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Identification of Effective Source Rocks in the Tertiary Evaporate Facies in the Western Qaidam Basin
Author(s): 
Pages: 125-129
Year: Issue:  1
Journal: ACTA SEDIMENTOLOGICA SINICA

Keyword:  盐湖相有效生油岩资源评价有机质丰度下限柴达木盆地;
Abstract: Although there have been large volumes of oil and gas discovered from the Tertiary reservoirs in the western Qaidam basin, the source rocks have been believed as the mudstones and shales with high calcite contents and low organic carbon contents (TOC as low as 0.2%) which were deposited in the Tertiary evapo rate facies. The mudstones and shales are in great thick and distributed widely in the western Qaidam basin. In general sense, an effective source rock is ref erred to the rock with enough TOC, which expels oil when its generating oil is over a saturation in the porosity of the rock at proper buried depths or subsurf ace temperatures. If a rock with very low TOC, its generating oil could not be over the saturation for oil to be expelled out, the rock was called as ineffective source rock. Most samples analyzed by previous studies belong to the ineffec tive source rocks as their original TOC too low. Therefore, how to identify the effective source rocks is one of key aspects in petroleum resource assess ment on the Tertiary of the Qaidam basin.   By sedimentology study on the potential source rocks (dark colored mudstones and shales in the evaporate facies), the authors of this article discovered that th ere were significantly vertical changes in lithologies and TOC contents in the m udstones and shales, even in a single rhythmic layer of the rocks. The thi ckness of one rhythmic layer was mostly less than 1 or 2 meters. The rhythmic layer generally consists of marl, calcareous mudstone or shale, gyps shale, saliferous shale, gypsum and halite from the bottom to the top. The gray colored marls and calcareous shales took a large part of the thickness in the rhythmic layer, but their TOC contents were generally less than 0.4%. The dark gray and black co lored shales, gyps shales, and saliferous shales were in small thickness (about 10~50 cm) in one rhythmic layer, but rich in TOC (mostly over 0.8%, some of the m over 1%, even over 2%). However, identifying the effective source rocks in such different lithologies becomes a key task in hydrocarbon resource assessment with in the evaporate sequence. The authors designed a high pressured thermal simu lation and combination with the Rock-Eva pyrolysis on the samples with different TOC contents and different lithologies, and found that the original TOC content s of the effective source rocks were at least over 0.4%. The simulation and result were described in detail in this paper.This paper investigated the effective source rocks mainly on hydrocarbon generating from kerogen and expelling from t he shales, but not on immature oil generating and expelling. Therefore, the effective source rocks postulated in this paper do not include the immature effecti ve source rocks. The simulations conducted by the authors were ended correspond ing to 0.9%~1.0% of the Ro, I.e. At about the peak generation of oil from kerog en. If no oil was expelled from the rock sample at the peak oil generation from kerogen, the rock was known as ineffective oil source rock. But with increase of the thermal maturation, gas could be generated and expelled from the rock sam ple so that the rock might be called as effective gas source rock. However, the maturity of the Tertiary potential source rocks was not very high, the correspo nding Ro is generally less than 1%, and little gas was generated from the source rocks. Therefore, 0.4% of TOC is an useful standard for identifying the effective source rocks in the evaporate sequence, and a helpful index to finding the oil and gas in the Tertiary of the Western Qaidam basin. Though the effect ive source rocks defined in this paper are much thinner and less volume than those described in previous studies, much more oil may expel from the effective sou rce rocks because of their high potential of oil generation than those of bulk volume of the marls and calcareous shales.
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