利用CarboCAT对Ras Al-Khaimah (UAE)上Kharaib鲕滩迁移的地层正演模拟

D. Gold, H. Xi, C. Gill, P. Burgess
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引用次数: 0

摘要

在阿联酋,早白垩世(Aptian-Barremian) Thamama群Kharaib组包含重要的碳酸盐岩储集相。上Kharaib储层单元厚度约为50米,包括高渗透性储层相,包括鲕粒岩和泥质浮岩到泥质岩。鲕粒岩相发育在由鲕滩迁移形成的低角度前积型斜砾岩中,并在阿联酋Ras Al-Khaimah的Wadi Rahabah露头中暴露。在这里,斜形岩厚约10米,向西移动1-2公里。这些斜形岩被认为是在126.65 ~ 126.25年间相对海平面高的时期沉积在上三阶哈拉布沉积层中,持续了大约400 Ky。通常,这些斜造型的前积模式在岩心数据中是不可见的,然而,从Ras AlKhaimah露头观察可以用来建立真实的地层正演模型,以更好地了解上Kharaib储层单元的发育。利用对Ras Al-Khaimah露头的地层学、沉积学和古环境的解释,利用CarboCAT建立了上哈拉伊卜古陆构造的确定性地层正演模型。CarboCAT是一种碳酸盐岩沉积系统的数值模型,它使用元胞自动机生成完全定量的三维确定性模型,复制和预测在一组预定义边界条件下形成的地层几何形状、堆叠模式、沉积厚度和相的空间分布。该模型受地质过程的约束,包括构造沉降、海平面波动、深度依赖的碳酸盐产量、沉积物输运物理以及其他地质参数,包括地层剖面的相、岩性和年龄。Ras Al-Khaimah斜砾岩的CarboCAT地层正演模型成功地复制了卵状浅滩,这些卵状浅滩形状为s形,包含在400 Ky期间向盆地中心推进的搬运物质。模型参数设置在恒定的海平面上升条件下,以确保相对海平面持续上升,复制斜地形沉积的高位条件,并避免海平面上升速度超过构造沉降速度的碳酸盐岩台地暴露在空中。滩涂进积程度受相对海平面上升速率和输沙量控制。当相对海平面上升速率是控制斜陆形沉积的主要因素时,就会产生厚的沉积准层序。然而,当沉积物输运速率对斜形的沉积有较强的控制作用时,就会产生沿倾角方向递进的较薄的准层序。在阿拉伯联合酋长国Ras Al-Khaimah的Wadi Rahabah观测到Thamama群演替,包括上Kharaib组的低角度鲕状浅滩礁岩。CarboCAT地层正演模型复制了向盆地中心推进的s形鲕滩。
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Stratigraphic forward modelling of Upper Kharaib ooid shoal migration in Ras Al-Khaimah (UAE) using CarboCAT
The Early Cretaceous (Aptian-Barremian) Kharaib Formation of the Thamama Group contains important carbonate reservoir facies in the United Arab Emirates (UAE). The Upper Kharaib Reservoir Unit is approximately 50 m thick and comprises highly permeable reservoir facies that include ooid grainstones and rudist floatstones to rudstones. The ooid grainstone facies occur within low angle progradational clinoforms formed by ooid shoal migration and are exposed in outcrops along Wadi Rahabah in Ras Al-Khaimah (UAE). Here, the clinoforms are approximately 10 m thick and migrate 1-2 km towards the west. These clinoforms are thought to have been deposited within the upper third-order Kharaib depositional sequence during a period of relative sea-level highstand between 126.65 My and 126.25 My, lasting approximately 400 Ky. Often the progradational patterns of these clinoforms are not visible in core data, however observations from outcrops in Ras AlKhaimah can be used to build realistic stratigraphic forward models to better understand the development of the Upper Kharaib Reservoir Unit. Stratigraphic, sedimentological and palaeoenvironmental interpretations made from the Ras Al-Khaimah outcrops were used to build a deterministic stratigraphic forward model of the Upper Kharaib clinoforms using CarboCAT. CarboCAT is a numerical model of carbonate deposystems that uses cellular automata to produce fully quantitative three-dimensional deterministic models that replicate and predict the spatial distribution of stratal geometries, stacking patterns, sedimentary thickness and facies formed under a set of predefined boundary conditions. The models are constrained by geological processes including tectonic subsidence, eustatic sea-level oscillations, depth-dependent carbonate production rates, sediment transport physics and other geological parameters including facies, lithology and age of stratigraphic section. The CarboCAT stratigraphic forward model of the Ras Al-Khaimah clinoforms successfully replicates ooid shoals which are sigmoid in shape and comprise transported material that prograde towards the basin centre over a period of 400 Ky. Model parameters are set at a constant eustatic sea-level to ensure that relative sea-level continues to rise, replicating the highstand conditions of the deposition of the clinoforms, and to avoid sub-aerial exposure of the carbonate platform where the rate of eustatic sea-level fall exceeds the rate of tectonic subsidence. The degree of ooid shoal progradation is controlled by the rate of relative sealevel rise and sediment transport. Where the rate of relative sea-level rise is the primary control on the deposition of the clinoforms, thick aggradational parasequences are produced. However, where the rate of sediment transport exerts a stronger control on the deposition of the clinoforms, thinner parasequences that prograde in the direction of dip are produced. Thamama Group succession, including low angle ooid shoal clinoforms of the Upper Kharaib Formation, observed at Wadi Rahabah in Ras Al-Khaimah (UAE). The CarboCAT stratigraphic forward model has replicated sigmoid ooid shoals that prograde towards the basin centre.
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