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REN Lihua. Classification Methods for Development Period of Fractures and Its Application: a case study from Budate Group of Hailaer Basin[J]. Acta Sedimentologica Sinica, 2007, 25(2): 253-260.
Citation: REN Lihua. Classification Methods for Development Period of Fractures and Its Application: a case study from Budate Group of Hailaer Basin[J]. Acta Sedimentologica Sinica, 2007, 25(2): 253-260.

Classification Methods for Development Period of Fractures and Its Application: a case study from Budate Group of Hailaer Basin

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  • Corresponding author: REN Lihua
  • Received Date: 1900-01-01
  • Rev Recd Date: 1900-01-01
  • Publish Date: 2007-04-10
  • Taking fractured reservoir of Budate Group in the buried hill of Sudeerte structural zone, Hailaer basin as an example, this paper discusses classification methods for development period of fractures. Based on the core observation and description, the stable isotopic analysis, fluid inclusion homogenization temperature of infilled components in fractures and acoustic emission technology, and combined with regional structural evolution history, the development period of fractures is researched. The result indicates about three stages of structural break occur in Budate Group. The fractures activity in stageⅠrelates to NantunDamoguaihe movement. The fractures are filled by
    mainly caleite, of which the forming temperature is between 72 and 76 degrees. In this stage, hydrocarbon inclusions are found but their maturity is low. The fractures of stageⅡare the result of regional extension movement of Yimin phase. StageⅡis subdivided into two stages. In the first stage, fractures are filled by calcite, of which the forming temperature is between 117 and 132 degrees. In the second stage, fractures are filled by microcrystallineaplite quartz, which forming temperature is between 120 and 154 degrees. Relatively, the hydrocarbon maturity of stageⅡboosts up in evidence. The fractures of stage Ⅲ come into being in violent uplift movement of Yimin telophase. The fillings of fractures are microcrystallineaplite calcite and quartz, of which the forming temperature is between 89 and 110 degrees. The hydrocarbon maturity weakens. It is significant for rebuilding evolution history fractures to classify the development period of fractures
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    沈阳化工大学材料科学与工程学院 沈阳 110142

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  • Received:  1900-01-01
  • Revised:  1900-01-01
  • Published:  2007-04-10

Classification Methods for Development Period of Fractures and Its Application: a case study from Budate Group of Hailaer Basin

    Corresponding author: REN Lihua

Abstract: Taking fractured reservoir of Budate Group in the buried hill of Sudeerte structural zone, Hailaer basin as an example, this paper discusses classification methods for development period of fractures. Based on the core observation and description, the stable isotopic analysis, fluid inclusion homogenization temperature of infilled components in fractures and acoustic emission technology, and combined with regional structural evolution history, the development period of fractures is researched. The result indicates about three stages of structural break occur in Budate Group. The fractures activity in stageⅠrelates to NantunDamoguaihe movement. The fractures are filled by
mainly caleite, of which the forming temperature is between 72 and 76 degrees. In this stage, hydrocarbon inclusions are found but their maturity is low. The fractures of stageⅡare the result of regional extension movement of Yimin phase. StageⅡis subdivided into two stages. In the first stage, fractures are filled by calcite, of which the forming temperature is between 117 and 132 degrees. In the second stage, fractures are filled by microcrystallineaplite quartz, which forming temperature is between 120 and 154 degrees. Relatively, the hydrocarbon maturity of stageⅡboosts up in evidence. The fractures of stage Ⅲ come into being in violent uplift movement of Yimin telophase. The fillings of fractures are microcrystallineaplite calcite and quartz, of which the forming temperature is between 89 and 110 degrees. The hydrocarbon maturity weakens. It is significant for rebuilding evolution history fractures to classify the development period of fractures

REN Lihua. Classification Methods for Development Period of Fractures and Its Application: a case study from Budate Group of Hailaer Basin[J]. Acta Sedimentologica Sinica, 2007, 25(2): 253-260.
Citation: REN Lihua. Classification Methods for Development Period of Fractures and Its Application: a case study from Budate Group of Hailaer Basin[J]. Acta Sedimentologica Sinica, 2007, 25(2): 253-260.

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