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Integrating Geochemical Anomaly and Remote Sensing Methods to Predict Oil- and Gas-Bearing Areas in the Yanchang Oil Field, Ordos Basin, China

Guo, Jianming ; Fan, Hailong ; Wang, Xiangzeng ; [et al.]

Universidad Nacional de Colombia ; 2019

In: Earth Sciences Research Journal Vol. 23, No. 1 ( 2019-01-01), p. 79-86

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In: Earth Sciences Research Journal, Universidad Nacional de Colombia, Vol. 23, No. 1 ( 2019-01-01), p. 79-86

Abstract: Oil seepage is one of the most important characteristics of hydrocarbon formation, and understanding oil seepage is crucial for oil-gas exploration and the assessment of petroleum resources. Remote sensing and geochemical methods have the same material and theoretical bases for extracting oil and gas information from underlying strata and the identification of media features. As an emerging exploration method, hyperspectral remote sensing is efficient compared with traditional geochemistry because it is a finer, and sometimes more directly quantitative method for determining the specific mineral anomaly content. Hence, the use of both methods together is important. This paper describes the analysis of hyperspectral remote sensing data and the extraction of abnormal index information, including the level of carbonate alteration and the content of acidolytical hydrocarbons, pyrolysis hydrocarbons, headspace gas, and ferric and ferrous ions. The two methods have mutual authentication, and they are complementary and are useful in oil-bearing areas. When these methods are integrated, the acidolytical hydrocarbon index is the most effective geochemical index and is better at characterizing the oil field distribution than other indices. Also, hydrocarbon geochemical anomalies occurring in oil fields generally show continuous distribution points and are consistent with oil reservoirs. Consequently, a 3D model was established to comprehensively utilize hyperspectral remote sensing and geochemical data to determine the distribution of petroleum reservoirs efficiently as well as to delineate oil- and gas-bearing prospects. There is great potential for determining oil- and gas-bearing fields through the integration of hyperspectral and geochemical data.

Type of Medium: Online Resource

ISSN: 2339-3459 , 1794-6190

URL: Article

DOI: 10.15446/esrj.v23n1.57544

Language: Unknown

Publisher: Universidad Nacional de Colombia

Publication Date: 2019

detail.hit.zdb_id: 2233404-X

SSG: 7,36

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Rb-Sr Isotopic Geochronology and Geological Implications of Dongfeng Gold Deposit in Jiaodong Area

Zongyong, Wang ; Xin, Han ; Guxian, LV ; [et al.]

Universidad Nacional de Colombia ; 2016

In: Earth Sciences Research Journal Vol. 20, No. 1 ( 2016-04-30), p. 1-7

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In: Earth Sciences Research Journal, Universidad Nacional de Colombia, Vol. 20, No. 1 ( 2016-04-30), p. 1-7

Abstract: 〈 p 〉 The superlarge Dongfeng gold deposit is located in the Potouqing faults-alteration belt of the eastern part of the ‘Zhao-Lai-gold ore belt’, which belongs to the northwestern part of the Jiaodong area. Tectonically, ore bodies are controlled by faults and gold mainly occurs in the pyrite and polymetallic sulfide-bearing quartz vein. In this paper, Rb–Sr isotopic analysis is carried out with the beresite, which formed by hydrothermal metasomatism, and the Rb–Sr isochron age is 125.5±6.7Ma, indicating this deposit set up in the early Cretaceous of the late Yanshanian. Based on the relationship between the Dongfeng gold deposit and the Mesozoic granite, it is suggested that the formation of the gold deposit is a complex geological process of gradual enrichment and precipitation of the ore-forming elements. The initial 〈 sup 〉 87 〈 /sup 〉 Sr/ 〈 sup 〉 86 〈 /sup 〉 Sr ratio of the beresite is 0.711502±0.000069, which indicates the ore-forming materials mainly come from the crust. Combined with the complex mineralization process of the Dongfeng gold deposit and the reported H-O isotopic data, it is suggested that the ore-forming materials are mainly derived from the crust with some mantle materials, while the ore-forming fluids are originated primarily from magmatic hydrothermal and mantle with some precipitate water. 〈 /p 〉

Type of Medium: Online Resource

ISSN: 2339-3459 , 1794-6190

URL: Article

DOI: 10.15446/esrj.v20n1.55178

Language: Unknown

Publisher: Universidad Nacional de Colombia

Publication Date: 2016

detail.hit.zdb_id: 2233404-X

SSG: 7,36

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Fractal characteristics of reservoir structural fracture: a case study of Xujiahe Formation in central Yuanba area, Sichuan Basin

Fan, Cunhui ; Qin, Qirong ; Hu, Dongfeng ; [et al.]

Universidad Nacional de Colombia ; 2018

In: Earth Sciences Research Journal Vol. 22, No. 2 ( 2018-04-01), p. 113-118

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In: Earth Sciences Research Journal, Universidad Nacional de Colombia, Vol. 22, No. 2 ( 2018-04-01), p. 113-118

Abstract: The reservoir structural fractures have excellent fractal characteristics, as well as self-similarities. Based on the fractal theory, the surface fractal characteristics of faults and the fractal characteristic of fractures in the core of the Xujiahe Formation in the Fault-Fold Belt of the central Yuanba area were studied, and a quantitative relationship was set up between them. Based on the fractal characteristics of faults, predictions were made of the favorable fracture zone, which provides a new idea for the research of fracture, as well as offers theoretical references for exploring the fracture development zone during oil-gas exploration. The results show the following: the seismic value of reflection fault fractal dimension of the Xujiahe Formation is 1.5284; the correlation coefficient R2 is bigger than 0.9901; the capacity dimension linear regression correlation coefficient of the fracture in core of the Xujiahe Formation is bigger than 0.98; the fractal dimension D can well reflect the fault and fracture development degree, as well as the complexity of the fracture system; it can quantitatively calculate the density of the fracture of the reservoir in the area; the areas of capacity dimension bigger than 1.45 are the fracture development zones in the Fault-Fold Belt of the central Yuanba area; the oil and gas enrichment degree is high; the areas with the fractal dimension value between 0.95 and 1.45 are the fracture relatively-developed zones; the fractal dimension with values smaller than 0.95 are the lack of fracture areas.

Type of Medium: Online Resource

ISSN: 2339-3459 , 1794-6190

URL: Article

DOI: 10.15446/esrj.v22n2.72250

Language: Unknown

Publisher: Universidad Nacional de Colombia

Publication Date: 2018

detail.hit.zdb_id: 2233404-X

SSG: 7,36

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