Journal of Natural Gas Geoscience (Dec 2017)

Cracking and thermal maturity of Ordovician oils from Tahe Oilfield, Tarim Basin, NW China

  • Anlai Ma,
  • Zhijun Jin,
  • Cuishan Zhu,
  • Zhenrui Bai

DOI
https://doi.org/10.1016/j.jnggs.2017.12.001
Journal volume & issue
Vol. 2, no. 4
pp. 239 – 252

Abstract

Read online

The thermal maturity of the Ordovician oils from the Tahe oilfield of Tarim Basin, NW China was assessed through various maturity parameters, such as biomarkers, aromatic parameters, and diamondoid parameters. Both Ts/(Ts+Tm) and C29Ts/(C29H+C29Ts) values indicate that the maturity of oils has not reached the condensates stage, which is consistent with the maturity obtained by MPI1. However, the diamondoid maturity suggests that the oil maturity ranges 1.1%–1.6% Ro, which is apparently higher than that of the maturity obtained by the biomarker and MPI1. This discrepancy in maturity may indicate that the Ordovician reservoir has multiple filling history. The 4-MD+3-MD concentration of oils disperses and increases slowly when the Ts/(Ts+Tm) value is lower than 0.55. Meanwhile, the value increases rapidly when the Ts/(Ts+Tm) value is higher than 0.55. It is proposed that the diamondoid baseline is about 15 μg/goil for marine oils in the Tahe oilfield based on the diamondoid concentration of marine oils from reservoirs of various age. The concentration of 4-MD+3-MD of most Ordovician oils generally ranges from 4.5 to 35 μg/goil, suggesting that the degree of oil-cracking is lower than 50% and the deep Ordovician have potential of oil exploration. The distribution of the concentration of 4-MD+3-MD is characterized by being high in the east and south, low in the west and north, proposing that the two migration pathways exit in the oilfield, which are from east to west and from south to north, respectively. The migration directions are consistent with the results obtained from the oil density and the maturity parameters such as Ts/(Ts+Tm). Thus, suggesting the concentration of 4-MD+3-MD can be used as migration index in oilfield scale.

Keywords