In recent years, the injection of nanoscopic particles of zero-valent iron (nZVI) proved to be an effective intervention to remediate contaminated aquifer systems. Thus, the fate and transport of nZVI, as well as those of contaminants and harmful particles, needs to be completely characterised in order to design successful interventions. The theoretical framework in which this research field is enclosed is the study of flow and transport phenomena in porous media. Under laminar flow regime, computational fluid-dynamic (CFD) simulations of flow field and transport of both reacting and non-reacting solutes and colloidal particles were performed. The aim was to explore the correlations that link the spatial arrangement of the porous medium gra...
The mathematical modelling and numerical simulation of flow and transport in porous media is traditi...
The study of multi‐phase flow through porous structures is of considerable importance in many fields...
Transport of solutes and colloids over a large number of pores and for multiple scales were explored...
In recent years, the injection of nanoscopic particles of zero-valent iron (nZVI) proved to be an ef...
In this work, the influence of pore space geometry on solute transport in porous media is investigat...
In groundwater engineering, remediation techniques based on the injection of nano/particles have enj...
To examine the relevance of low flow zones and flow vortices to colloid transport in real porous med...
In environmental engineering, the transport of colloidal suspensions in porous media is studied to u...
The injection of zero valent iron particles is a promising approach for the remediation of contamina...
The simulation of transport and deposition of colloidal particles in porous media finds important ap...
Porous media are ubiquitous in chemical engineering. They are involved in many separation processes ...
In this work a multiphase system of fluid flow and particle transport and deposition in porous media...
Transport and deposition of nanoparticles in saturated porous media is a topic of great importance i...
In the field of groundwater remediation, nano and microscale zerovalent iron (NZVI - MZVI) is one of...
Natural porous systems, such as soil, membranes, and biological tissues comprise disordered structur...
The mathematical modelling and numerical simulation of flow and transport in porous media is traditi...
The study of multi‐phase flow through porous structures is of considerable importance in many fields...
Transport of solutes and colloids over a large number of pores and for multiple scales were explored...
In recent years, the injection of nanoscopic particles of zero-valent iron (nZVI) proved to be an ef...
In this work, the influence of pore space geometry on solute transport in porous media is investigat...
In groundwater engineering, remediation techniques based on the injection of nano/particles have enj...
To examine the relevance of low flow zones and flow vortices to colloid transport in real porous med...
In environmental engineering, the transport of colloidal suspensions in porous media is studied to u...
The injection of zero valent iron particles is a promising approach for the remediation of contamina...
The simulation of transport and deposition of colloidal particles in porous media finds important ap...
Porous media are ubiquitous in chemical engineering. They are involved in many separation processes ...
In this work a multiphase system of fluid flow and particle transport and deposition in porous media...
Transport and deposition of nanoparticles in saturated porous media is a topic of great importance i...
In the field of groundwater remediation, nano and microscale zerovalent iron (NZVI - MZVI) is one of...
Natural porous systems, such as soil, membranes, and biological tissues comprise disordered structur...
The mathematical modelling and numerical simulation of flow and transport in porous media is traditi...
The study of multi‐phase flow through porous structures is of considerable importance in many fields...
Transport of solutes and colloids over a large number of pores and for multiple scales were explored...