论文降重
免费查重- 钛学术文献服务平台 \
- 学术期刊 \
- 基础科学期刊 \
- 天文学、地球科学期刊 \
- 地质学报(英文版)期刊 \
Experimental Study on Water-rock Reactions with CO2 Fluid in a Deep Sandstone Formation under High Temperature and Pressure
Experimental Study on Water-rock Reactions with CO2 Fluid in a Deep Sandstone Formation under High Temperature and Pressure
基本信息来源于合作网站,原文需代理用户跳转至来源网站获取
摘要:
Qiongdongnan Basin has a tectonic geological background of high temperature and high pressure in a deep reservoir setting, with mantle-derived CO2. A water-rock reaction device was used under high temperature and high pressure conditions, in conjunction with scanning electron microscope (SEM) observations, to carry out an experimental study of the diagenetic reaction between sandstone at depth and CO2-rich fluid, which is of great significance for revealing the dissolution of deep clastic rock reservoirs and the developmental mechanism of secondary pores, promoting deep oil and gas exploration.In this study, the experimental scheme of the water-rock reaction system was designed according to the parameters of the diagenetic background of the deep sandstone reservoir in the Qiongdongnan Basin. Three groups of single mineral samples were prepared in this experiment, including K-feldspar samples, albite samples and calcite samples. Using CO2 as a reaction solution, a series of diagenetic reaction simulation experiments were carried out in a semi-closed high temperature and high pressure simulation system. A field emission scanning electron microscope (SEM) was used to observe the microscopic appearance of the mineral samples after the water-rock reaction, the characteristics of dissolution under high temperature and high pressure, as well as the development of secondary pores. The experimental results showed that the CO2-rich fluid has an obvious dissolution effect on K-feldspar, albite and calcite under high temperature and high pressure. For the three minerals, the main temperature and pressure window for dissolution ranged from 150°C to 300°C and 45 MPa to 60 MPa. Scanning electron microscope observations revealed that the dissolution effect of K-feldspar is most obvious under conditions of 150°C and 45 MPa, in contrast to conditions of 200°C and 50 MPa for albite and calcite. Through the comparative analysis of experimental conditions and procedures, a coupling effect occurred between the temperature and pressure change and the dissolution strength of K-feldspar, albite and calcite. Under high temperature and high pressure, pressure changed the solubility of CO2, furthermore, the dissolution effect and strength of the sandstone components were also affected. The experiment revealed that high temperature and high pressure conditions with CO2-rich fluid has a significant dissolution effect on aluminosilicate minerals and is conducive to the formation of secondary pores and effective reservoirs. Going forward with the above understanding has important implications for the promotion of deep oil and gas exploration.
推荐文章
Geochemical tracing and modeling of surface and deep water-rock interactions in elementary granitic
Weathering
Water pathways
U activity ratios
Sr isotope ratios
Anthropogenic gases (CFC,SF6)
CZO
An experimental study of interaction between pure water and alkaline feldspar at high temperatures a
Alkaline feldspar
Autoclave
High-temperature and high-pressure experiments
Thermodynamic properties of San Carlos olivine at high temperature and high pressure
San Carlos olivine
Thermodynamic property
Thermal expansion
Heat capacity
Temperature gradient
An experimental study on metal precipitation driven by fluid mixing: implications for genesis of car
Metal precipitation
Fluid mixing
Sulfur species
MVT lead–zinc ore deposits
Carbonate-hosted
lead–zinc deposits
内容分析
关键词云
关键词热度
相关文献总数
(/次)
(/年)
引文网络
引文网络
二级参考文献 (419)
共引文献 (278)
参考文献 (20)
节点文献
引证文献 (0)
同被引文献 (0)
二级引证文献 (0)
1952(2)
- 参考文献(0)
- 二级参考文献(2)
1963(1)
- 参考文献(0)
- 二级参考文献(1)
1964(2)
- 参考文献(0)
- 二级参考文献(2)
1965(1)
- 参考文献(0)
- 二级参考文献(1)
1971(2)
- 参考文献(0)
- 二级参考文献(2)
1976(2)
- 参考文献(0)
- 二级参考文献(2)
1977(1)
- 参考文献(0)
- 二级参考文献(1)
1978(5)
- 参考文献(0)
- 二级参考文献(5)
1979(2)
- 参考文献(0)
- 二级参考文献(2)
1980(3)
- 参考文献(0)
- 二级参考文献(3)
1981(1)
- 参考文献(0)
- 二级参考文献(1)
1982(3)
- 参考文献(0)
- 二级参考文献(3)
1983(1)
- 参考文献(0)
- 二级参考文献(1)
1984(1)
- 参考文献(0)
- 二级参考文献(1)
1987(6)
- 参考文献(2)
- 二级参考文献(4)
1988(2)
- 参考文献(0)
- 二级参考文献(2)
1989(2)
- 参考文献(0)
- 二级参考文献(2)
1990(3)
- 参考文献(1)
- 二级参考文献(2)
1991(6)
- 参考文献(0)
- 二级参考文献(6)
1992(7)
- 参考文献(0)
- 二级参考文献(7)
1993(4)
- 参考文献(0)
- 二级参考文献(4)
1994(6)
- 参考文献(0)
- 二级参考文献(6)
1995(7)
- 参考文献(0)
- 二级参考文献(7)
1996(8)
- 参考文献(0)
- 二级参考文献(8)
1997(8)
- 参考文献(0)
- 二级参考文献(8)
1998(3)
- 参考文献(0)
- 二级参考文献(3)
1999(11)
- 参考文献(0)
- 二级参考文献(11)
2000(21)
- 参考文献(0)
- 二级参考文献(21)
2001(13)
- 参考文献(0)
- 二级参考文献(13)
2002(15)
- 参考文献(0)
- 二级参考文献(15)
2003(26)
- 参考文献(3)
- 二级参考文献(23)
2004(16)
- 参考文献(0)
- 二级参考文献(16)
2005(36)
- 参考文献(0)
- 二级参考文献(36)
2006(29)
- 参考文献(1)
- 二级参考文献(28)
2007(27)
- 参考文献(1)
- 二级参考文献(26)
2008(21)
- 参考文献(2)
- 二级参考文献(19)
2009(26)
- 参考文献(1)
- 二级参考文献(25)
2010(16)
- 参考文献(2)
- 二级参考文献(14)
2011(22)
- 参考文献(1)
- 二级参考文献(21)
2012(27)
- 参考文献(0)
- 二级参考文献(27)
2013(14)
- 参考文献(1)
- 二级参考文献(13)
2014(8)
- 参考文献(1)
- 二级参考文献(7)
2015(8)
- 参考文献(1)
- 二级参考文献(7)
2016(3)
- 参考文献(1)
- 二级参考文献(2)
2017(6)
- 参考文献(1)
- 二级参考文献(5)
2018(3)
- 参考文献(0)
- 二级参考文献(3)
2019(2)
- 参考文献(1)
- 二级参考文献(1)
2021(0)
- 参考文献(0)
- 二级参考文献(0)
- 引证文献(0)
- 二级引证文献(0)
引文网络交叉学科
相关学者/机构
期刊影响力
地质学报(英文版)
主办单位:
中国地质学会
出版周期:
双月刊
ISSN:
1000-9515
CN:
11-2001/P
开本:
16开
出版地:
北京复外百万庄26号
邮发代号:
创刊时间:
1922
语种:
eng
出版文献量(篇)
3189
总下载数(次)
0
总被引数(次)
14369
期刊文献
相关文献
推荐文献
- 期刊分类
- 期刊(年)
- 期刊(期)
- 期刊推荐
力学
化学
地球物理学
地质学
基础科学综合
大学学报
天文学
天文学、地球科学
数学
气象学
海洋学
物理学
生物学
生物科学
自然地理学和测绘学
自然科学总论
自然科学理论与方法
资源科学
非线性科学与系统科学
地质学报(英文版)2022
地质学报(英文版)2021
地质学报(英文版)2020
地质学报(英文版)2019
地质学报(英文版)2018
地质学报(英文版)2017
地质学报(英文版)2016
地质学报(英文版)2015
地质学报(英文版)2014
地质学报(英文版)2013
地质学报(英文版)2012
地质学报(英文版)2011
地质学报(英文版)2010
地质学报(英文版)2009
地质学报(英文版)2008
地质学报(英文版)2007
地质学报(英文版)2006
地质学报(英文版)2005
地质学报(英文版)2004
地质学报(英文版)2003
地质学报(英文版)2002
地质学报(英文版)2001
地质学报(英文版)2000
地质学报(英文版)1999
