GEMESIS OF DAWSONITE AND ITS INDICATION SIGNIFICANCE OF CO2 MIGRATION AND ACCUMULATION
Received date: 2004-12-14
Revised date: 2005-06-20
Online published: 2005-10-25
As cement, authigenic mineral or vein, dawsonite is found not only in marine dolomite and oil shale, but also in terrigenous fragmentary rock and coal measures. Abundant instances and experimentations on synthetic dawsonite indicate that carbonic acid or excess carbon dioxide is necessary for generating dawsonite. Therefore, occurrence of dawsonite is always associated with carbon dioxide gas reservoir. Two genetic types of dawsonite, namely inorganic and organic are divided in response to origin of carbon dioxide. Inorganic genesis includes magmatic origin and carbonate decomposition origin. However, dawsonite can be acted as trace mineral suggesting migration or accumulation of fluids with abundant carbon dioxide to whatever origin it belongs. In geological background, occurrence or enrichment of dawsonite indicates that migration or accumulation of carbon dioxide with large scale has happened.
QU Xi-yu , GAO Yu-qiao , LIU Li . GEMESIS OF DAWSONITE AND ITS INDICATION SIGNIFICANCE OF CO2 MIGRATION AND ACCUMULATION[J]. Advances in Earth Science, 2005 , 20(10) : 1083 -1088 . DOI: 10.11867/j.issn.1001-8166.2005.10.1083
[1] Stevenson J S, Stevenson L S. The petrology of dawsonite at the type locality, Montreal[J].The Canadian Mineralogist, 1965, 8(2):249-252.
[2] Hay R L. Zeolite weathering in Olduvai Gorge, Tanganyika[J]. Bulletin of Geological Society of America, 1963, 74: 1 281-1 286.
[3] Smith J W, Milton C. Dawsonite in the Green river formation of Colorado[J]. Economic Geology, 1966, 61: 1 029-1 042.
[4] Loughnan F C, Goldbery R. Dawsonite and analcite in the singleton coal measures of the Sydney Basin[J]. American Mineralogist, 1972, 57( 9~10):1 437-1 447.
[5] Aikawa-Nobuyuki, Yoshida-Masare, Ichikaua-koichiro. Discovery of dawsonite and alumohydrocalcite from the Cretaceous Izumi Group in Osaka Prefecture, southwest Japan[J]. Journal of the Japanese Association of Mineralogists, Petrologists and Economic Geologists,1972, 11: 370-385.
[6] Goldbery R, Loughnan F C. Dawsonite, alumohydrocalcite, nordstrandite and gorceixite in Permian marine strata of the Sydney Basin, Australia[J]. Sedimentology, 1977, 24(4):565-579.
[7] Balfe P E, Carmichael D C. An occurrence of dawsonite in the Bowen basin[J]. Queensland Government Mining Journal,1980,81:519-522.
[8] Du Yunhua. Secondary dawsonite in Shengli Oil Field, China[J]. Scientia Geologica Sinica,1982,4:434-437.[杜韫华.一种次生的片钠铝石[J].地质科学, 1982, 4:434-437.]
[9] Xu Yanbin, Chen Ping, Xu Yongcheng. Dawsonite distribution and its relationship with oil and gas in Halar Basin[J].Oil & Gas Geology,1994,15(4):322-327. [徐衍彬,陈平,徐永成.海拉尔盆地碳钠铝石分布与油气的关系[J].石油与天然气地质, 1994, 15(4):322-327.]
[10] Zhang Jinliang. Reservoir petrology and diagenesis of Jiutang Formation, Ludong Depression[J].Journal of Xi’an Petroleum Institute,1995, 10(2):4-10.[ 张金亮.陆东凹陷九佛堂组储层岩石学及成岩作用[J].西安石油学院学报,1995,10(2):4-10.]
[11] Li Demin, Ye Sujuan, Zhang Guohua. Diagenesis of sandstone reservoirs in upper Tertiary Ying-Huang formation, LD15-1 prospect of Yinggehai basin[J]. China Offshore Oil and Gas (Geology),1995,9(5):307-312. [李德敏,叶素娟,张国华.莺歌海盆地LD15-1构造莺黄组砂岩储层的成岩作用[J].中国海上油气(地质), 1995, 9(5):307-312.]
[12] Huang Shanbing. The character of dawsonite in sandstone reservoirs of the Funing formation in Jinhu seg and its influence on reservoir properties[J]. Petroleum Exploration and Development,1996,23(2):32-34.[黄善炳.金湖凹陷阜宁组砂岩中片钠铝石特征及对物性的影响[J].石油勘探与开发, 1996, 23(2):32-34.]
[13] Wang Haiyun, Li Jie. Development mechanism of the secondary pores in the oil-gas reservoirs of northeastern basins of China[J].Journal of Daqing Petroleum Institute,1998, 22(4): 5-8. [王海云,李捷.东北含油气盆地储层次生孔隙形成机制[J].大庆石油学院学报,1998, 22(4):5-8.]
[14] Wu Xinmin, Kang Youxin, Jiang Yingze,et al. Petrologic characteristics of Putaohua reservoir in Daanbei oil field, Jilin[J].Journal of Xi’an Petroleum Institute,1999, 14(1):6-9.[吴新民,康有新,姜英泽,等.吉林大安北油田葡萄花储层岩石基本特征[J]. 西安石油学院学报,1999,14(1):6-9.]
[15] Song Ronghua, Wang Jun,He Yanhui, et al. Determine the formation fluid properties by using fluorescence micro-image technology[J]. Oil and Gas Well Testing,2000,9 (4):28-32.[宋荣华,王军,何艳辉,等.荧光显微图像技术判断储层流体性质研究[J].油气井测试,2000,9(4):28-32.]
[16] Chen Zhiyong, Wu Peikang, Wu Zhixuan. Petroleum geology and exploration potential of Lishui sag[J]. China Offshore Oil and Gas (Geology),2000,14(6):384-391. [陈志勇,吴培康,吴志轩.丽水凹陷石油地质特征及勘探前景[J].中国海上油气(地质),2000,14(6):384-391.]
[17] Li Chunmei, He Ke. Characteristics and types of inter-salt non-sandstone reservoir in Jianghan salt-lake basin[J].Journal of Jianghan Petroleum Institute,2001,23(3):6-9.[李春梅,何可.江汉盐湖盆地盐间非砂岩储层特征及储层类型[J].江汉石油学院学报, 2001, 23(3):6-9.]
[18] Palache C, Berman H,Frondel C.The System of Mineralogy [M].New York: Wiley Press Ltd,1960.1 124.
[19] Loughnan F C, See G T. Dawsonite in the greta coal measures at muswell-brook, New South Wales[J]. American Mineralogist,1967, 52:1 216-1 219.[20] Goldbery R, Loughnan F C. Dawsonite and nordstrandite in Permian Berry formation of the Sydney basin, NSW[J].American Mineralogist,1970, 55:477-490.
[21] Nicholas E, Ozimic S. Dawsonite in Sydney basin wells[J]. Australian Bureau of Mineral Research,1970, 7:118-131.
[22] Loughnan F C, Goldbery R. Dawsonite and analcite in the Singleton coal measures of the Sydney basin[J].American mineralogist,1972, 57:1 437-1 447.
[23] Baker J C, Bai G P, Hamilton P J, et al. Continental-scale magmatic carbon dioxide seepage recorded by dawsonite in the Bowen-Gunnedah-Sydney basin system, eastern Australia[J].Journal of Sedimentary Research,1995, A65(3):522-530.
[24] Bader E. Uber die buiding and konstitution des dawsonite and seine synthetic darstelling[J]. Mineralogy, Geology and Palaeotology,1938, 74:449-465.
[25] Chesworth W. Laboratory synthesis of dawsonite and its natural occurrences[J]. Natural and Physical Sciences,1971,231: 40-41.
[26] Zhang Xiangfeng, Wen Zhaoyin, Gu Zhonghua, et al. Hydrothermal synthesis and thermodynamic analysis of dawsonite-type compounds[J]. Journal of Solid State Chemistry, 2004, 177(3):849-855.
[27] Alexandra N G, Paul F C. Changes in geochemistry and mineralogy of thermally altered coal, Upper Hunter Valley, Australia[J]. International Journal of Coal Geology, 2004,57(3~4):197-210.
[28] Joseph M, Michael A, Richard A, et al. Mineralogical and geochemical consequences of the long-term presence of CO2 in natural reservoirs: an example from the Springerville-St.Johns field, Arizona, and New Mexico, USA[J].Chemical Geology,2005, 217:365-385.
[29] Bachu S, Gunter W D, Perkins E H. Aquifer disposal of CO2:Hydrodynamic and mineral trapping[J].Energy Converse Management,1994, 35:269-279.[30] Gunter W D, Wiwchar B, Perkins E H. Aquifer disposal of CO2 rich greenhouse gases: Extension of the time scale of experiment for CO2 sequestering reactions by geochemical modeling[J]. Mineralogy and Petrology,1997, 59:121-140.
[31] Xu Tianfu, John A A, Karsten P. Numerical simulation of CO2 disposal by mineral trapping in deep aquifers[J]. Applied Geochemistry,2004, 19:917-936.
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