Origin of deep carbonate reservoir in northeastern Sichuan Basin: New insights from in-situ hydrothermal diamond anvil cell experiments

In situ Raman analysis on the segregated near-equilibrium carbonate-fluid interaction at elevated temperatures (room temperature−260 °C) and pressures (13-812 MPa) in a hydrothermal diamond anvil cell (HDAC) reveals the preservation mechanism of porosity in deep carbonate reservoirs in the northeast...

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Published in	Journal of Central South University Vol. 24; no. 6; pp. 1450 - 1464
Main Authors	Zhang, Shan-ming, Liu, Bo, Qin, Shan, Zhang, Xue-feng, Tian, Yong-jing, Guo, Rong-tao, Liu, Jian-qiang
Format	Journal Article
Language	English
Published	Changsha Central South University 01.06.2017 Springer Nature B.V
Subjects	Carbon dioxide Diamonds Dissolution Engineering Heating In situ leaching Leaching Metallic Materials Minerals Photomicrographs Porosity Preservation Raman spectroscopy Reservoirs Rocks Sediments Sichuan Basin Sichuan Basin hydrothermal diamond anvil cell (HDAC) porosity preservation closed system early fast deep burial
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ISSN	2095-2899 2227-5223
DOI	10.1007/s11771-017-3549-y

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Abstract	In situ Raman analysis on the segregated near-equilibrium carbonate-fluid interaction at elevated temperatures (room temperature−260 °C) and pressures (13-812 MPa) in a hydrothermal diamond anvil cell (HDAC) reveals the preservation mechanism of porosity in deep carbonate reservoirs in the northeastern Sichuan Basin. The carbonate-fluid interaction was investigated by separately heating carbonate minerals and rocks with four different acid solutions (saturated CO 2 and H 2 S solutions, HCl, CH 3 COOH) in a sealed sample chamber. A minor continuous precipitation with increasing temperatures and pressures was observed during the experiments which caused minor sample volume change. The closed system is a preservation of pores and burial dissolution may not be the dominant diagenesis in the origin of porosity. Thin section photomicrographs observations in Changxing and Feixianguan Formations demonstrate that eogenetic pores such as moldic or intragranular pores with late small euhedral minerals, intergranular, intercrystal and biological cavity pores are the main pore types for the reservoirs. Early fast deep burial makes the porous carbonate sediments get into the closed system as soon as possible and preserves the pores created in the early diagenetic stage to make significant contribution to the deep reservoir quality. The anomalous high porosity at a given depth may come from the inheritance of primary pores and eogenetic porosity is fundamental to carbonate reservoir development. The favorable factors for deep reservoir origin include durable meteoric leaching, early fast deep burial, early dolomitization, etc. This deep pores preservation mechanism may be of great importance to the further exploration in deep carbonate reservoirs in the northeastern Sichuan Basin.
AbstractList	In situ Raman analysis on the segregated near-equilibrium carbonate-fluid interaction at elevated temperatures (room temperature−260 °C) and pressures (13-812 MPa) in a hydrothermal diamond anvil cell (HDAC) reveals the preservation mechanism of porosity in deep carbonate reservoirs in the northeastern Sichuan Basin. The carbonate-fluid interaction was investigated by separately heating carbonate minerals and rocks with four different acid solutions (saturated CO2 and H2S solutions, HCl, CH3COOH) in a sealed sample chamber. A minor continuous precipitation with increasing temperatures and pressures was observed during the experiments which caused minor sample volume change. The closed system is a preservation of pores and burial dissolution may not be the dominant diagenesis in the origin of porosity. Thin section photomicrographs observations in Changxing and Feixianguan Formations demonstrate that eogenetic pores such as moldic or intragranular pores with late small euhedral minerals, intergranular, intercrystal and biological cavity pores are the main pore types for the reservoirs. Early fast deep burial makes the porous carbonate sediments get into the closed system as soon as possible and preserves the pores created in the early diagenetic stage to make significant contribution to the deep reservoir quality. The anomalous high porosity at a given depth may come from the inheritance of primary pores and eogenetic porosity is fundamental to carbonate reservoir development. The favorable factors for deep reservoir origin include durable meteoric leaching, early fast deep burial, early dolomitization, etc. This deep pores preservation mechanism may be of great importance to the further exploration in deep carbonate reservoirs in the northeastern Sichuan Basin. In situ Raman analysis on the segregated near-equilibrium carbonate-fluid interaction at elevated temperatures (room temperature−260 °C) and pressures (13-812 MPa) in a hydrothermal diamond anvil cell (HDAC) reveals the preservation mechanism of porosity in deep carbonate reservoirs in the northeastern Sichuan Basin. The carbonate-fluid interaction was investigated by separately heating carbonate minerals and rocks with four different acid solutions (saturated CO 2 and H 2 S solutions, HCl, CH 3 COOH) in a sealed sample chamber. A minor continuous precipitation with increasing temperatures and pressures was observed during the experiments which caused minor sample volume change. The closed system is a preservation of pores and burial dissolution may not be the dominant diagenesis in the origin of porosity. Thin section photomicrographs observations in Changxing and Feixianguan Formations demonstrate that eogenetic pores such as moldic or intragranular pores with late small euhedral minerals, intergranular, intercrystal and biological cavity pores are the main pore types for the reservoirs. Early fast deep burial makes the porous carbonate sediments get into the closed system as soon as possible and preserves the pores created in the early diagenetic stage to make significant contribution to the deep reservoir quality. The anomalous high porosity at a given depth may come from the inheritance of primary pores and eogenetic porosity is fundamental to carbonate reservoir development. The favorable factors for deep reservoir origin include durable meteoric leaching, early fast deep burial, early dolomitization, etc. This deep pores preservation mechanism may be of great importance to the further exploration in deep carbonate reservoirs in the northeastern Sichuan Basin.
Author	Zhang, Shan-ming Zhang, Xue-feng Liu, Bo Qin, Shan Liu, Jian-qiang Tian, Yong-jing Guo, Rong-tao
Author_xml	– sequence: 1 givenname: Shan-ming surname: Zhang fullname: Zhang, Shan-ming organization: School of Earth and Space Sciences, Peking University, Institute of Oil and Gas, Peking University – sequence: 2 givenname: Bo surname: Liu fullname: Liu, Bo organization: Institute of Oil and Gas, Peking University – sequence: 3 givenname: Shan surname: Qin fullname: Qin, Shan email: sqin@pku.edu.cn organization: School of Earth and Space Sciences, Peking University – sequence: 4 givenname: Xue-feng surname: Zhang fullname: Zhang, Xue-feng organization: Institute of Oil and Gas, Peking University – sequence: 5 givenname: Yong-jing surname: Tian fullname: Tian, Yong-jing organization: China United Coalbed Methane Corporation Ltd – sequence: 6 givenname: Rong-tao surname: Guo fullname: Guo, Rong-tao organization: School of Earth and Space Sciences, Peking University, Institute of Oil and Gas, Peking University – sequence: 7 givenname: Jian-qiang surname: Liu fullname: Liu, Jian-qiang organization: School of Earth and Space Sciences, Peking University, Institute of Oil and Gas, Peking University
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CitedBy_id	crossref_primary_10_3799_dqkx_2023_031 crossref_primary_10_1016_j_petrol_2017_12_090 crossref_primary_10_3390_en16145372
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Snippet	In situ Raman analysis on the segregated near-equilibrium carbonate-fluid interaction at elevated temperatures (room temperature−260 °C) and pressures (13-812...
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SubjectTerms	Carbon dioxide Diamonds Dissolution Engineering Heating In situ leaching Leaching Metallic Materials Minerals Photomicrographs Porosity Preservation Raman spectroscopy Reservoirs Rocks Sediments
Title	Origin of deep carbonate reservoir in northeastern Sichuan Basin: New insights from in-situ hydrothermal diamond anvil cell experiments
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