Sökning: "pore model"
Visar resultat 1 - 5 av 199 avhandlingar innehållade orden pore model.
1. Estimation of pore pressure levels in slope stability calculations: Analyses and modelling of groundwater level fluctuations in confined aquifers along the Swedish west coast
Sammanfattning : .... LÄS MER
2. Analysis of Transvascular Transport Phenomena in the glomerular and peritoneal microcirculation
Sammanfattning : The current work is devoted entirely to the study of passive transport phenomena, or more specifically, the more simple diffusion, electric migration and filtration of solute matter and water over glomerular and peritoneal capillary walls. The driving forces behind such trans-capillary transport phenomena have long been assumed to be simple gradients of concentration, hydrostatic pressure and electric potential. LÄS MER
3. Investigating the parameters that influence the behaviour of natural iron ores during the iron production process
Sammanfattning : In the iron production processes, sinters and pellets are mostly used as raw materials due to their consistency with respect to physical and chemical properties. However, natural iron ores, as mined, are rarely used directly as a feed material for iron processing. LÄS MER
4. Study of the Apparent Kinetics of Biomass Gasification Using High-Temperature Steam
Sammanfattning : Among the latest achievements in gasification technology, one may list the development of a method to preheat gasification agents using switched ceramic honey combs. The best output from this technology is achieved with use of water steam as a gasification agent, which is heated up to 1600 °C. LÄS MER
5. Residual and critical saturation in geological storage of CO2 : results from field studies, pore-network modelling and laboratory experiments
Sammanfattning : Geological storage of CO2 in deep saline aquifers is a promising technology in the combat to reduce the atmospheric emissions of CO2. A critical component in this solution is the estimation of aquifer’s in situ capability to store CO2. LÄS MER