2018_EJRNL_PP_H_B__MOTRA_1.pdf
Terbatas  
» Gedung UPT Perpustakaan
Terbatas  
» Gedung UPT Perpustakaan
Measuring rock elastic constants and anisotropy parameters and understanding their changes in response to
changes in pressure and temperature is crucial for modeling and interpreting seismic measurements. The rapid
advance in seismic exploration and characterization of conventional and unconventional reservoirs requires a
thorough understanding of variations in seismic velocities in response to variations of the rock elastic constants
and anisotropy parameters. In attempt to develop this understanding,we measured variations in the elastic constants
of three rock samples in the lab as a function of temperature (up to 600 ?C) and pressure (up to 150 MPa) to
simulate the in-situ conditions using a triaxial ultrasonic pulse transmission method. The rock samples used in
this study came from a metamorphic rock core sample collected from a geothermal reservoir at the Larderello
Geothermal Field in Italy. The rock samples have different chemical and structural composition and inherently
contain both vertical transverse isotropy (VTI) and orthorhombic isotropy.We used twodifferent methods to calculate
the elastic stiffness constants and corresponding anisotropic parameters including VTI and orthorhombic
isotropy. Our results showed that increasing the pressure leads to an increase in the orthorhombic constants
while increasing the temperature leads to a decrease in these constants. The lagging decrease of the elastic constants
with respect to the decrease in the pressure is explained by the hysteresis phenomenon. These observations
and resultswill promote a better understanding and interpretation of reservoirswithin the seismic domain.