Wang Zhonghou, Zhang Shujun. DISCOVERY AND CHARACTERISTICS OF HIGH-MINERALIZED SODA-DICARBONATE-TYPED WATER IN KARAMAY OIL REGION[J]. PETROLEUM GEOLOGY & EXPERIMENT, 1998, 20(1): 39-43. doi: 10.11781/sysydz199801039
Citation: Wang Zhonghou, Zhang Shujun. DISCOVERY AND CHARACTERISTICS OF HIGH-MINERALIZED SODA-DICARBONATE-TYPED WATER IN KARAMAY OIL REGION[J]. PETROLEUM GEOLOGY & EXPERIMENT, 1998, 20(1): 39-43. doi: 10.11781/sysydz199801039

DISCOVERY AND CHARACTERISTICS OF HIGH-MINERALIZED SODA-DICARBONATE-TYPED WATER IN KARAMAY OIL REGION

doi: 10.11781/sysydz199801039
  • Received Date: 1997-04-21
  • Publish Date: 1998-01-28
  • The NaHCO3-typed water with the degree of mineralization up to 150g/L which is most highly mine ralized formation water in the Junggar Basin so far is discovered in the Carboniferous, the Permian and the Lower Triassic strata of the Fengcheng oil Field and the North Karamay Oil Field in the Karamay oil region on the northwest edge of the Junggar Basin. The first chemical characteristic of water is high boron (B) content up to 1700-2300mg/L which has not been reported at home and abroad. The second one is very high CO32-+HCO3- content which makes up 56%~88% of the total anion content in the water. Of which, the CO32- content is up to 31-39g/L, HCO3- content to 14~36g/L, and the re1evant Ca2+ and Mg2+ contents are all less than 0.1g/L. The crude oil produced simultaneously with high-mineralized NaHCO3-typed water has greater change with density of 0.789~0.895g/cm3. This high pressure water rises from within along faults and is mixed with early formed CaCl2-typed water to result in middle-high mineralized Na2SO4-typed water which is seen in the paleo-edge-water region of the Permian and Triassic oil accumulation in No.8 area. The high-mineralized NaHCO3-typed water is inferred to generate when high pressure and high concentration CO2 gas of unknown genesis comes into water in the deep of the crust. The distribution of discovery points suggests that it may have something to do with the deep buried faults and is consistent with the distribution of light crude oil (with density 0.84g/cm3) on the whole.

     

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