The Effects Of High Pressure-High Temperature On Some Physical Properties Of Ocean Sediments
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Massachusetts Institute of Technology. Earth Resources Laboratory
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A series of laboratory experiments was conducted with four ocean sediments, two biogenic oozes and two clays. Permeability and thermal conductivity were directly measured as a function of porosity and the testing program was designed to identify any dependence of these physical properties upon hydrostatic pressure and temperature. The results show no discernible effect of pressure, within the range of 2 to 60 MPa, upon the permeability of any of the samples. Temperature effects, from 22' to 220', upon this property are
accounted for by applying a viscosity correction to the permeating seawater. Previous investigations have suggested the existence of a pressure-induced and/or a temperature-induced breakdown of the adsorbed water which surrounds clay particles, thereby promoting an increase in sediment permeability. Our experimental findings cannot confirm this phenomenon and fail to provide a satisfactory solution to the confiicting data which now exist between the pore water velocities inferred from non-linear thermal profiles of ocean sediments and those fluid velocities derived from Darcy's Law and
laboratory permeability data. The effects of sizeable variations in pressure and temperature upon sediment thermal conductivity are found to closely refiect the behavior of the conductivity of the liquid phase alone under these same changes in
environmental conditions. This is not surprising, due to the relatively narrow
range of high porosities encountered in this study. Empirical equations are
developed which allow sediment thermal conductivity to be calculated as a
function of temperature and void ratio. A hydrostatic pressure correction term
is also presented.
Date issued
1983Publisher
Massachusetts Institute of Technology. Earth Resources Laboratory
Series/Report no.
Earth Resources Laboratory Industry Consortia Annual Report;1983-11