HYDROCARBON GENERATION AND MIGRATION FROM BARREMIAN – APTIAN SOURCE ROCKS, NORTHERN ORANGE BASIN, OFFSHORE WESTERN SOUTH AFRICA: A 3D NUMERICAL MODELLING STUDY

IF 1.8 4区 地球科学 Q3 GEOSCIENCES, MULTIDISCIPLINARY
C. A. Samakinde, J. M. van Bever Donker, R. Durrheim, M. Manzi
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引用次数: 3

Abstract

A 3D numerical modelling workflow was applied to the Barremian—Aptian source rock interval in a shelfal to lower slope area of the northern Orange Basin, offshore western South Africa. The main objective was to investigate the timing of hydrocarbon generation and migration. Hydrocarbon migration has previously been investigated in the south of the basin by relating gas escape features with structural elements as seen on seismic sections, but migration pathways are still poorly understood. The modelling study was based on data from three exploration wells (AO-1, AE-1 and AF-1) together with 42 2D seismic sections totalling 3537 km in length, and a 3D seismic cube covering an area of 750 sq. km.

Modelled formation temperatures increase from north to south in the study area and were consistent with downhole temperatures at well locations. However, there is variation between measured and modelled values of vitrinite reflectance (VR), especially in the Turonian and Cenomanian intervals. The measured VR is lower than the modelled VR within the Turonian section in the north of the study area, suggesting that erosion has affected the thermal maturity of the sediments. However, in the Cenomanian interval, the measured VR is higher than the modelled VR. Uplift, increased erosion in the hinterland and sediment transport to the coastal areas resulted in Cenomanian progradation of the Orange Basin fill. This together with a heat flow pulse resulted in increased thermal maturities in the study area.

Modelling results show that hydrocarbon generation began in the central part of the study area by 116 Ma and reached a peak in the Late Cretaceous (65 Ma). Hydrocarbon migration began at about 110 Ma with an expulsion efficiency of 0.77. At the present day, ∼100% transformation of reactive kerogen into hydrocarbons has taken place in the central part of the study area, with random gas migration within Cenomanian and Albian reservoirs. Modelled oil migration likely influenced by hydrodynamic factors is down-dip (westwards), towards deeper-water, more distal parts of the basin.

Gas saturation on a reactivated listric fault, which was ∼100% saturated at 93 Ma, declined to ∼15% by 65 Ma. This decrease in gas saturation is linked to uplift of the African margin in the Late Cretaceous which resulted in fault reactivation and re-migration of gas.

Despite the uncertainties which are associated with petroleum systems modelling, the study provides an insight into hydrocarbon migration in the northern part of the Orange Basin and contributes to the de-risking of future oil and gas exploration in this area.

南非西部近海北部橙盆地barremian - aptian烃源岩的生烃和运移:三维数值模拟研究
3D数值建模工作流程应用于南非西部近海Orange盆地北部陆架至下斜坡区的Barremian-Aptian烃源岩段。主要目的是研究生烃和运移的时间。通过将天然气逸出特征与地震剖面上的构造元素联系起来,研究了盆地南部的油气运移,但对运移途径的了解仍然很少。建模研究基于三口勘探井(AO-1、AE-1和AF-1)的数据,以及42个总长度为3537公里的二维地震剖面,以及一个面积为750平方公里的三维地震立方体。公里。在研究区域,模拟的地层温度由北向南递增,与井位的井下温度一致。然而,镜质组反射率(VR)的测量值与模拟值之间存在差异,特别是在Turonian和Cenomanian层段。研究区北部Turonian剖面实测VR值低于模拟VR值,表明侵蚀作用影响了沉积物的热成熟度。而在Cenomanian区间,实测的VR要高于模拟的VR。隆起、内陆侵蚀加剧和沉积物向沿海地区的迁移导致了橘色盆地的塞诺曼尼亚式淤积。这与热流脉冲一起导致研究区域的热成熟度增加。模拟结果表明,研究区中部于116 Ma开始生烃,晚白垩世(65 Ma)达到生烃高峰。油气在110 Ma左右开始运移,排烃效率为0.77。目前,在研究区中部,反应性干酪根已100%转化为碳氢化合物,在Cenomanian和Albian储层中存在随机气体运移。模拟的石油运移可能受到水动力因素的影响,是向下倾(向西),向深水、盆地的更远部分迁移。在一个重新激活的压片断层上,气体饱和度在93 Ma时达到100%饱和,在65 Ma时下降到15%。这种天然气饱和度的降低与晚白垩世非洲边缘的隆升有关,这导致了断层的再活化和天然气的再运移。尽管存在与石油系统建模相关的不确定性,但该研究提供了对奥兰治盆地北部油气运移的深入了解,并有助于降低该地区未来油气勘探的风险。
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来源期刊
Journal of Petroleum Geology
Journal of Petroleum Geology 地学-地球科学综合
CiteScore
3.40
自引率
11.10%
发文量
22
审稿时长
6 months
期刊介绍: Journal of Petroleum Geology is a quarterly journal devoted to the geology of oil and natural gas. Editorial preference is given to original papers on oilfield regions of the world outside North America and on topics of general application in petroleum exploration and development operations, including geochemical and geophysical studies, basin modelling and reservoir evaluation.
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