天然气工业
天然氣工業
천연기공업
NATURAL GASINDUSTRY
2010年
1期
36-38
,共3页
颜其彬%赵辉%司马立强%施振飞
顏其彬%趙輝%司馬立彊%施振飛
안기빈%조휘%사마립강%시진비
碳酸盐岩%储集层%孔隙度%渗透率%核磁共振测井%T_2谱%T_2截止值%参数
碳痠鹽巖%儲集層%孔隙度%滲透率%覈磁共振測井%T_2譜%T_2截止值%參數
탄산염암%저집층%공극도%삼투솔%핵자공진측정%T_2보%T_2절지치%삼수
carbonates%reservoir%porosity%permeability%NMR logging%T2 spectrum%T2 cutoff%parameter
由于对碳酸盐岩核磁共振的测井响应-直缺乏系统的研究,使得该技术在一些复杂储层中的应用不能取得良好的效果.为此,基于大量的岩心核磁共振实验,分析了碳酸盐岩储层岩心的T2谱特征、移谱特征、差谱特征、T2截止值变化规律及核磁分析的孔渗参数与常规分析的孔渗参数之间的关系,并通过实验探索了基于孔隙结构特征来分析储层有效性的方法.研究表明:孔隙结构非均质性强的岩石移谱特征明显,对这类储层段不能简单地从有移谱现象便判定为气层;利用差谱法区别油气水层时,在发育大孔径孔隙的地层中,短等待时间测量需要有足够的等待时间;碳酸盐岩地层的T2截止值不是定值,与泥质含量成反比关系;高孔段核磁计算的孔渗参数的准确性明显地高于低孔段,并且核磁计算的渗透率主要反映的是基质渗透率,不能有效地反映裂缝渗透率.研究结果为核磁共振测井资料的采集及处理解释提供了有价值的实验依据.
由于對碳痠鹽巖覈磁共振的測井響應-直缺乏繫統的研究,使得該技術在一些複雜儲層中的應用不能取得良好的效果.為此,基于大量的巖心覈磁共振實驗,分析瞭碳痠鹽巖儲層巖心的T2譜特徵、移譜特徵、差譜特徵、T2截止值變化規律及覈磁分析的孔滲參數與常規分析的孔滲參數之間的關繫,併通過實驗探索瞭基于孔隙結構特徵來分析儲層有效性的方法.研究錶明:孔隙結構非均質性彊的巖石移譜特徵明顯,對這類儲層段不能簡單地從有移譜現象便判定為氣層;利用差譜法區彆油氣水層時,在髮育大孔徑孔隙的地層中,短等待時間測量需要有足夠的等待時間;碳痠鹽巖地層的T2截止值不是定值,與泥質含量成反比關繫;高孔段覈磁計算的孔滲參數的準確性明顯地高于低孔段,併且覈磁計算的滲透率主要反映的是基質滲透率,不能有效地反映裂縫滲透率.研究結果為覈磁共振測井資料的採集及處理解釋提供瞭有價值的實驗依據.
유우대탄산염암핵자공진적측정향응-직결핍계통적연구,사득해기술재일사복잡저층중적응용불능취득량호적효과.위차,기우대량적암심핵자공진실험,분석료탄산염암저층암심적T2보특정、이보특정、차보특정、T2절지치변화규률급핵자분석적공삼삼수여상규분석적공삼삼수지간적관계,병통과실험탐색료기우공극결구특정래분석저층유효성적방법.연구표명:공극결구비균질성강적암석이보특정명현,대저류저층단불능간단지종유이보현상편판정위기층;이용차보법구별유기수층시,재발육대공경공극적지층중,단등대시간측량수요유족구적등대시간;탄산염암지층적T2절지치불시정치,여니질함량성반비관계;고공단핵자계산적공삼삼수적준학성명현지고우저공단,병차핵자계산적삼투솔주요반영적시기질삼투솔,불능유효지반영렬봉삼투솔.연구결과위핵자공진측정자료적채집급처리해석제공료유개치적실험의거.
As no systematic research has been carried out on the NMR logging responses of carbonates, the application of NMR to some complex carbonate reservoirs is unsuccessful. Based on a large amount of NMR experiments of carbonate cores, we analyze the T2 spectrum, shifted spectrum, differential spectrum, T2 cutoff variation, as well as the relationship between the NMR-based and the conventional log-based porosity and permeability, and discuss the effectiveness of pore structure-based reservoir analysis through experiments. Rocks with strong heterogeneity of pore structure show significant shifted spectrum features, thus the identification of gas layers in this kind of reservoirs cannot be based simply on the existence of shifted spectrum. When the differential spectrum method is used to discriminate oil, gas and water layers, short waiting-time measurement should have enough waiting-time in reservoirs with large pores. The T2 cutoff of carbonates is not a constant but a variable in reverse relation to shale content. For reservoir intervals with high porosity, the accuracy of NMR-based porosity and permeability is significantly higher than that for reservoir intervals with low porosity. Moreover, the NMR-based permeability mainly represents matrix permeability, thus cannot effectively reflect fracture permeability. These analysis results provide valuable experimental bases for NMR log acquisition and interpretation.
