煤田地质与勘探
煤田地質與勘探
매전지질여감탐
COAL GEOLOGY & EXPLORATION
2015年
4期
36-40
,共5页
张永平%杨艳磊%唐新毅%张俊杰
張永平%楊豔磊%唐新毅%張俊傑
장영평%양염뢰%당신의%장준걸
沁水盆地%高煤阶%煤储层%速度敏感性
沁水盆地%高煤階%煤儲層%速度敏感性
심수분지%고매계%매저층%속도민감성
Qinshui basin%high coal rank%coal reservoir%velocity sensitivity
流速敏感性评价实验结果是确定煤层气藏合理排采速度的重要依据,对煤层气开发具有重要意义。高煤阶煤储层的低孔低渗特征使煤储层速敏性评价不能仿照常规储层的液体实验方法,为此提出利用氮气评价高煤阶煤储层流速敏感性的新方法,并对沁南地区高煤阶样品进行测试。结果表明:沁南地区高煤阶煤储层速敏损害程度相对较弱,主要损害程度为无敏感、弱敏感和中等偏弱3种;高煤阶煤储层原始渗透率是控制煤储层速敏损害率的主控因素,煤储层渗透率越大,速敏损害率越高;煤岩中黏土矿物含量对煤储层速敏损害率的影响相对有限,速敏损害率主要与黏土矿物赋存方式有关,当黏土矿物主要赋存于裂隙中时,煤储层速敏损害率相对较大。
流速敏感性評價實驗結果是確定煤層氣藏閤理排採速度的重要依據,對煤層氣開髮具有重要意義。高煤階煤儲層的低孔低滲特徵使煤儲層速敏性評價不能倣照常規儲層的液體實驗方法,為此提齣利用氮氣評價高煤階煤儲層流速敏感性的新方法,併對沁南地區高煤階樣品進行測試。結果錶明:沁南地區高煤階煤儲層速敏損害程度相對較弱,主要損害程度為無敏感、弱敏感和中等偏弱3種;高煤階煤儲層原始滲透率是控製煤儲層速敏損害率的主控因素,煤儲層滲透率越大,速敏損害率越高;煤巖中黏土礦物含量對煤儲層速敏損害率的影響相對有限,速敏損害率主要與黏土礦物賦存方式有關,噹黏土礦物主要賦存于裂隙中時,煤儲層速敏損害率相對較大。
류속민감성평개실험결과시학정매층기장합리배채속도적중요의거,대매층기개발구유중요의의。고매계매저층적저공저삼특정사매저층속민성평개불능방조상규저층적액체실험방법,위차제출이용담기평개고매계매저층류속민감성적신방법,병대심남지구고매계양품진행측시。결과표명:심남지구고매계매저층속민손해정도상대교약,주요손해정도위무민감、약민감화중등편약3충;고매계매저층원시삼투솔시공제매저층속민손해솔적주공인소,매저층삼투솔월대,속민손해솔월고;매암중점토광물함량대매저층속민손해솔적영향상대유한,속민손해솔주요여점토광물부존방식유관,당점토광물주요부존우렬극중시,매저층속민손해솔상대교대。
The result of sensitivity evaluation experiment for flow velocity of gas flowing through coal is used for determining a reasonable recovering rate of coal bed gas reservoir, which is of great significance for CBM devel-opment. Because of low porosity and low permeability of the high rank coal reservoir, the velocity sensitivity evaluation of the high-rank coal reservoir can not follow the liquid experimental methods of conventional reservoir. Therefore, this paper put forward a new method of sensitivity evaluation of high rank coal reservoir by using the nitrogen, and conducted the flow sensitivity test on samples of high rank coal in southern Qinshui basin. The results show that high rank coal has low velocity-sensitive damage rate in Southern Qinshui basin, the damage rate ranges mainly from non to weak and weak medium. Original permeability is the main control factors of velocity-sensitive damage for high rank coal reservoir, the higher the coal reservoir permeability, the higher the velocity-sensitive damage rate. The clay content in coal reservoir has limited influence on velocity sensitivity, the velocity-sensitive damage rate is mainly associated with the mode of occurrence of clay mineral in coal. When the clay minerals oc-cur mainly in coal fracture, the velocity-sensitive damage rate is relatively large for high rank coal.