托班岩黄金管热模拟实验的地球化学意义探讨

Discussion on geochemical significance of gold-tube pyrolysis simulation experiments on torbanite

  • 摘要: 托班岩(Torbanite)是一类富含Ⅰ型有机质的典型油页岩,其生物母质以A族葡萄球藻(Botryococcus braunii race A)为主,具有以脂肪族结构占绝对优势、原生热演化程度低等特点,是开展油气地球化学基础研究的理想端元样品。以澳大利亚东南部二叠系托班岩为研究对象,在封闭体系下开展金属管热模拟实验,系统分析了热演化过程中气态烃、液态烃及固体残渣的地球化学特征,探讨了高演化天然气碳同位素倒转的成因机制。研究结果表明,优质端元样品的生烃模拟实验能够揭示丰富的地球化学信息,对完善油气地球化学理论、提高油气勘探及资源评价的科学性具有重要意义。

     

    Abstract: Torbanite is a typical oil shale rich in Type Ⅰ organic matter, with its biological precursors primarily being Botryococcus braunii race A. It is characterized by an overwhelmingly dominant aliphatic structure and low primary thermal maturity, making it an ideal end-member sample for conducting fundamental research in petroleum geochemistry. Taking the Permian torbanite from southeastern Australia as the research object, metal-tube pyrolysis simulation experiments were conducted in a closed system. The geochemical characteristics of gaseous hydrocarbons, liquid hydrocarbons, and solid residues during thermal evolution were systematically analyzed, and the genetic mechanisms of carbon isotope reversal in highly mature natural gas were explored. The research results show that hydrocarbon generation simulation experiments using high-quality end-member samples can reveal abundant geochemical information, which is of great significance for improving petroleum geochemical theories and enhancing the scientific nature of hydrocarbon exploration and resource evaluation.

     

/

返回文章
返回