%资源量计算%测井
伽馬伽馬麯線%視電阻率麯線%煤層厚度%資源量計算%測井
가마가마곡선%시전조솔곡선%매층후도%자원량계산%측정
gamma-gamma trace%apparent resistivity trace%coal seam thickness%resources estimation%well logging
在贫煤地区,煤炭资源赋存差异较大,纳入资源量计算的煤层厚度也较低,个别地区甚至降到0.30m。目前煤层定厚解释常用视电阻率曲线和伽马伽马曲线。煤层顶底板在视电阻率曲线的解释点是“根部拐点”,因此人为误差较小;而伽马伽马曲线的解释点是煤层密度和煤层顶底板密度的二维函数,变化较大。根据伽马伽马测井曲线的对称性原理,提出利用平均密度法确定煤层定厚点,即用煤层伽马伽马曲线幅值分别与顶、底板围岩的伽马伽马曲线幅值相乘后再开方的方法获得煤层定厚顶、底板解释点的伽马伽马幅值。该方法既提高了伽马伽马曲线煤层定厚解释精度,又将复杂问题简单化,在实际工作中具有较强的可操作性和使用性。
在貧煤地區,煤炭資源賦存差異較大,納入資源量計算的煤層厚度也較低,箇彆地區甚至降到0.30m。目前煤層定厚解釋常用視電阻率麯線和伽馬伽馬麯線。煤層頂底闆在視電阻率麯線的解釋點是“根部枴點”,因此人為誤差較小;而伽馬伽馬麯線的解釋點是煤層密度和煤層頂底闆密度的二維函數,變化較大。根據伽馬伽馬測井麯線的對稱性原理,提齣利用平均密度法確定煤層定厚點,即用煤層伽馬伽馬麯線幅值分彆與頂、底闆圍巖的伽馬伽馬麯線幅值相乘後再開方的方法穫得煤層定厚頂、底闆解釋點的伽馬伽馬幅值。該方法既提高瞭伽馬伽馬麯線煤層定厚解釋精度,又將複雜問題簡單化,在實際工作中具有較彊的可操作性和使用性。
재빈매지구,매탄자원부존차이교대,납입자원량계산적매층후도야교저,개별지구심지강도0.30m。목전매층정후해석상용시전조솔곡선화가마가마곡선。매층정저판재시전조솔곡선적해석점시“근부괴점”,인차인위오차교소;이가마가마곡선적해석점시매층밀도화매층정저판밀도적이유함수,변화교대。근거가마가마측정곡선적대칭성원리,제출이용평균밀도법학정매층정후점,즉용매층가마가마곡선폭치분별여정、저판위암적가마가마곡선폭치상승후재개방적방법획득매층정후정、저판해석점적가마가마폭치。해방법기제고료가마가마곡선매층정후해석정도,우장복잡문제간단화,재실제공작중구유교강적가조작성화사용성。
In coal shortage areas, there have larger coal resources hosting differentia, the coal thickness lower limit can be incorporated into resource estimation is rather low, in some areas even downgrade to 0.30m. At present, coal seam thickness interpretation commonly uses apparent resistivity and gamma-gamma traces. Coal roof and floor interpreting points on apparent resistivity traces is according to the“root knee points”, thus smaller human errors;while on gamma-gamma traces are 2D functions of coal seam density and coal roof, floor density, thus larger changes. Based on symmetry principle in gamma-gamma logging, using average density method to determine coal seam thickness has been put forward. Those is using coal seam gamma-gamma traces amplitude multiplies by coal roof, floor coun-try rock gamma-gamma traces amplitudes respectively, and then extract to get gamma-gamma amplitude to interpret thickness deter-mining roof and floor points. The method can not only improve gamma-gamma traces coal thickness interpretation accuracy, but also simplify complex issues, thus stronger operability and applicability in practices.