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早期煤化作用机制与有机质早期成烃演化 被引量:3

ADVANCES IN THE MECHANISM OF EARLY-STAGE COALIFICATION AND DIAGENSIS OF ORGANIC MATTER
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摘要 近年来 ,未熟和低熟油气田的发现、生物气藏的勘探和开发 ,极大地促进了对有机质早期转变的研究 ;而有机质早期转变机制的正确认识对于煤和干酪根中显微组分的成因、后期热演化都有着重要的影响。对早期煤化作用机制和有机质早期成烃作用的研究现状、进展及存在的问题进行了综述。 In recent years, great achievements have been made in the mechanism of early-stage coalification and diagensis of organic matter as the results of the exploration and studies on the immature-low mature oils and biogenic gas. In addition, the results of early-stage coalification and diagensis of organic matter are also an important factor for correctly identifying the macerals genesis and its matured process. The research advances are as follows: (1) Advances in coal macerals and lithotypes origin, especilly the results form microscope observation of present peat. Through analysing petrologic and geochemical characteristics of varied salt and fresh water bogs; temperate zone, subtropical zone and the tropics bogs; herbaceous and woody plants peat and the peats formed varied sedimentary environments; Comparing similarities and differences of plant tissue and organ among present bogs surface layer, buried peat and plant relics in coal ball. Coal geologist have studied the degradation process of plant, and present possible cause of coal macerals formation from some plant tissue and organ during biochemical coalification and coalification. (2) Geochemical advances in diagensis of sediementary organic matter. Through the analysis methods such as pyrolysis, thermal simulation experiment, infrared spectroscopic analysis, element analysis, 13CNMR, isotope assaying, GC-MS and so on, scientists have been studing organic molecules, such as humus, humic acid, fat acid, lignin etc , transition and mechanism during diagensis of sedimentary organic matter, and getting clearer understanding of kerogen chemical structure and mature process. (3) Through artificial coalification of peat and the thermal simulation of present plant, analysing the physical-chemical transition process of sedimentary organic matter during early-stage coalification. (4) There are two aspects of influence of bacteria on coal formation during early-stage coalification. ① A lot of microorganis were identified with investigation on peat bogs, and there are different microbiota from upper to bottom of peat bogs, and microorganis amount is also different. The influence of different bogs types and sedimentary environment on bacteria growth are also researched. The results show that microorganis play an important role on the plant relics degradation and transition of the bogs. ② Through analysing biomarker and petrologic characteristics, researching microorganis contribution and bacteria degradation degree on organic matter in sediment rocks. Nevertheless there are also a lot of question in early-stage coalification: Firstly, the origin of coal maceral and transition process are not completely be understood. As we know, it is qualitative change in geochemistry from plant relics to hard coal. The components and nature of peat and brown coal are very complicated, but those of hard coal are relatively simple, so there must bea lot of gas and liquid matter from the transition process, for example, gas in browl coal, immature oil and 'transitional zone' gas and so on are possibility relate to early-stage coalification. In addition, the nature of coal macerals themselves must change very hard, for example, a lot of inertinite were produced during transition from browl coal to hard coal. At present, the transition process is also situated in finding out the why and wherefore. Secondly, the influence of microorganis growth and activities on early-stage coalification. It is no doubt that microorganis degradated sedimentary organic matter, but how much organic carbon in sediment rocks come from microorganis, have disputed among scientiests because no enough proof showed that there were anti-degradation bacteria components in sediment rocks.
作者 姚素平
出处 《地球科学进展》 CAS CSCD 2002年第1期63-68,共6页 Advances in Earth Science
基金 国家自然科学基金资助项目 :"早期煤化作用机制与有机质成岩演化研究"(编号:40 0 730 17)资助
关键词 早期煤化作用 早期成烃演化 微生物 显微组分 干酪根 有机质 Early-stage coalification Microorganis Maceral.
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