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Halahatang Field

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Journal Article
Journal: AAPG Bulletin
Published: 15 July 2019
AAPG Bulletin (2019) 103 (7): 1703–1743.
... uncertainties of predrill predictions and make exploration risky. Recently, a large oil accumulation buried to depths between 7000 m (23,000 ft) and 8000 m (26,000 ft) was discovered in the southern part of the Halahatang oil field area of the northern Tarim uplift, Tarim Basin (Fuyuan, Jinyue, Yueman...
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Journal Article
Journal: AAPG Bulletin
Published: 15 February 2020
AAPG Bulletin (2020) 104 (2): 329–355.
...Xiang Ge; Chuanbo Shen; David Selby; Martin Feely; Guangyou Zhu ABSTRACT The newly discovered Halahatang oil field in the northern Tarim Basin has a potential resource of more than 70 billion bbl of oil. Oil organic geochemical data from the Halahatang oil field indicate that the oils...
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Journal Article
Published: 02 June 2020
Journal of the Geological Society (2020) 177 (5): 1074–1091.
... and ceilings ( Loucks 1999 ). In oilfields east of Halahatang (Tahe, Lunnan), reservoirs with well-attested palaeokarst features are widespread ( Gu 1999 ; Liu et al. 2004 ; Zeng et al. 2011 a ; Zhao et al. 2014 ). In the Lunnan field, karst features occur mainly in the subsurface Yingshan Formation...
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Journal Article
Published: 31 July 2018
Canadian Journal of Earth Sciences (2018) 55 (12): 1297–1311.
... regional compressive–rotational shear stress field in the Middle Caledonian were altered by a north–northwest-trending regional compressive–rotational shear stress field in the Late Caledonian – Early Hercynian orogeny ( Zhu et al. 2011 ). Faults developed in the Halahatang area, most of which were...
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Petroleum evolution model for the <b>Halahatang</b> oil <b>field</b>, northern Tarim Basi...
Published: 15 February 2020
Figure 9. Petroleum evolution model for the Halahatang oil field, northern Tarim Basin. (A) Halahatang depression during the late Silurian. (B) Oil generation during the early Permian. (C) Oil migration and accumulation process during the late Permian to Early Triassic. (D) Present-day
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Evolution of petroleum accumulations in the <b>Halahatang</b> oil <b>field</b> area. The ...
Published: 15 July 2019
Figure 14. Evolution of petroleum accumulations in the Halahatang oil field area. The location of the AA′ section is shown in Figure 1C . (A) Following deposition of the Ordovician Yingshan Formation, the Yingshan and Yijianfang Formations were exposed for a short time as the result of sea level
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(A) A burial history temperature–time plot for the <b>Halahatang</b> (Ha) oil fiel...
Published: 15 February 2020
Figure 7. (A) A burial history temperature–time plot for the Halahatang (Ha) oil field, showing the key time for oil migration and/or accumulation. (B) A homogenization temperature frequency distribution histogram for aqueous fluid inclusions (AI) coeval with hydrocarbon-bearing fluid inclusions
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Chromatograms of superdeep Ordovician oil samples from the <b>Halahatang</b> oil f...
Published: 15 July 2019
Figure 10. Chromatograms of superdeep Ordovician oil samples from the Halahatang oil field area. C 21 P = C 21 pregnane; C 21 TT = C 21 tricyclic terpane; C 22 P = C 22 homopregnane; C 23 TT = C 23 tricyclic terpane; C 27 RS = C 27 20Rααα regular sterane; C 28 RS = C 28 20R ααα regular
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Generalized geologic setting of the <b>Halahatang</b> region, northern Tarim Basin...
Published: 15 July 2019
of Fuyuan (FY), Guole (GL), Ha6 (Ha), Hadexun (HD), Jinyue (JY), Rewapu (RP), Xinken (XK), and Yueman (YM) blocks in the Halahatang oil field. (D) Composite stratigraphic column for the northern Tarim Basin. ∈ = Cambrian; ∈ 1 w = lower Cambrian Wusonggeer Formation; ∈ 1 x=lower Cambrian Xiaoerbulake
Journal Article
Journal: Lithosphere
Publisher: GSW
Published: 12 July 2021
Lithosphere (2021) 2021 (Special 1): 6784641.
... and hydrocarbon reserves. The method was used in the evaluation of the fault-karst reservoir in the Halahatang (HLHT) oilfield, which is located in the north of Tarim Basin. The results show that the fault-karst reservoirs along major faults and their internal structures are effectively recognized, and the error...
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Journal Article
Published: 09 September 2015
Journal of the Geological Society (2016) 173 (1): 228–239.
... on the Halahatang trachydacite and Wajilitag olivine clinopyroxenite, which are 287.2 ± 2.0 Ma and 283.2 ± 2.0 Ma, respectively. The trachydacite overlies the uppermost basalt and constrains the latest eruption age of basalt in northern Tarim. The latter is the first high-resolution date for the Wajilitag mafic...
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Journal Article
Published: 01 August 2019
Geological Magazine (2020) 157 (4): 527–538.
...Wenxue Han; Xiangchun Chang; Weijiao Ma; Shizhen Tao; Jingli Yao; Lianhua Hou; Weiwei Yang Abstract The carbon isotope value of ethane in the southern part of the Jingbian gas field is lower than that in the northern part, indicating a carbon isotopic reversal in the southern Jingbian gas field (δ...
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Journal Article
Journal: AAPG Bulletin
Published: 15 April 2019
AAPG Bulletin (2019) 103 (4): 973–995.
... to this depression because of its relatively complicated conditions of hydrocarbon accumulation. However, with the recent petroleum discovery in the Pishanbeixin-1 and Luosi-2 wells, the area has become one of the hot spots in oil and gas exploration within the Tarim Basin. The Bashituo oil field is one...
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Gas chromatography (GC), mass-to-charge ratio ( m / z ) 191, and  m / z  21...
Published: 15 February 2020
Figure 4. Gas chromatography (GC), mass-to-charge ratio ( m / z ) 191, and m / z 217 mass chromatogram of the oil samples (Halahatang [Ha]9, Ha11, Ha701, Xinken [XK]4-3, and Ha15-2) in Halahatang oil field, northern Tarim Basin. H = hopane; HP = homopregnane; P = pregnane; Ph = phytane; Pr
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The relationship between subsurface depth and measured temperatures and pre...
Published: 15 July 2019
Figure 15. The relationship between subsurface depth and measured temperatures and pressures in wells in the Halahatang oil field area. D = depth; FY = Fuyuan; HD = Hade; JY = Jinyue; RP = Repu; P = pressure; R 2 = coefficient of determination; T = temperature; XK = Xinken; YM = Yueman.
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Petroleum enrichment of superdeep Ordovician carbonate reservoirs near faul...
Published: 15 July 2019
Figure 17. Petroleum enrichment of superdeep Ordovician carbonate reservoirs near fault zones in the Halahatang oil field area. Columns indicate cumulative oil production (in tens of thousand tons [7.35 × 10 4 bbl]). FY = Fuyuan; JY = Jinyue; RP = Repu; YM = Yueman.
Journal Article
Journal: Interpretation
Published: 16 February 2017
Interpretation (2017) 5 (2): SE61–SE74.
... facies analysis to understand the development and depositional setting of the Triassic-age Akekule Formation in Tahe field, Northwest China. The workflow begins with sequence and sedimentary cycle analysis on selected benchmark wells. We then identify sand bodies within each sedimentary cycle using well...
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Molecular and carbon isotope properties of oil-dissolved gases from the Ord...
Published: 15 July 2019
Figure 9. Molecular and carbon isotope properties of oil-dissolved gases from the Ordovician reservoirs in the Halahatang oil field area. (A) Plot of ethane content versus methane content of gases. (B) Plot of depth versus dryness coefficient of gases. (C) Plot of ethane carbon isotope versus
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Characteristics of fluid inclusions in superdeep reservoirs in the Halahata...
Published: 15 July 2019
Figure 12. Characteristics of fluid inclusions in superdeep reservoirs in the Halahatang oil field area (A–K) and the bar graph (L) depicts the frequency distribution histogram of homogenization temperature of inclusions from well Jinyue 2. Hydrocarbon inclusions are marked by yellow boxes. Panel
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Burial history curve and hydrocarbon charging periods for samples from well...
Published: 15 July 2019
Figure 13. Burial history curve and hydrocarbon charging periods for samples from well Jinyue 2 in the Halahatang oil field area. Bottom figure is the enlargement with details for the last 10 Ma. C = Carboniferous; D = Devonian; J = Jurassic; K = Cretaceous; N1 = Miocene; N1-2k = Miocene