Add to ORKGThis study aimed to investigate the transport mechanisms of ions during forward-osmosis-driven (FO-driven) dewatering of microalgae using molecular dynamics (MD) simulations. The dynamical and structural properties of ions in FO systems of varying NaCl or MgCl2 draw solution (DS) concentrations were calculated and correlated. Results indicate that FO systems with higher DS concentration caused ions to have lower hydration numbers and higher coordination numbers leading to lower diffusion coefficients. The higher hydration number of Mg2+ ions resulted in significantly lower ionic permeability as compared to Na+ ions at all concentrations (p = 0.002). The simulations also revealed that higher DS concentrations led to higher accumulation of io...
Water and ion transport through a heterogeneous membrane separating two electrolyte solutions at dif...
This work presents an analytical solution to the differential equations that govern the electrically...
Low energy requirement in algae harvesting is necessary for sustainable biofuel production. Forward ...
This study aimed to investigate the transport mechanisms of ions during forward-osmosis-driven (FO-d...
Microalgae are believed to be the futures potential novel sources of biological nutrients due to the...
Forward osmosis (FO) is an emerging membrane separation process, and it has recently been explored f...
Osmotically-driven membrane processes such as forward osmosis (FO) and pressure retarded osmosis (PR...
This study elucidates forward osmosis (FO) technology as a potential desalination process. A FO desa...
Osmotically driven membrane processes, such as forward osmosis (FO) and pressure retarded osmosis (P...
The potential application of forward osmosis (FO) in microalgae dewatering requires an improved unde...
Diffusion coefficient of solutes through a porous membrane media is different from diffusion coeffic...
Under the stress of water shortage and the need of reducing energy consumption, advancing the membra...
With the purpose of gaining insights into the mechanisms of ion uptake and permeation in desalinatio...
Reverse osmosis (RO) is currently one of the most widely used methods of desalination in the world a...
Microalgae is one of the best candidates for biofuel production owing to its numerous advantages ove...
Water and ion transport through a heterogeneous membrane separating two electrolyte solutions at dif...
This work presents an analytical solution to the differential equations that govern the electrically...
Low energy requirement in algae harvesting is necessary for sustainable biofuel production. Forward ...
This study aimed to investigate the transport mechanisms of ions during forward-osmosis-driven (FO-d...
Microalgae are believed to be the futures potential novel sources of biological nutrients due to the...
Forward osmosis (FO) is an emerging membrane separation process, and it has recently been explored f...
Osmotically-driven membrane processes such as forward osmosis (FO) and pressure retarded osmosis (PR...
This study elucidates forward osmosis (FO) technology as a potential desalination process. A FO desa...
Osmotically driven membrane processes, such as forward osmosis (FO) and pressure retarded osmosis (P...
The potential application of forward osmosis (FO) in microalgae dewatering requires an improved unde...
Diffusion coefficient of solutes through a porous membrane media is different from diffusion coeffic...
Under the stress of water shortage and the need of reducing energy consumption, advancing the membra...
With the purpose of gaining insights into the mechanisms of ion uptake and permeation in desalinatio...
Reverse osmosis (RO) is currently one of the most widely used methods of desalination in the world a...
Microalgae is one of the best candidates for biofuel production owing to its numerous advantages ove...
Water and ion transport through a heterogeneous membrane separating two electrolyte solutions at dif...
This work presents an analytical solution to the differential equations that govern the electrically...
Low energy requirement in algae harvesting is necessary for sustainable biofuel production. Forward ...