Affiliation:
1. School of Earth Sciences and Engineering Hohai University Nanjing 211100 China hhu.edu.cn
2. National Institute of Oceanography and Applied Geophysics – OGS Trieste Italy
Abstract
Abstract
Understanding the dependence of the rock properties on temperature is essential when dealing with heavy oil reservoirs. Reported rock physics models can hardly capture the effect of temperature on wave velocities. We propose a dual-porosity temperature-dependent model based on the coherent potential approximation, combining temperature- and frequency-dependent empirical equations for pore fluids with the David-Zimmerman model. The Maxwell model is adopted to obtain the complex shear modulus as a function of temperature and frequency. To verify the validity of the model, a glycerol-saturated tight sandstone and three heavy oil sand samples are considered. The comparison between the predicted and measured wave velocities shows that the model can quantitatively describe the behavior as a function of temperature. We find that there is a viscosity threshold (liquid point), where the P- and S-wave velocity variation trends change, while the porosity has no effect.
Funder
Jiangsu Province Science Fund for Distinguished Young Scholars
SINOPEC Key Laboratory of Geophysics
National Natural Science Foundation of China
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