Compression and permeability behavior of natural mudstones

Schneider, Julia, 1981-

25 January 2012

Mudstones compose nearly 70% of the volume of sedimentary basins, yet they are among the least studied of sedimentary rocks. Their low permeability and high compressibility contribute to overpressure around the world. Despite their fundamental importance in geologic processes and as seals for anthropogenic-related storage, a systematic, process-based understanding of the interactions between porosity, compressibility, permeability, and pore-size distribution in mudstones remains elusive. I use sediment mixtures composed of varying proportions of natural mudstone such as Boston Blue Clay or Nankai mudstone and silt-sized silica to study the effect of composition on permeability and compressibility during burial. First, to recreate natural conditions yet remove variability and soil disturbance, I resediment all mixtures in the laboratory to a total stress of 100 kPa. Second, in order to describe the systematic variation in permeability and compressibility with clay fraction, I uniaxially consolidate the resedimented samples to an effective stress equivalent to about 2 km of burial under hydrostatic conditions. Scanning electron microscope images provide insights on microstructure. My experiments illuminate the controls on mudstone permeability and compressibility. At a given porosity, vertical permeability increases by an order of magnitude for clay contents ranging from 59% to 34% by mass whereas compressibility reduces by half at a given vertical effective stress. I show that the pore structure can be described by a dual-porosity system, where one rock fraction is dominated by silt where large pores are present and the majority of flow occurs and the other fraction is dominated by clay where limited flow occurs. I use this concept to develop a coupled compressibility-permeability model in order to predict porosity, permeability, compressibility, and coefficient of consolidation. These results have fundamental implications for a range of problems in mudstones. They can be applied to carbon sequestration, hydrocarbon trapping, basin modeling, overpressure distribution and geometry as well as morphology of thrust belts, and an understanding of gas-shale behavior. / text

Deformation

Fluid flow

Consolidation

Pore pressure

Boston Blue Clay

Nankai

Long-term changes in the Coulomb failure function on inland active faults in southwest Japan due to east-west compression and interplate earthquakes

Hirahara, Kazuro, Fukahata, Yukitoshi, Shikakura, Yosuke

01 1900

No description available.

southwest Japan

historical earthquake

viscoelasticity

Coulomb failure function

inland active fault

Structure et tectonique du prisme d'accrétion de Nankai dans la zone Tokai par imagerie sismique en trois dimensions

Martin, Victor

24 June 2003

La marge de Nankai dans la zone Tokai n'a pas subi de rupture lors du dernier épisode sismique de 1944-1946, qui a affectée tout le reste de la marge. Un fort séisme est donc à attendre à cet endroit au cours des prochaines années. Afin de mieux contraindre l'étendue de la zone sismogène, une campagne sismique 3D a été menée en 2000 sur le prisme de Nankai. Cette thèse s'inscrit dans la double thématique méthodologique et géologique de cette campagne. L'aspect méthodologique comprend la prise en compte des specificités de l'imagerie 3D par rapport à l'imagerie 2D classique. Lors de l'acquisition, la géométrie du dispositif source-récepteurs doit être parfaitement connue. Grâce à une méthode mise au point à cet effet, la géométrie a pu être reconstruite avec une excellente précision. Le traitement a également amélioré sensiblement les images obtenues, même si certains objets n'apparaissent pas de manière évidente dans les données. Les images 3D ont cependant permis de beaucoup mieux contraindre la position des failles majeures du prisme (Tokai, Kodaiba) en profondeur, et donc de mieux comprendre la cinématique du prisme. L'aspect géologique a révélé que la déformation de la marge est dominée par les événements Quaternaires, qui ont affecté une couverture du bassin d'avant-arc très calme auparavant. Plusieurs phases de plissement sont visibles, dont une en avant du bassin qui peut chronologiquement être reliée à l'arrivée en subduction d'une ride océanique. L'étude du BSR a également permis indirectement de donner un ordre de grandeur des processus d'érosion et de sédimentation sur la marge. Les larges glissements de terrains observés peuvent être simplement liés à l'activité sismique de la marge, sans intervention de surpression de fluides dans les pores. Enfin, un volcan observé en subduction est peut-être à l'origine de l'inactivation de la faille de Tokai, qui ne présente aucun signe d'activité récente.

subduction

prisme de Nankai

imagerie sismique 3D

acquisition sismique

BSR

Geophysical investigations in the Nankai Trough and Sumatran subduction zones

Martin, Kylara Margaret

08 July 2013

The 2004 Sumatra-Andaman and the 2011 Tohoku-Oki earthquakes demonstrate the importance of understanding subduction zone earthquakes and the faults that produce them. Faults that produce earthquakes and/or tsunamis in these systems include plate boundary megathrusts, splay faults (out of sequence thrusts), and strike-slip faults from strain partitioning. Offshore Japan, IODP Exp. 314 collected logging while drilling (LWD) data across several seismically-imaged fault splays in the Nankai Trough accretionary prism. I combine LWD resistivity data with a model of fluid invasion to compare the permeabilities of sands. My results indicate that sands within faulted zones are 2-3 orders of magnitude more permeable than similar undisturbed sands. Therefore fault zones are likely to be fluid conduits within the accretionary wedge. Fluids can affect the physical and chemical properties of the faulted material, increasing pore pressures and effectively lubricating the faults. Fluids play an important role in fault slip, but hazard analysis also requires an understanding of fault geometry and slip direction. Both Japan and Sumatra exhibit strain partitioning, where oblique convergence between tectonic plates is partitioned between the megathrust and strike-slip faults proximal to the arc. Offshore Sumatra, I combine profiles from a 2D seismic survey (SUMUT) with previous bathymetry and active seismic surveys to characterize the West Andaman Fault adjacent to the Aceh forearc Basin. Along this fault I interpret transpressional flower structures that cut older thrust faults. These flower structures indicate that the modern West Andaman Fault is a right lateral strike-slip fault and thus helps to accommodate the translational component of strain in this highly oblique subduction zone. Offshore the Kii Peninsula, Japan, I analyze a trench-parallel depression that forms a notch in the seafloor just landward of the megasplay fault system, along the seaward edge of the forearc Kumano Basin. Using a 12 km wide, 3D seismic volume, I observe vertical faults and faults which dip toward the central axis of the depression, forming apparent flower structures. The along-strike geometry of the vertical faults makes predominantly normal or thrust motion unlikely. I conclude, therefore, that this linear depression is the bathymetric expression of a transtensional fault system. While the obliquity of convergence in the Nankai Trough is small (~15 degrees), this Kumano Basin Edge Fault Zone could be due to partitioning of the plate convergent strain. The location of the West Andaman Fault and KBEFZ within the forearc may be controlled by the rheology contrast between active accretionary wedges and the more stable crust beneath forearc basins. / text

Strain partitioning

Subduction zone

Permeability

Nankai Trough

Sumatra

Kumano Basin

Geophysics

West Andaman Fault

Structural restoration and application of dynamic Coulomb wedge theory to the Nankai Trough accretionary wedge toe

Studer, Melody A

January 2007

Thesis (M.S.)--University of Hawaii at Manoa, 2007. / Includes bibliographical references (leaves 66-78). / x, 78 leaves, bound ill. (some col.), map 29 cm

Nankai Trough

EXPERIMENTAL STUDIES OF THE SATURATION LEVEL OF METHANE HYDRATE IN THE EASTERN NANKAI TROUGH SEDIMENTS

Kawasaki, Tatsuji, Fujii, Tetsuya, Nakamizu, Masaru, Lu, Hailong, Ripmeester, John A.

07 1900

The pore saturation of natural gas hydrate in sediments is a key parameter for estimating hydrate resources in a reservoir. For a better understanding of gas hydrate distribution, the experimental study of the pore saturation of methane hydrate in sediments from a hydrate reservoir in the Eastern Nankai Trough have been carried out. In total, eleven samples, comprising sand, silty sand, silt, and representative of the main sediment types identified in the Eastern Nankai trough, were tested. The results obtained clearly indicate a particle size and clay content dependent trend: almost 100% of pores were saturated with methane hydrate in sand when little silt and clay were present, decreasing to ~ 13% in silty sand (sand 54%, silt 41% and clay 5%), and ~ 4% in clayey silt. These results are generally consistent with NMR logging results for high-saturation samples, but somewhat different for samples with medium or low saturation levels.

Methane hydrate

saturation

sediment types

particle size

specific surface area

Nankai trough

International Conference on Gas Hydrates

ICGH

Sedimentological Records and Numerical Simulations of the C.E. 1707 Hōei Tsunami in Southwestern Japan

Baranes, Hannah

23 November 2015

A tsunami generated by the C.E. 1707 Hōei earthquake is largely thought to be the flood event of record for southwestern Japan, yet historical documentation of the event is scarce. This is particularly true in northwestern Shikoku within the Bungo Channel, where significant inconsistencies exist between historical records and model-derived tsunami heights. To independently assess flooding from the C.E. 1707 Hōei tsunami in the context of the region’s long-term flooding history, we present complementary reconstructions of extreme coastal inundation from three back-barrier lakes in the northern Bungo Channel: Lake Ryuuoo, Lake Amida, and Lake Kamega. At all sites, the most prominent marine overwash deposit of the past ~1,000 years, as defined by grain size, density, and geochemical indicators, is consistent with the timing of the 1707 tsunami, providing strong evidence that the event caused the most significant flooding of the last millennium in this region. At Lake Ryuuoo, modern barrier beach elevations and grain sizes in the tsunami’s resultant deposit provide ~4 m as the first physically based height constraint for the 1707 tsunami in the northern Bungo Channel. Around 1,000 years ago, a concurrent and abrupt transition in lithology observed at all three sites is also consistent with rapid, regional geomorphic change. At Lake Ryuuoo, a marine overwash deposit comparable to the 1707 deposit directly overlies this transition. A 1,000-year-old lithological transition or deposit has not been observed at sites closer to the mouth of the Bungo Channel, suggesting that the deposit in Lake Ryuuoo is more consistent with a tsunami generated by local seismicity along the Japan Median Tectonic Line than with a Nankai Trough-derived tsunami. Our findings are significant in that they provide three new millennial-scale tsunami inundation reconstructions for a relatively understudied region of Japan, along with the first physically based height constraint for the Hōei tsunami in the northern Bungo Channel.

1707 Hōei tsunami

Nankai Trough

tsunami deposit

Median Tectonic Line

tsunami inundation modeling

interseismic coupling

Other Earth Sciences

Sedimentology