Transport in Porous Media publishes original research on the physical and chemical aspects of transport of extensive quantities such as mass of a fluid phase, mass of a component of a phase, momentum and energy, in single and multiphase flow in a (possibly deformable) porous medium domain. These are presented in the context of chemical, civil, agricultural, petroleum and mechanical engineering. Transport phenomena, understood from the microscopic scale upward, form the basis for deterministic and stochastic models that describe them. The models are adaptable to describe flow and contaminant transport in aquifers; oil and gas movement in petroleum reservoirs; solvent drives and enhanced oil recovery; heat and mass transport in packed bed reactors in chemical engineering, in geothermal reservoirs and in building materials; spread of pollutants from radioactive waste repositories; filtration processes, and biomedical studies of fluid and chemical transport in lungs and other organs.
Transport in Porous Media
Description
Identifiers
ISSN | 0169-3913 |
e-ISSN | 1573-1634 |
DOI | 10.1007/11242.1573-1634 |
Publisher
Springer Netherlands
Additional information
Data set: Springer
Articles
Transport in Porous Media > 2019 > 130 > 3 > 769-797
Collection of landfill gas by horizontal perforated wells is studied. The problem combines flow through porous media in the landfill and unobstructed pipe flow in the well. Respective analytical solutions to flow equations are used in an iterative numerical procedure to solve the coupled system. Realistic landfill input parameters confirm the feasibility of estimates obtained with the model. The study...
Transport in Porous Media > 2019 > 130 > 3 > 675-698
A reliable and practical method of hygric property characterisation is a major determinant in properly analysing hygric performance of built constructions. The current empirical approach, however, yields data that are still incomplete, not fully representative, and not entirely reliable. In this study, hygric properties are therefore determined directly from pore structure information by applying...
Transport in Porous Media > 2019 > 130 > 3 > 903-922
Transport processes such as the dispersion and mixing of solutes are governed by the interplay of advection and diffusion, where advection acts to organise fluid streamlines and diffusion acts to randomise solute molecules. Thus, the structure and organisation of streamlines, termed the Lagrangian kinematics of the flow, is central to the understanding and modelling of these transport processes. A...