地球化学
地毬化學
지구화학
GEOCHIMICA
2014年
2期
141-148
,共8页
梁前勇%熊永强%赵克斌%赵静%张宗元%李芸%李武%房忱琛%孙长青
樑前勇%熊永彊%趙剋斌%趙靜%張宗元%李蕓%李武%房忱琛%孫長青
량전용%웅영강%조극빈%조정%장종원%리예%리무%방침침%손장청
土壤酸解烃%复杂含油气区块%地表油气化探%济阳凹陷
土壤痠解烴%複雜含油氣區塊%地錶油氣化探%濟暘凹陷
토양산해경%복잡함유기구괴%지표유기화탐%제양요함
soil acid-extraction hydrocarbons%complex petroleum-bearing area%surface geochemical exploration for oil and gas%Jiyang depression
酸解烃技术是油气化探的一个重要方法,在常规的油气化探中被普遍应用,然而多解性一直影响其应用效果。本文选择济阳凹陷垛石桥地区作为研究区,利用改进的酸解烃技术,分析研究区已知背景区和产油气区土壤中的酸解烃含量及其碳同位素特征,以验证改进酸解烃技术在复杂含油气区块油气化探工作中的有效性,为油气化探提供高精度的技术方法。研究结果表明,垛石桥地区地表土壤酸解烃中甲烷的含量受干扰因素较多,与下伏油气藏没有明显的对应关系;而乙烷和丙烷等重烃含量与下伏油气藏的对应关系较好,可以较好地揭示深部油气运移的贡献。另外,该地区土壤酸解烃的组成特征指示其深部油气源以油藏为主,部分为凝析油藏,与实际地质情况较为吻合,表明改进的酸解烃技术可以作为复杂含油气区块指示深部油气藏的有效化探方法。
痠解烴技術是油氣化探的一箇重要方法,在常規的油氣化探中被普遍應用,然而多解性一直影響其應用效果。本文選擇濟暘凹陷垛石橋地區作為研究區,利用改進的痠解烴技術,分析研究區已知揹景區和產油氣區土壤中的痠解烴含量及其碳同位素特徵,以驗證改進痠解烴技術在複雜含油氣區塊油氣化探工作中的有效性,為油氣化探提供高精度的技術方法。研究結果錶明,垛石橋地區地錶土壤痠解烴中甲烷的含量受榦擾因素較多,與下伏油氣藏沒有明顯的對應關繫;而乙烷和丙烷等重烴含量與下伏油氣藏的對應關繫較好,可以較好地揭示深部油氣運移的貢獻。另外,該地區土壤痠解烴的組成特徵指示其深部油氣源以油藏為主,部分為凝析油藏,與實際地質情況較為吻閤,錶明改進的痠解烴技術可以作為複雜含油氣區塊指示深部油氣藏的有效化探方法。
산해경기술시유기화탐적일개중요방법,재상규적유기화탐중피보편응용,연이다해성일직영향기응용효과。본문선택제양요함타석교지구작위연구구,이용개진적산해경기술,분석연구구이지배경구화산유기구토양중적산해경함량급기탄동위소특정,이험증개진산해경기술재복잡함유기구괴유기화탐공작중적유효성,위유기화탐제공고정도적기술방법。연구결과표명,타석교지구지표토양산해경중갑완적함량수간우인소교다,여하복유기장몰유명현적대응관계;이을완화병완등중경함량여하복유기장적대응관계교호,가이교호지게시심부유기운이적공헌。령외,해지구토양산해경적조성특정지시기심부유기원이유장위주,부분위응석유장,여실제지질정황교위문합,표명개진적산해경기술가이작위복잡함유기구괴지시심부유기장적유효화탐방법。
The soil acid-extraction hydrocarbon (SAEH) technique is an important method in surface geochemical exploration for oil and gas, and is frequently used in petroleum exploration. However, multi-solution of the index influences its application. In order to provide high-precision techniques and methods for petroleum exploration, an improved soil acid-extraction technique was used to determine concentrations and carbon isotope ratios of the SAEHs in the soil samples from Duoshiqiao area, Jiyang depression. The result shows that the concentration of methane in SAEHs is influenced by many factors, and its variation has no obvious relationship to the subsurface oil or gas reservoir, whereas the concentrations of relatively heavy molecular weight hydrocarbons (C2~C5) in the SAEHs can effectively reveal the contribution of oil or gas migrated from subsurface reservoir. In addition, the compositions of SAEHs indicate that these hydrocarbons are mainly sourced from the oil reservoirs and partly from condensate reservoirs, which are coinciding with the actual geological background. Therefore, the advanced acid extraction technique can provide an effective method for geochemical exploration for petroleum in complex petroleum-bearing areas.
