REMOTE SENSING ANALYSIS AND NUMERICAL MODELLING OF SURFACE TEMPERATURE ANOMALIES OVER PETROLEUM ACCUMULATIONS: A CASE STUDY OF THE ALBORZ OILFIELD, CENTRAL IRAN

IF 1.8 4区 地球科学 Q3 GEOSCIENCES, MULTIDISCIPLINARY
Saeid Asadzadeh, Carlos Roberto de Souza Filho
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引用次数: 0

Abstract

Petroleum accumulations may coincide with either positive or negative temperature anomalies, which are conventionally detected using in situ temperature measurements made in shallow boreholes 1-3 m deep. Data gathered in this way, however, can be sparse and costly, and may require intensive fieldwork over a long time period. This article explores the possibility of detecting thermal anomalies associated with petroleum entrapment using satellite-derived land surface temperature data. For this aim, a robust correction scheme based on a physically-based land surface model was applied to night-time kinetic temperature data derived from NASA's ASTER instrument. The numerical model, known as SKinTES, attempts to simulate diurnal effects and to remove them from the measured temperature data to yield a residual temperature anomaly map. The performance of this methodology was tested over the Alborz oilfield located on an anticline of the same name in the Qom region of Central Iran. The study area has an arid to semi-arid climate and the surface geology is dominated by outcrops of the Lower Miocene Upper Red Formation. The modelling approach used successfully highlighted several negative temperature anomalies over the oil-bearing parts of the Alborz structure. In comparison to the uncorrected data, the anomalies were shown to be highly enhanced in both spatial and magnitude terms. In addition, time series analysis indicated that the temperature anomalies were consistent over time. The authenticity of the anomalies was confirmed by a suite of in situ temperature measurements made at shallow boreholes. In conclusion, a unifying framework is proposed to explain the occurrence of both negative and positive temperature anomalies over petroleum accumulations. The new modelling and correction scheme is expected to broaden the application of remote sensing land surface temperature data not only in petroleum exploration but also in other types of geothermic investigations including geothermal exploration.

石油积聚区地表温度异常的遥感分析和数值模拟:伊朗中部阿尔伯兹油田案例研究
石油积聚可能与正或负的温度异常现象相吻合,这种异常现象通常是通过在 1-3 米深的浅钻孔中进行现场温度测量来探测的。然而,这种方法收集的数据稀少且成本高昂,可能需要长时间密集的实地考察。本文探讨了利用卫星获得的地表温度数据探测与石油截留相关的热异常的可能性。为此,对 NASA 的 ASTER 仪器获取的夜间动能温度数据采用了基于物理地表模型的稳健校正方案。该数值模型被称为 SKinTES,试图模拟昼夜效应,并将其从测得的温度数据中去除,从而得出残余温度异常图。该方法的性能在位于伊朗中部库姆地区同名反斜线上的阿尔博兹油田进行了测试。研究区域属于干旱至半干旱气候,地表地质主要是下中新世上红岩层的露头。所使用的建模方法成功地突出了阿尔伯兹构造含油部分的几个负温度异常点。与未经校正的数据相比,这些异常现象在空间和幅度上都得到了极大的增强。此外,时间序列分析表明,温度异常在时间上是一致的。在浅层钻孔进行的一系列现场温度测量证实了异常的真实性。总之,提出了一个统一的框架来解释石油积聚区出现的正负温度异常。新的建模和校正方案有望拓宽遥感地表温度数据的应用范围,不仅用于石油勘探,还可用于其他类型的地热调查,包括地热勘探。
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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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