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    鄂爾多斯盆地伊盟隆起上古生界天然氣成因及氣源
    
                
    2016-09-12 08:36:14陳敬軼賈會(huì)沖李永杰劉四洪
    
                
    石油與天然氣地質(zhì) 2016年2期 
    關(guān)鍵詞:古生界輕烴江海
    
                    
    陳敬軼,賈會(huì)沖,李永杰,安 川,李 巍,劉四洪
    (中國(guó)石化 華北油氣分公司 勘探開發(fā)研究院,河南 鄭州 450006)
    ?
    鄂爾多斯盆地伊盟隆起上古生界天然氣成因及氣源
    陳敬軼,賈會(huì)沖,李永杰,安川,李巍,劉四洪
    (中國(guó)石化 華北油氣分公司 勘探開發(fā)研究院,河南 鄭州 450006)
    鄂爾多斯盆地伊盟隆起上古生界天然氣的成因及來源一直存在爭(zhēng)議。通過天然氣碳同位素和輕烴綜合分析,δ13C2值普遍大于-25.4‰,烷烴氣的碳同位素為正碳同位素系列,甲基環(huán)己烷指數(shù)(MCH)大于50%,具有煤成氣的特征。伊盟隆起上古生界烴源巖以煤為主,什股壕地區(qū)煤層厚度較大,厚度為6~10 m,鏡質(zhì)體反射率(Ro)為0.8%~1.2%,烴源巖進(jìn)入了大量生烴階段,本區(qū)烴源巖對(duì)天然氣近源成藏具有一定的貢獻(xiàn)。伊盟隆起天然氣甲烷含量平均為94.5%,高于十里加汗地區(qū)平均值91.2%;天然氣δ13C1值也明顯高于十里加汗地區(qū),平均數(shù)值相差3‰。由此認(rèn)為天然氣側(cè)向運(yùn)移過程中發(fā)生了成分色層效應(yīng)和碳同位素分餾作用,伊盟隆起上古生界部分天然氣可能來自泊爾江海子斷裂以南地區(qū)。
    碳同位素;輕烴;氣源;烴源巖;天然氣;鄂爾多斯盆地
    伊盟隆起位于鄂爾多斯盆地北部,東西向展布,北與河套地塹相鄰,南以伊陜斜坡北部三眼井-泊爾江海子斷裂為界,西起烏加廟,東至托克托。研究區(qū)位于勘探程度較高的伊盟隆起中部,為一北東向的單斜構(gòu)造,局部斷裂發(fā)育(圖1),上古生界直接不整合覆蓋于太古界結(jié)晶基底之上。自下而上發(fā)育石炭系太原組以及二疊系山西組、下石盒子組、上石盒子組和石千峰組等5套地層。主要含氣層位為下石盒子組3段(盒3段)、盒2段、盒1段和山西組1段(山1段)。圈閉類型以巖性圈閉和巖性-構(gòu)造圈閉為主。
    伊盟隆起上古生界天然氣來源主要存在兩種不同的看法。有的學(xué)者認(rèn)為伊盟隆起是一個(gè)繼承性古隆起,流體勢(shì)較低,是天然氣運(yùn)聚有利指向區(qū)[1-8],上古生界天然氣來自于泊爾江海子斷裂以南的烏審旗生氣中心[1,7];另一種看法認(rèn)為伊盟隆起發(fā)育烴源巖,生成的天然氣可以近源成藏[9-10]。造成上述爭(zhēng)議的原因是限于當(dāng)時(shí)資料較少,不能對(duì)伊盟隆起開展較為系統(tǒng)的天然氣地化特征研究。隨著近年來勘探程度增加,烴源巖和天然氣地化資料不斷豐富,本文通過對(duì)比分析伊盟隆起與泊爾江海子斷裂以南地區(qū)烴源巖、天然氣地化特征,進(jìn)一步明確了研究區(qū)天然氣的成因及來源。
    圖1 鄂爾多斯盆地北部構(gòu)造區(qū)劃及研究區(qū)位置Fig.1 Tectonic divisions and location of the study area in the northern Ordos Basin
    1 天然氣成因類型
    1.1天然氣碳同位素特征
    甲烷和乙烷碳同位素及其同系物碳同位素序列是判定天然氣成因的重要指標(biāo)[11-12]。戴金星對(duì)我國(guó)主要含油氣盆地煤成氣和油型氣碳同位素進(jìn)行了統(tǒng)計(jì),煤成氣δ13C1值主要分布在-10‰~-43‰,δ13C2值一般大于-27.5‰,烷烴氣的碳同位素為正碳同位素系列,即δ13C1<δ13C2<δ13C3<δ13C4[11-13]。
    研究區(qū)天然氣甲烷和乙烷碳同位素分析表明,δ13C1值為-32.0‰~-34.4‰,平均值為-32.7‰,δ13C2值普遍大于-25.4‰,平均值為-24.8‰。與泊爾江海子斷裂以南的十里加汗地區(qū)和大牛地氣田天然氣成因類似,明顯具有煤成氣的特征(圖2),烷烴氣的碳同位素值總體變化趨勢(shì)為δ13C1<δ13C2<δ13C3<δ13C4(圖3),也具有煤成氣的特征。
    圖2 泊爾江海子斷裂南、北甲烷和乙烷碳 同位素天然氣成因判識(shí)Fig.2 Comparison of origins of methane and ethane carbon isotope of natural gas from the south and north of the Boerjianghaizi Fault
    1.2輕烴特征
    C7輕烴系列化合物中的甲基環(huán)己烷主要來自高等植物的木質(zhì)素和纖維素等,各種構(gòu)型的二甲基環(huán)戊烷和乙基環(huán)戊烷(ΣDMCC5)主要來自水生生物的類脂化合物,正庚烷(nC7)則主要來自藻類和細(xì)菌[13]。由此,胡惕麟提出用甲基環(huán)己烷指數(shù)以區(qū)分天然氣成因,認(rèn)為腐殖型母質(zhì)生成的天然氣甲基環(huán)己烷指數(shù)(MCH)大于50%,小于該值則為腐泥型母質(zhì)所生天然氣[14]。很多學(xué)者通過繪制MCH,ΣDMCC5和nC7相對(duì)含量的三角圖區(qū)分腐植型油氣和腐泥型油氣(圖4)[14-18]。研究區(qū)與泊爾江海子斷裂以南的十里加汗地區(qū)天然氣輕烴的MCH都大于50%,ΣDMCC5小于30%,應(yīng)屬于同一種成因天然氣,為腐殖型氣。
    圖3 泊爾江海子斷裂南、北單體碳同位素分布特征Fig.3 Distribution characteristics of carbon isotope values of natural gas from the north and south of the Boerjianghaizi Fault
    圖4 泊爾江海子斷裂南、北天然氣C7輕烴組成三角圖Fig.4 Triangular diagram of C7 light hydrocarbons of natural gas from the north and south of the Boerjianghaizi Fault
    2 天然氣來源
    2.1烴源巖發(fā)育特征
    研究區(qū)上古生界烴源巖主要以石炭系-二疊系煤巖為主,其次為暗色泥巖。源巖有機(jī)質(zhì)類型與泊爾江海子斷裂以南的十里加汗地區(qū)、大牛地氣田相似,屬于Ⅱ2-Ⅲ型源巖(圖5),以生氣為主。
    研究區(qū)煤系烴源巖局部發(fā)育,主要分布在什股壕地區(qū),厚度為6~10 m,錦4—錦13—石鄂2一帶煤層缺失;太原組-山西組鏡質(zhì)體反射率(Ro)為0.8%~1.2%,烴源巖進(jìn)入大量生氣階段,生氣強(qiáng)度一般為(5~10)×108m3/km2,很明顯對(duì)該地區(qū)天然氣成藏有一定的貢獻(xiàn)作用。泊爾江海子斷裂以南十里加汗地區(qū)煤層厚度較大,厚度為10~20 m,Ro為1.2%~1.6%,成熟度相對(duì)較高,生氣強(qiáng)度為(15~30)×108m3/km2??傮w看來,研究區(qū)上古生界天然氣資源潛力小于泊爾江海子斷裂以南十里加汗地區(qū)。
    2.2天然氣組分特征
    天然氣在運(yùn)移過程中會(huì)發(fā)生成分色層效應(yīng),由于甲烷等較輕組分的滲透運(yùn)移速度較大,而粘土礦物對(duì)天然氣中重?zé)N組分具有較強(qiáng)的束縛能力[19-23]。所以,天然氣經(jīng)過長(zhǎng)距離運(yùn)移后,甲烷所占的比例逐漸增大,天然氣相對(duì)密度變小。
    對(duì)比分析研究區(qū)與泊爾江海子斷裂以南十里加汗地區(qū)的70余個(gè)天然氣組分樣品數(shù)據(jù)表明,研究區(qū)天然氣甲烷含量數(shù)值一般為92.4%~97.8%,平均值為94.5%,相對(duì)密度值一般低于0.63;十里加汗地區(qū)天然氣甲烷含量平均值僅為91.2%,相對(duì)密度值一般高于0.63(圖6)??偟膩碚f,研究區(qū)天然氣具有甲烷含量高、重?zé)N含量低,相對(duì)密度值小的特征,可能是泊爾江海子斷裂以南天然氣向北運(yùn)移過程中發(fā)生了成分色層效應(yīng)。
    2.3天然氣成藏過程
    早白堊世是伊盟隆起上古生界煤系地層的主要生氣期[24],對(duì)該地區(qū)天然氣近源成藏具有重要意義。由于伊盟隆起流體勢(shì)較低,泊爾江海子斷裂以南地區(qū)的天然氣也可以通過厚層砂體、不整合面或斷裂等優(yōu)勢(shì)運(yùn)移通道,向北運(yùn)移到伊盟隆起進(jìn)行成藏[1-7,25]。
    按照天然氣碳同位素分餾特征[26-28],氣藏中甲烷碳同位素容易分餾,而乙烷以上的重?zé)N碳同位素幾乎不發(fā)生分餾。也就是說,如果氣藏中天然氣散失,12CH4首先逸散。在經(jīng)過長(zhǎng)時(shí)間聚集—散失—聚集反復(fù)過程后,13CH4就會(huì)不斷富集,δ13C1值就明顯變大。
    圖5 泊爾江海子斷裂南、北有機(jī)質(zhì)類型對(duì)比分析Fig.5 Comparison of organic types between source rocks in the north and south of the Boerjianghaizi Fault
    圖6 泊爾江海子斷裂南、北天然氣甲烷含量(a)和相對(duì)密度(b)對(duì)比Fig.6 Comparison of methane content(a) and relative density(b) of natural gas from the north and south of the Boerjianghaizi Fault
    伊盟隆起聚集的天然氣δ13C1值明顯高于泊爾江海子斷裂以南的十里加汗地區(qū)和大牛地氣田,平均值相差3‰,而δ13C2相差不大(圖2),說明該地區(qū)天然氣碳同位素發(fā)生了分餾作用。另外,伊盟隆起北部和東北部下白堊統(tǒng)露頭和地層已發(fā)現(xiàn)大量的油(氣)苗和油氣顯示[29],綜合顯示,該地區(qū)天然氣具有側(cè)向運(yùn)移的特征。
    3 結(jié)論
    1) 天然氣碳同位素、輕烴特征表明,研究區(qū)上古生界天然氣為煤成氣。
    2) 在烴源巖發(fā)育特征分析的基礎(chǔ)上,對(duì)比泊爾江海子斷裂南、北天然氣組分、δ13C1值變化特征,研究區(qū)上古生界天然氣有兩種來源。一是本地?zé)N源巖所生天然氣;二是泊爾江海子斷裂以南地區(qū)運(yùn)移而來的天然氣。
    致謝:在論文研究過程中,勘探開發(fā)研究院副院長(zhǎng)李良一直給予悉心指導(dǎo),同事也給予了很多幫助;中國(guó)石化石油勘探開發(fā)研究院無錫分院對(duì)部分樣品測(cè)試分析做了大量工作,在此一并表示感謝。
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    (編輯張玉銀)
    Origin and source of natural gas in the Upper Paleozoic of the Yimeng Uplift,Ordos Basin
    Chen Jingyi,Jia Huichong,Li Yongjie,An Chuan,Li Wei,Liu Sihong
    (ExplorationandDevelopmentResearchInstitute,SINOPECNorthChinaCompany,Zhengzhou,Henan450006,China)
    No consensus has been reached on the origin and source of natural gas in the Upper Paleozoic of Yimeng Uplift,Ordos Basin.Based on a comprehensive analysis of carbon isotope and light hydrocarbon,the δ13C2values are gene-rally more than -25.4‰,alkane carbon isotope values change in normal order and the relative content of methylcyclohexane is more than 50%,which show that natural gas is coal-derived gas.The Upper Paleozoic source rocks in Yimeng Uplift are dominated by coals.In Shiguhao area,the thickness of coalbeds ranges from 6 to 10 m.The source rocks with a vitrinite reflectance from 0.8% to 1.2% reached the major stage of hydrocarbon generation.So the local source rocks have an important contribution to near-source gas accumulation.Average methane content of Yimeng Uplift is 94.5%,which is higher than that of Shilijiahan area (91.2%); δ13C value was alos significantly heavier than that of Shilijiah area with the difference value of 3‰.It is believed that component differentiation and carbon isotope fractionation occurred in natural gas migration process.So some natural gas in the Upper Paleozoic of Yimeng Uplift may come from the south of Boerjianghaizi fault.
    carbon isotope,light hydrocarbon,gas source,source rock,natural gas,Ordos Basin
    2015-09-12;
    2015-12-15。
    陳敬軼(1980—),男,高級(jí)工程師,石油天然氣地質(zhì)。E-mail:jingyichen@163.com。
    國(guó)家科技重大專項(xiàng)(2011ZX05002);中石化科技項(xiàng)目(P13109)。
    0253-9985(2016)02-0205-05
    10.11743/ogg20160208
    TE122.1
    A
    

    
                        
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