4.5 Article

Dolomitization process and its implications for porosity development in dolostones: A case study from the Lower Triassic Feixianguan Formation, Jiannan area, Eastern Sichuan Basin, China

Journal

JOURNAL OF PETROLEUM SCIENCE AND ENGINEERING
Volume 131, Issue -, Pages 184-199

Publisher

ELSEVIER SCIENCE BV
DOI: 10.1016/j.petrol.2015.04.011

Keywords

dolomitization; porosity origin; overdolomitization; dissolution; Feixianguan formation

Funding

  1. National Natural Science Foundation of China [41103020]
  2. National Science and Technology Major Project [2011ZX05005-003-009HZ]
  3. Science Foundation of China University of Petroleum-Beijing [KYJJ2012-01-07]
  4. CNPC Innovation Foundation [2011D-5006-0104]
  5. Jianghan Oil Field Branch Company [*G0604-12-CL-0010]

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High-quality reservoirs in the third member of Lower Triassic Feixianguan Formation in the Jiannan area are exclusively restricted to dolostone, which makes it essential to understand origin of porosity in dolostone. However, the studies on the porosity origin of the dolostone in the Jiannan area are rare, and its origin is still controversial. In the paper, the formation mechanisms of porosity in replacement dolostones ever proposed worldwide are summarized, and they can be divided into two main categories based on the formation time of porosity relative to the dolomitization process: syndolomitization and postdolomitization origin. Studies on well cores that have been dolomitized to varying degrees indicate that the porosity in dolostones in the Jiannan area is a syndolomitization origin which is intimately associated with the dolomitization process, depending mainly on the degrees of dolomitization. Four stages of porosity evolution, each with distinctive petrographic and petrophysical properties, were distinguished. In initial stage of dolomitization (stage I), dolomite was formed mainly by volume for volume replacement with porosity constant or slight decrease due to external carbonate source added. In the next stages of progressive dolomitization (stage II), only minor intercrystalline pores were developed and the porosity slightly increased. In more advanced stage (stage III), abundant intercrystalline, as well as some vuggy pores, were formed by selectively dissolution of residual microcrystalline calcites and micritized grains, and the porosity remarkably increased with increasing dolomite content. In the most advanced stage (stage IV), dolomite cements were precipitated in pre-exiting pores in dolostone, resulting in varying decrease in porosity and permeability. Carbonates that must proceed at least in the stage III have the high porosity, while the dolostones in the stage II-2 that display similar rock frameworks only have a minor increase in porosity. (C) 2015 Elsevier B.V. All rights reserved.

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