Filters: Tags: Multiphase Flow (X) > partyWithName: Michelle R. Plampin (X)

Filters Date Range Past year (2) Past month (0) Past week (0) Past day (0) Custom range... To   Search Contacts U.S. Geological Survey Earth System Processes Division Water Resources Christopher E. Neuzil Tag Types Theme (2) Place (2) Harvest Set (2) Tag Schemes USGS Thesaurus (2) Geographic Information Names System (2) ISO 19115 Topic Category (2) View Results as: JSON ATOM CSV

iTOUGH2-EOS7C model used to analyze multiphase flow and underpressured shale at the Bruce Nuclear Site, Ontario, Canada Hydraulic testing has revealed dramatic underpressures in Paleozoic shales and carbonates at the Bruce nuclear site in Ontario. Although evidence from both laboratory and field studies suggests that a small amount of gas phase methane could be present in the shale, previous studies examining causal linkages between gas phase and the underpressure have been inconclusive. To better elucidate processes in such a system, we used a highly simplified 1-D representation of the site to test, using iTOUGH2-EOS7C, the effects of various factors on the evolution of gas phase methane and pressures within the system. Heterogeneity was represented using three stratigraphic regions with distinctly different capillary pressure... Tags: Bruce County, Groundwater, Groundwater Model, InlandWaters, Kincardine, All tags... Low Permeability, Michigan Basin, Multiphase Flow, NSDI, Ontario, USGS Science Data Catalog (SDC), environment, geoscientificInformation, iTOUGH2-EOS7C, inlandWaters, usgsgroundwatermodel, Fewer tags iTOUGH2-EOS7C model used to analyze multiphase flow and hydromechanical coupling in underpressured shale at the Bruce Nuclear Site, Ontario, Canada Using iTOUGH2-EOS7C, a simple 1-D model was developed to represent a site in Ontario, Canada which is being considered for nuclear waste disposal. The site exhibits substantially underpressured water and potential evidence for gas phase methane within a thick section of sedimentary rocks. To investigate possible mechanisms for the development of the underpressure in a multiphase system, hydromechanical coupling during a glacial cycle was simulated with and without gas phase methane present. Results indicate that, while the gas dampened the effects of the loading cycle, it did not preclude underpressure development. This USGS data release contains all of the input and output files for the simulations described in... Tags: Bruce County, Groundwater, Groundwater Model, InlandWaters, Kincardine, All tags... Low Permeability, Michigan Basin, Multiphase Flow, NSDI, Ontario, USGS Science Data Catalog (SDC), environment, geoscientificInformation, iTOUGH2-EOS7C, inlandWaters, usgsgroundwatermodel, Fewer tags