Add to ORKGAbstract. Since the physical interpretation of practical Kedem{Katchalsky (KK) equations is not clear, we consider an alternative, mechanistic approach to mem-brane transport generated by osmotic and hydraulic pressure. We study a porous membrane with randomly distributed pore sizes (radii). We postulate that reflec-tion coecient (p) of a single pore may equal 1 or 0. From this postulate we derive new (mechanistic) transport equations. Their advantage is in clear physical interpretation and since we show they are equivalent to the KK equations, the interpretation of the latter became clearer as well. Henceforth the equations al-low clearer and more detailed interpretation of results concerning membrane mass transport. This is especially imp...
AbstractThe fundamental physical mechanisms of water and solute transport across cell membranes have...
A general unique structural vision of transport phenomena in Reverse Osmosis (RO) and Nanofiltration...
To test the hypothesis that water pores in a lipid membrane mediate the proton transport, molecular ...
This paper presents a theoretical analysis of the kinetics of osmotic transport across a semipermeab...
The traditional theory of transport across capillary membranes via a laminar Poiseuille flow is show...
A model for osmotic flow in porous membranes is developed from classical transport and thermodynamic...
When an accurate description of mass transport across membranes is required, e.g. in biology, chemic...
Kedem-Katchalsky (K-K) equations provide an important model in analyzing the osmosis in both biologi...
A concept is presented for modeling flows through membranes using continuum mechanics. Viscous inter...
The “black box” model defines the enhancement, the polarization modulus, and the intrinsic enhanceme...
The Kedem-Katchalsky (KK) equations are often used to obtain information about the osmotic propertie...
The low-pressure transport of simple fluids in nanopores and in disordered nanoporous networks is an...
The osmotically induced passage of fluid vesicles through narrow pores is studied theoretically usin...
The physical nature of water flow, in vapour phase, through the pores of a microporous partition has...
The linear Kedem-Katchalsky phenomenological and practical equations are examined in order to show t...
AbstractThe fundamental physical mechanisms of water and solute transport across cell membranes have...
A general unique structural vision of transport phenomena in Reverse Osmosis (RO) and Nanofiltration...
To test the hypothesis that water pores in a lipid membrane mediate the proton transport, molecular ...
This paper presents a theoretical analysis of the kinetics of osmotic transport across a semipermeab...
The traditional theory of transport across capillary membranes via a laminar Poiseuille flow is show...
A model for osmotic flow in porous membranes is developed from classical transport and thermodynamic...
When an accurate description of mass transport across membranes is required, e.g. in biology, chemic...
Kedem-Katchalsky (K-K) equations provide an important model in analyzing the osmosis in both biologi...
A concept is presented for modeling flows through membranes using continuum mechanics. Viscous inter...
The “black box” model defines the enhancement, the polarization modulus, and the intrinsic enhanceme...
The Kedem-Katchalsky (KK) equations are often used to obtain information about the osmotic propertie...
The low-pressure transport of simple fluids in nanopores and in disordered nanoporous networks is an...
The osmotically induced passage of fluid vesicles through narrow pores is studied theoretically usin...
The physical nature of water flow, in vapour phase, through the pores of a microporous partition has...
The linear Kedem-Katchalsky phenomenological and practical equations are examined in order to show t...
AbstractThe fundamental physical mechanisms of water and solute transport across cell membranes have...
A general unique structural vision of transport phenomena in Reverse Osmosis (RO) and Nanofiltration...
To test the hypothesis that water pores in a lipid membrane mediate the proton transport, molecular ...