Thermodynamic network analysis was applied to study the electrolyte permeation across a heterogeneous cation-exchange polymer membrane. The network of local flows and the mathematical description was used to evaluate the diffusion coefficient of KNO3 in the internal solution of Nafion membran
Transport phenomena in an ion-exchange membrane containing both H+ and K+ are described using multic...
A mathematical model of multicomponent ion transport through a cation-exchange membrane is developed...
An adequate understanding of the conductivity of polyperfluorosulfonic acid (PFSA) membranes as a fu...
The bond-graph description of transport processes was applied to analyse all the phenomena related t...
Thermodynamic network analysis (TNA) was applied for modeling and theoretical description of the hy...
The calculations were carried out to estimate the degree of diaphragm reticulation as sufficient for...
Network thermodynamic analysis was used for bond-graph representation of simple pertraction in the ...
Phase-separated water-swollen cation-exchange membranes are an important component in numerous energ...
A theoretical framework for the computer simulation of all uncoupled diffusion processes was develop...
This study presents a new framework for extracting single ion diffusion coefficients in ion exchange...
We present the functionalized Cahn-Hilliard (FCH) energy, a continuum characterization of interfacia...
The need to understand and describe permeation through membranes has driven the development of many ...
none7siEquilibrium partitioning of ions between a membrane and a contiguous external solution strong...
Solvent-filled membranes, such as Nafion, are an important class of polymer electrolytes because the...
Abstract: A mathematical model based on a generalized Maxwell–Stefan equation has been developed to ...
Transport phenomena in an ion-exchange membrane containing both H+ and K+ are described using multic...
A mathematical model of multicomponent ion transport through a cation-exchange membrane is developed...
An adequate understanding of the conductivity of polyperfluorosulfonic acid (PFSA) membranes as a fu...
The bond-graph description of transport processes was applied to analyse all the phenomena related t...
Thermodynamic network analysis (TNA) was applied for modeling and theoretical description of the hy...
The calculations were carried out to estimate the degree of diaphragm reticulation as sufficient for...
Network thermodynamic analysis was used for bond-graph representation of simple pertraction in the ...
Phase-separated water-swollen cation-exchange membranes are an important component in numerous energ...
A theoretical framework for the computer simulation of all uncoupled diffusion processes was develop...
This study presents a new framework for extracting single ion diffusion coefficients in ion exchange...
We present the functionalized Cahn-Hilliard (FCH) energy, a continuum characterization of interfacia...
The need to understand and describe permeation through membranes has driven the development of many ...
none7siEquilibrium partitioning of ions between a membrane and a contiguous external solution strong...
Solvent-filled membranes, such as Nafion, are an important class of polymer electrolytes because the...
Abstract: A mathematical model based on a generalized Maxwell–Stefan equation has been developed to ...
Transport phenomena in an ion-exchange membrane containing both H+ and K+ are described using multic...
A mathematical model of multicomponent ion transport through a cation-exchange membrane is developed...
An adequate understanding of the conductivity of polyperfluorosulfonic acid (PFSA) membranes as a fu...