石油实验地质
石油實驗地質
석유실험지질
EXPERIMENTAL PETROLEUM GEOLOGY
2009年
5期
518-521
,共4页
干燥系数%热模拟%烃源岩%油-源对比%库车坳陷%塔里木盆地
榦燥繫數%熱模擬%烴源巖%油-源對比%庫車坳陷%塔裏木盆地
간조계수%열모의%경원암%유-원대비%고차요함%탑리목분지
drying coefficient%thermal simulating experiment%source rock%oil-source correlation%Kuqa Depression%Tarim Basin
塔里木盆地库车坳陷侏罗系煤系地层为该区的主力烃源层.在对塔里木盆地库车河、阳霞河和它什店剖面的三叠系、侏罗系碳质泥岩、泥岩和煤3类不同的烃源岩热模拟实验的基础上,以库车坳陷东部库1井天然气组分(干燥系数)及乙烷碳同位素为参数,用内插法求出该参数条件下模拟样品所对应的模拟温度及热成熟度.结果表明,在与地质背景相吻合的可能的成熟度区间内,只有侏罗系煤系地层的YM-4煤样的模拟结果与库1井一致,表明采用热模拟实验干燥系数内插法,结合同位素以及组分成熟度等资料可以指示天然气的气源岩.这种方法能将油气与烃源岩动态演化过程结合起来进行对比研究,为油气源对比研究提供新的思路.
塔裏木盆地庫車坳陷侏囉繫煤繫地層為該區的主力烴源層.在對塔裏木盆地庫車河、暘霞河和它什店剖麵的三疊繫、侏囉繫碳質泥巖、泥巖和煤3類不同的烴源巖熱模擬實驗的基礎上,以庫車坳陷東部庫1井天然氣組分(榦燥繫數)及乙烷碳同位素為參數,用內插法求齣該參數條件下模擬樣品所對應的模擬溫度及熱成熟度.結果錶明,在與地質揹景相吻閤的可能的成熟度區間內,隻有侏囉繫煤繫地層的YM-4煤樣的模擬結果與庫1井一緻,錶明採用熱模擬實驗榦燥繫數內插法,結閤同位素以及組分成熟度等資料可以指示天然氣的氣源巖.這種方法能將油氣與烴源巖動態縯化過程結閤起來進行對比研究,為油氣源對比研究提供新的思路.
탑리목분지고차요함주라계매계지층위해구적주력경원층.재대탑리목분지고차하、양하하화타십점부면적삼첩계、주라계탄질니암、니암화매3류불동적경원암열모의실험적기출상,이고차요함동부고1정천연기조분(간조계수)급을완탄동위소위삼수,용내삽법구출해삼수조건하모의양품소대응적모의온도급열성숙도.결과표명,재여지질배경상문합적가능적성숙도구간내,지유주라계매계지층적YM-4매양적모의결과여고1정일치,표명채용열모의실험간조계수내삽법,결합동위소이급조분성숙도등자료가이지시천연기적기원암.저충방법능장유기여경원암동태연화과정결합기래진행대비연구,위유기원대비연구제공신적사로.
9 samples from the Kuqa Depression of the Tarim Basin were collected and thermal simulated with a step of 40 ℃ from 260 ℃ to 540 ℃. The components and ethane carbon isotopic compositions of gases generated from simulated samples were analyzed. The drying coefficients (C_1/(C_2+C_3)) were figured out. Using drying coefficient of natural gas from Well Ku-1 as parameter for interpolation method, the possible thermal maturities of source rock as well as temperatures are calculated. According to geological background and the possible maturity range, the study showed that only the gas generated at about 420 ℃ from sample YM-4 of Jurassic coal formation is consistent with Well Ku-1 both in hydrocarbon components and ethane isotopic composition. That means Jurassic coal formation is the main source rock of natural gas from Well Ku-1. Combined with ethane carbon isotope, component and maturity data, the simulating gas drying coefficient can be used in gas-source correlation. The interpolation method overcomes the influence caused by organic thermal maturity and provides a new way for study of oil-gas-source correlation.
