Replication data for: Compressional wave phase velocity measurements during hydrate growth in partially and fully water saturated sandstonedoi:10.18710/GDT85XDataverseNO2022-05-181Saether, Mathias M., 2022, "Replication data for: Compressional wave phase velocity measurements during hydrate growth in partially and fully water saturated sandstone", https://doi.org/10.18710/GDT85X, DataverseNO, V1Replication data for: Compressional wave phase velocity measurements during hydrate growth in partially and fully water saturated sandstonedoi:10.18710/GDT85XSaether, Mathias M.Almenningen, StianUniversity of BergenMatlabDataverseNOUniversity of BergenSaether, Mathias M.Sæther, Mathias Myrtveit2021-10-29Earth and Environmental SciencesAcoustic measurementsHydrate saturationOscilloscope time tracesThis data set contains the raw data from experiments where the compressional wave velocity has been measured in eight methane hydrate bearing Bentheim sandstones. One experiment is conducted for each sandstone. In this document, data for 8 experiments are given. The hydrate saturation and time traces of acoustic wave measurements in Bentheim sandstone cores are logged during hydrate growth. A pulse transmit measurement method is used for the acoustic waves, where transducers are clamped on to the cores at both ends, and the time signals are recorded with an oscilloscope2016-11-012017-06-01Experimental dataAcoustic measurementsM. M. Sæther, S. Almenningen, G. Ersland, and P. Lunde. Compressional wave phase velocity measurements during hydrate growth in partially and fully water saturated sandstone. Fuel 324 (2022), 124522.10.1016/j.fuel.2022.124522M. M. Sæther, S. Almenningen, G. Ersland, and P. Lunde. Compressional wave phase velocity measurements during hydrate growth in partially and fully water saturated sandstone. Fuel 324 (2022), 124522.Sæther, M. (2018). Elastic wave velocities and attenuation under methane hydrate growth in Bentheim sandstone. Measurements and modelling (PhD thesis). Bergen, Norway: University of Bergen, Department of Physics and Technology.1956/18899Sæther, M. (2018). Elastic wave velocities and attenuation under methane hydrate growth in Bentheim sandstone. Measurements and modelling (PhD thesis). Bergen, Norway: University of Bergen, Department of Physics and Technology.00_ReadMe.txttext/plainExp1_HydrateSat.ncapplication/x-netcdfExp1_Scope_x_time.ncapplication/x-netcdfExp1_Scope_y_voltage.ncapplication/x-netcdfExp2_HydrateSat.ncapplication/x-netcdfExp2_Scope_x_time.ncapplication/x-netcdfExp2_Scope_y_voltage.ncapplication/x-netcdfExp3_HydrateSat.ncapplication/x-netcdfExp3_Scope_x_time.ncapplication/x-netcdfExp3_Scope_y_voltage.ncapplication/x-netcdfExp4_HydrateSat.ncapplication/x-netcdfExp4_Scope_x_time.ncapplication/x-netcdfExp4_Scope_y_voltage.ncapplication/x-netcdfExp5_HydrateSat.ncapplication/x-netcdfExp5_Scope_x_time.ncapplication/x-netcdfExp5_Scope_y_voltage.ncapplication/x-netcdfExp6_HydrateSat.ncapplication/x-netcdfExp6_Scope_x_time.ncapplication/x-netcdfExp6_Scope_y_voltage.ncapplication/x-netcdfExp7_HydrateSat.ncapplication/x-netcdfExp7_Scope_x_time.ncapplication/x-netcdfExp7_Scope_y_voltage.ncapplication/x-netcdfExp8_HydrateSat.ncapplication/x-netcdfExp8_Scope_x_time.ncapplication/x-netcdfExp8_Scope_y_voltage.ncapplication/x-netcdf