effect on gas hydrate dissocoiation on clay · water + laponite + r11 expand back due to melting?...
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Effect of gas hydrate dissociation on clay
Tore J. Kvalstad, NGI/ICG
1st National Workshop on Gas Hydrates and Natural Seeps in the Nordic Sea Region
NGU, Trondheim, 8-9 November 2004
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BackgroundGas hydrate dissociation caused by climate induced change of temperature and sea level has been proposed as a trigger mechanism for submarine slides. Seabed instability around hot wells and pipelines is of concern for the petroleum industry.
A large effort is put on development of methodology and techniques for detection and quantification of gas hydrate. However, there is a lack of understanding of how the hydrate dissociation process may affect the geomechanicalproperties of soils. Soil strength reduction is a key element in assessment of risk related to dissociation of gas hydrates
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Gas hydrate melting caused by climate change after deglaciation
Geothermal gradient 50°C/km
0
500
1000
1500
0 10 20 30 40 50 60
Horizontal distance, km
Dept
h be
low
sea
leve
l, m
Sea bed
Potential zone of GH melting
Sea level LGM
BGHSZ after sea level rise
BGHSZ at LGM sea level at -130m m
BGHZ after intrusionof warm atlantic surface water
Shelf edge
Sea level today
BGHSZ at LGM sea level at -130m m
BGHSZ after sea level rise
BGHZ after intrusionof warm Atlantic surface water
Potential zone of GH melting
BGHSZ low stand sea level
BGHSZ after sea level rise
Cold water
Warm water
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Storegga North Flank BSR and paleoslide
Gas/Fluid escape features? BSR
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Storegga North Flank BSR and paleo slide
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Simulation of melting zone around wells FE-analysis showing gas hydrate melting zone around hot gas well
after 22 years production time
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Radial distance [m]0 10 20 30 40 50 60 70 80 90 100
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Radial distance [m]0 10 20 30 40 50 60 70 80 90 100
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Simulation of heat flow around pipelines
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Objective of ongoing research:Improve knowledge and understanding of effect of gas
expansion and gas hydrate melting on soil strength• What happens physically during and after the
dissociation process– GH dissociates to water + gas forming gas/water
bubbles on the GH surface– bubble expansion causes pore pressure increase in
the gas and water phase– cavity expansion in the clay matrix -> hydraulic
fracture -> fluid migration -> pressure drop– Change in effective stresses in “bubbly” soil matrix?
• How does gas hydrate and gas hydrate dissociation affect the geotechnical properties of clays
– primarily strength related to slope stability and foundation of structures, but also compression (bulk) and shear modulus
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Methodology:• Improved understanding of physical process
through visualisation of GH dissolution and gas expansion process
• Develop material models• Analytical /numerical modelling• Compare with tests on soil elements under
realistic stress conditions and model tests
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Methodology first phase:• Study gas exsolution in clays
– Visualisation– Effect on material properties
• Study gas hydrate formation and dissociation– visualising GH melting and gas expansion effects in
transparent Laponite clay
• Perform laboratory test on natural marine clay • CT-scanning of gas-fluid flow and GH-formation and
melting?• EM and S-waves for improved mapping of GH?
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Air exsolution and expansion in Laponite
1. Laponite covered by water layer
2. Air pressure above water 6 bar (7 atm) for several weeks
3. Air diffusion intoLaponite
4. Pressure reduction
5. Gas bubble formation
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Hydrate melting/gas expansion experiments with R11 in Laponite gel
Water+
Laponite +
R11
8.5°C<T<24° 8.5°C<T<24° 24°C<T<30°0°C<T<8.5°
Water+
Laponite +
R11
Water+
Laponite +
R11
Water+
Laponite +
R11
Expand back due to melting?
Expand further due to R11 ”boiling” forming gas bubbles
Shrink due to hydrate formation?
Mix to gel above hydrate formation temperature
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Tests with R11 hydrate layer in Laponite
29g R11 + 250ml H2O
Hydrate layer embedded in Laponite
Hydrate disassociation – bubble formation
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Tests with R11 hydrate layer in Laponite
29g R11 + 250ml H2O
R11 Hydrate distributed in LaponiteShort video
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Results so farGas exsolution tests in Laponite• Gas exsolution testing indicated limited expansion of gas
bubbles for moderate ∆T and ∆p for samples saturated with air
• High pressure relief (7 to 1 atm) with CO2 saturated samples showed large release of gas, fracturing of clay matrix and formation of gas escape routes
• Clay matrix cracked but material not seemingly disturbed between cracks and bubbles
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Results so far• Hydrate formation in clay:• Previous tests with Methane circulation through natural
marine clay not successful. No signs of hydrate formation
• R11 Hydrate formation in Laponite at 1 atm and 8°C below theoretical melting temperature not successful. Formation inhibited by Laponite - no free water?
• Hydrate formation with water and then mixing with clay:• R11 hydrate easy to form and mix into Laponite in
various forms of distribution• Visibility in Laponite good
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Results so farHydrate dissolution and gas expansion tests:• Introductory tests show successful in visualising processes• Laponite 5% has low strength, Thixotropic and visco-plastic, difficult to
measure effect on material strength.• Bubble flow through material rather than fracturing • Increase strength by increasing Laponite content, and still maintain
visibility• Material will not transform into a foam under deepwater conditions in
situ• Sample disturbance of deepwater soil samples should be high and
effect of gas hydrate dissolution should be very clearly visible if gas hydrates are present
• Test so far had very high ”gas expansion potential” compared with deepwater conditions. Test with more realistic GH concentrations will be performed
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Hydrate melting/gas expansion experiments with intact natural marine clayWorkscope: Study (and visualise?) the melting and gas expansion process at elevated pressures
– Onsøy intact marine clay samples– R11 - CO2 or CH4 -> Hydrate -> Water and gas – Circulate gas saturated water or diffusion through rubber
membrane? At high pressure and “low” temperature– Increase temperature/reduce pressure– Melting->Volume increase -> bubble formation? Fracturing?– Change in consistency – strength?– Visualisation of bubble growth – fluid escape formation?-> CT?
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Triaxial test for hydrate generation and melting
High pressure triaxial test equipment:-Stress control vertical and lateral-Pore pressure/backpressure-Methane saturation and circulation system-Cooling system-Temperature control (3 thermistors)-Resistivity measurement (hydrate indication)
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Velocity, saturation and fluid distributions measuredby a 4D-CT laboratory methodAcoustic / CT
The integrated CT / acoustic laboratory for simultaneousimaging of fluid distribution and measurement of wave velocity under reservoir pressure
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Acoustic / CTExample of CT-imaging of gas saturation from an experiment with nitrogen injection into an initially decane filled core.
Sg=0%Sg=35.5%
Absolute value plots Subtraction plots
Sg=35.5%
Hot colour indicates high density
Hot colour indicates high gas concentration
Incr
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