Data Publication

Stress-cycling data uniaxial compaction of quartz sand in various chemical environments

Schimmel, Mariska T.W.

YoDa Data Repository, Utrecht University, Netherlands

(2020)

Decarbonisation of the energy system requires new uses of porous subsurface reservoirs, where hot porous reservoirs can be utilised as sustainable sources of heat and electricity, while depleted ones can be employed to temporary store energy or permanently store waste. However, fluid injection induces a poro-elastic response of the reservoir rock, as well as a chemical response that is not well understood. We conducted uniaxial stress-cycling experiments on quartz sand aggregates to investigate the effect of pore fluid chemistry on short-term compaction. Two of the tested environments, low-vacuum (dry) and n-decane, were devoid of water, and the other environments included distilled water and five aqueous solutions with dissolved HCl and NaOH in various concentrations, covering pH values in the range 1 to 14. In addition, we collected acoustic emission data and performed microstructural analyses to gain insight into the deformation mechanisms. The data is provided in one folder for 26 experiments/samples. Detailed information about the files in these subfolders as well as information on how the data is processed is given in the explanatory file Schimmel-et-al_2020_data-description.docx. Contact person is Mariska Schimmel - PhD - m.t.w.schimmel@uu.nl / marischimmel@gmail.com

Keywords

Originally assigned keywords

Natural Sciences Earth and related environmental sciences 15

fluidrock interaction

geological storage

fluid injection

stress corrosion cracking

shortterm compaction

land subsidence

earthquakes

geothermal energy productionuse

energy productionuse

natural gas energy productionuse

sedimentary rock physcialoptical properties

rocksmineralscrystals

Particle Analyzer

Piston Cylinder

Optical Microscope

Uniaxial

sand

quartz

Density

Acoustic Emissions

Grain size distribution

Ultrasonic transducer

Axial strain gauge

Photography

Thermocouple

EPOS

multiscale laboratories

rock and melt physical properties

Corresponding MSL vocabulary keywords

coupled mechanical-chemical effects

fluid-rock interaction

subsurface storage

rate of crack growth

stress corrosion cracking

particle analyser

grain size distribution

particle analyser

optical microscopy

sand

quartz

acoustic emission (AE)

grain size distribution

acoustic measurement - active source

thermometer

MSL enriched keywords

Measured property

coupled mechanical-chemical effects

Measured property

fluid-rock interaction

antropogenic setting

subsurface storage

rate of crack growth

Inferred deformation behavior

microphysical deformation mechanism

time-dependent mechanism

stress corrosion cracking

Apparatus

general sample characterization

size and shape analysis

particle analyser

grain size distribution

Apparatus

characterization of modelling material

size and shape analysis

particle analyser

Apparatus

optical microscopy

unconsolidated sediment

clastic sediment

sand

minerals

silicate minerals

tectosilicates

quartz

acoustic emission (AE)

grain size distribution

Analyzed feature

grain size and configuration

grain size

grain size distribution

Ancillary equipment

acoustic measurement - active source

Ancillary equipment

model structure monitoring (3D)

acoustic measurement - active source

measurement of temperature

thermometer

strain

liquid phase

decane

deformation testing

compression testing

uniaxial compression apparatus

deformation behaviour

poroelastic deformation

measured property

pH

MSL original sub domains

rock and melt physics

MSL enriched sub domains i

rock and melt physics

analogue modelling of geologic processes

microscopy and tomography

geochemistry

Source

http://dx.doi.org/10.24416/UU01-VM3Z6I

Source publisher

YoDa Data Repository, Utrecht University, Netherlands

DOI

10.24416/UU01-VM3Z6I

Authors

Schimmel, Mariska T.W.

0000-0002-9854-0552

Utrecht University;

Contributers

Schimmel, Mariska T.W.

DataCollector

0000-0002-9854-0552

Utrecht University;

Schimmel, Mariska T.W.

ContactPerson

0000-0002-9854-0552

Utrecht University;

Hangx, Suzanne J.T.

Supervisor

0000-0003-2253-3273

Utrecht University;

Spiers, Christopher James

Supervisor

0000-0002-3436-8941

Utrecht University;

Experimental rock deformation/HPT-Lab (Utrecht University, The Netherlands)

HostingInstitution

Utrecht University;

References

Schimmel, M. T. W., Hangx, S. J. T., & Spiers, C. J. (2020). Impact of Chemical Environment on Compaction Behaviour of Quartz Sands during Stress-Cycling. Rock Mechanics and Rock Engineering, 54(3), 981–1003. https://doi.org/10.1007/s00603-020-02267-0

10.1007/s00603-020-02267-0

IsSupplementTo

Schimmel, M., Hangx, S., & Spiers, C. (2019). <i>Compaction creep data uniaxial compaction of quartz sand in various chemical environments</i> [Data set]. GFZ Data Services. https://doi.org/10.5880/FIDGEO.2019.005

10.5880/fidgeo.2019.005

Continues

Contact

Experimental rock deformation/HPT-Lab (Utrecht University, The Netherlands)

Utrecht University;

Citation

Schimmel, M. T. W. (2020). Stress-cycling data uniaxial compaction of quartz sand in various chemical environments. Utrecht University. https://doi.org/10.24416/UU01-VM3Z6I

Geo location(s)

Heksenberg Formation at the Beaujean Quarry in Heerlen, the Netherlands