Prediction of methanol and water fluxes through a direct methanol fuel cell polymer electrolyte membrane

“…The enhancement is a direct consequence of the water flow-induced convective mass transfer on methanol, as described in Eqs. (17) and (21). Fig.…”

“…Cathode feed: air, membrane Nafion 117, cathode gas diffuser contact angle: 120 • , P A = P C = 1 atm, T = 353 K. the second term on the right hand side of Eq. (21). Although the diffusive mass transfer decreases steadily with I cell , there could be a situation where the enhanced methanol convection by water flow surpasses the decline of diffusion so that an overall increase of I leak occurs.…”

“…Kulikovsky [8,9] considered the effect of channel flow on the cathode mixed potential, and found that a narrow zone of local current bridge which short-circuits the cell at a small current load. The inclusion of water transport phenomenon, in addition to the methanol crossover, was developed only recently [21][22][23][24][25][26][27][28]. It is noted that most water transport included models are based on the computational fluid dynamics except a few analytical works in Refs.…”

“…It is noted that most water transport included models are based on the computational fluid dynamics except a few analytical works in Refs. [21,22]. Sandhu et al [21] algebraically formulated the methanol and water crossover equations but only limited to the membrane region without consideration of the respective anode and cathode electrochemical reactions.…”

A theoretical model of the membrane electrode assembly of liquid feed direct methanol fuel cell with consideration of water and methanol crossover

“…The enhancement is a direct consequence of the water flow-induced convective mass transfer on methanol, as described in Eqs. (17) and (21). Fig.…”

“…Cathode feed: air, membrane Nafion 117, cathode gas diffuser contact angle: 120 • , P A = P C = 1 atm, T = 353 K. the second term on the right hand side of Eq. (21). Although the diffusive mass transfer decreases steadily with I cell , there could be a situation where the enhanced methanol convection by water flow surpasses the decline of diffusion so that an overall increase of I leak occurs.…”

“…Kulikovsky [8,9] considered the effect of channel flow on the cathode mixed potential, and found that a narrow zone of local current bridge which short-circuits the cell at a small current load. The inclusion of water transport phenomenon, in addition to the methanol crossover, was developed only recently [21][22][23][24][25][26][27][28]. It is noted that most water transport included models are based on the computational fluid dynamics except a few analytical works in Refs.…”

“…It is noted that most water transport included models are based on the computational fluid dynamics except a few analytical works in Refs. [21,22]. Sandhu et al [21] algebraically formulated the methanol and water crossover equations but only limited to the membrane region without consideration of the respective anode and cathode electrochemical reactions.…”

A theoretical model of the membrane electrode assembly of liquid feed direct methanol fuel cell with consideration of water and methanol crossover

“…Since the membranes are basically identical, the same can be said of the membrane models [121,174,[235][236][237][238][239][240][241][242][243]. A benefit of DMFCs is that liquid water exists on both sides of the membrane (in most cases at high enough current densities), and thus it remains liquidequilibrated throughout.…”

Macroscopic Modeling of Polymer-Electrolyte Membranes

Synthesis and Ex‐situ Characterization of Nafion/TiO₂ Composite Membranes for Direct Ethanol Fuel Cell