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Metadata Files

Data Publication

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

Mariska T.W. Schimmel

Utrecht University

(2020)

Descriptions

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 (1.5)
fluid-rock interaction
geological storage
fluid injection
stress corrosion cracking
short-term compaction
human dimensions > natural hazards > land subsidence
human dimensions > natural hazards > earthquakes
human dimensions > economic resources > energy production/use > geothermal energy production/use
human dimensions > economic resources > energy production/use
human dimensions > economic resources > energy production/use > natural gas energy production/use
solid earth > rocks/minerals/crystals > sedimentary rocks > sedimentary rock physcial/optical properties
solid earth > rocks/minerals/crystals
Particle Analyzer
Piston Cylinder
Optical Microscope
Uniaxial
sand
quartz
Density
Elasticity > Acoustic Emissions
Grain size distribution
Ultrasonic transducer
Strain gauge > Axial strain gauge
Photography
Thermocouple
EPOS
multi-scale 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
grain size distribution
grain size distribution
acoustic measurement - active source
acoustic measurement - active source
thermometer

MSL enriched keywords
Measured property
coupled mechanical-chemical effects
Measured property
fluid-rock interaction
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
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
strain
liquid phase
decane
deformation testing
compression testing
uniaxial compression apparatus
acoustic emission (AE)
deformation behaviour
poroelastic deformation
acoustic emission (AE)
measured property
pH

MSL enriched sub domains i

rock and melt physics
analogue modelling of geologic processes
microscopy and tomography
geochemistry

Source

https://public.yoda.uu.nl/geo/UU01/VM3Z6I.html

Source publisher

Utrecht University


DOI

10.24416/uu01-vm3z6i


Creators

Mariska T.W. Schimmel

Utrecht University

ORCID:

https://orcid.org/0000-0002-9854-0552


Contributors

Schimmel, Mariska T.W.

DataCollector

Utrecht University

ORCID:

https://orcid.org/0000-0002-9854-0552

Schimmel, Mariska T.W.

ContactPerson

Utrecht University

ORCID:

https://orcid.org/0000-0002-9854-0552

Hangx, Suzanne J.T.

Supervisor

Utrecht University

ORCID:

https://orcid.org/0000-0003-2253-3273

Author identifier (Scopus):

25951270800

Spiers, Christopher James

Supervisor

Utrecht University

ORCID:

https://orcid.org/0000-0002-3436-8941

Author identifier (Scopus):

7003318682

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

HostingInstitution

Utrecht University


References

https://doi.org/10.1007/s00603-020-02267-0

http://doi.org/doi:10.5880/fidgeo.2019.005


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


Dates

Updated:

2024-07-12T11:07:56


Language

en


Funding References

Funder name: Netherlands Organisation for Scientific Research (NWO)


Rights

Open - freely retrievable

Creative Commons Attribution 4.0 International Public License


Datacite version

1.0


Geo location(s)

Heksenberg Formation at the Beaujean Quarry in Heerlen, the Netherlands