Insights into Heterogeneity and Representative Elementary Volume of Vuggy Dolostones

Carbonate reservoirs commonly have significant heterogeneity and complex pore systems due to the multi-scale characteristic. Therefore, it is quite challenging to predict the petrophysical properties of such reservoirs based on restricted experimental data. In order to study the heterogeneity and size of the representative elementary volume (REV) of vuggy dolostones, a total of 26 samples with pore sizes ranging from micrometers to centimeters were collected from the Cambrian Xiaoerbulake Formation at the Kalping uplift in the Tarim Basin of northwestern China. In terms of the distribution of pore size and contribution of pores to porosity obtained by medical computed tomography testing, four types of pore systems (Types I-IV) were identified. The heterogeneity of carbonate reservoirs was further quantitatively evaluated by calculating the parameters of pore structure, heterogeneity, and porosity cyclicity. The results indicate that different pore systems yield variable porosities, pore structures, and heterogeneity. The porosity is relatively higher in Type-II and Type-IV samples compared to those of Type-I and Type-III. It is caused by well-developed large vugs in the former two types of samples, which increase porosity and reduce heterogeneity. Furthermore, the REV was calculated by deriving the coefficient of variation. Nine of the twenty-six samples reach the REV within the volume of traditional core plugs, which indicates that the REV sizes of vuggy dolostones are commonly much larger than the volume of traditional core plugs. Finally, this study indicates that REV sizes are affected by diverse factors. It can be effectively predicted by a new model established based on the relationship between REV sizes and quantitative parameters. The correlated coefficient of this model reaches 0.9320. The results of this study give more insights into accurately evaluating the petrophysical properties of vuggy carbonate reservoirs.

Automated summary

Predicting the petrophysical properties of carbonate reservoirs is challenging due to their heterogeneity and complex pore systems. This study analyzed 26 samples of vuggy dolostones and identified four types of pore systems. The heterogeneity of the carbonate reservoirs was quantitatively evaluated, and it was found that different pore systems result in variable porosities, pore structures, and heterogeneity. The study also discovered that the REV sizes of vuggy dolostones are commonly larger than traditional core plugs. A new model was established to effectively predict REV sizes based on quantitative parameters, and the results provide valuable insights into accurately evaluating the petrophysical properties of vuggy carbonate reservoirs.