Empirical rock physics relationships on carbonate dry-frame elastic properties

Wang, Zizhen; Njiekak, Gautier; Schmitt, Douglas R.; Wang, Ruihe

doi:10.1007/s12182-021-00565-y

Cited by 2 publications

(2 citation statements)

References 48 publications

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“…The relation between the V P and V S for sandstone is usually constant. Our newly developed carbonate borehole models follow a linear V P − V S relation (Figure 7), which has been verified from the test of carbonate samples [43]. The high determinant coefficient (R 2 value) indicates that the linear relation of V P and V S is independent of the pore AR.…”

Section: Discussionsupporting

confidence: 63%

Using a Synthetic Borehole Model to Determine the Pore Aspect Ratio Dependence of Velocities from Acoustic Well-Logging Data

Xiao

et al. 2023

Geofluids

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Revealing the elastic wave properties of carbonate rocks with complex pore structures and improving the reliability of carbonate reservoir descriptions have always been a global challenge in the field of carbonate geophysical exploration. In this study, we established a synthetic borehole model by selecting different particle sizes of cement, carbonate cuttings, and micro-silicon as the matrix, and silicon disks as the pores in carbonate rocks. We conducted four sets of low-porosity (0-3%) borehole models with different pore aspect ratios (ARs) and measured the P- and S-wave velocities ( V P and V S ) at the well-logging scale obtained from an acoustic logging system with one source and two receivers. The results indicate that the relationship between velocities and porosities in these borehole models follows a linear relation, with the pore AR significantly influencing the velocities at any given porosity. The velocity variation caused by pore AR reaches 560 m/s and 410 m/s at 3% porosity for the P-wave and S-wave within the AR range of 0.017-0.13. The theoretical DEM models provide a high and broad estimation of V P and V S at the well-logging scale in our measurement. They could perform better in fractured formation than in dissolved porous formation in carbonate reservoirs. The linear relation of V P and V S is independent of the pore AR and is effective for both fractured and dissolved porous formations. The change of V P / V S in different pore AR is more responsive to porosity and nonlinear dependent on the pore AR. The relationship between the defined normalized V P and V S indicates the pore AR has a more significant effect on V S than V P in our model. The constructed borehole models provide a unique opportunity for evaluating the availability of rock physics models at an acoustic logging scale. The study’s findings have significant implications for improving the reliability of carbonate reservoir descriptions and enhancing the accuracy of geophysical exploration in carbonate rocks with complex pore structures.

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Section: Discussionsupporting

confidence: 63%

Using a Synthetic Borehole Model to Determine the Pore Aspect Ratio Dependence of Velocities from Acoustic Well-Logging Data

Xiao

et al. 2023

Geofluids

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“…Neville [15] once proposed that "the properties of concrete can be predicted by means of the pore structure characteristics of cement." In addition, with the development of computer technology and the introduction of various software, several scholars simulated the microstructure of cement by constructing the accumulation of cement hydration products or simulating the spatial distribution of pores [16][17][18][19][20][21].…”

Section: Introductionmentioning

confidence: 99%

Research on the Relationship between Pore Structure and the Compressive Strength of Oil-Well Cement

et al. 2023

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The integrity of wellbore cement is an important guarantee for the long-term safety and effectiveness of carbon dioxide geological storage. During the process of CO2 capture, utilization, and storage, construction factors will cause changes in temperature and pressure distribution, leading to changes in the pore structure of cement and a decline in compressive strength, which can easily cause the failure of cement ring integrity. To provide theoretical guidance and analysis methods for evaluating the mechanism of cement strength performance degradation and optimizing injection parameters, in this study, we conducted the following research based on relevant studies: (1) The fracture theory was revised based on the characteristic factors of oil-well cement; (2) a pore structure model was established to analyze the failure process of cement, clarifying the relationship between pore structure and the compressive strength of cement; (3) the parameters of the pore structure model were determined and analyzed, considering the influence of cement content and total porosity on the model, and finally, the regression parameter K value was determined to be 1600. This article can provide a useful reference for the research on the failure of cement rings in the CO2 injection process and other related studies.

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Empirical rock physics relationships on carbonate dry-frame elastic properties

Cited by 2 publications

References 48 publications

Using a Synthetic Borehole Model to Determine the Pore Aspect Ratio Dependence of Velocities from Acoustic Well-Logging Data

Using a Synthetic Borehole Model to Determine the Pore Aspect Ratio Dependence of Velocities from Acoustic Well-Logging Data

Research on the Relationship between Pore Structure and the Compressive Strength of Oil-Well Cement

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