
312 Fuel Cells
Ohmic resistances:
R
L
A
ohmi,i
electrolyte
=
σ
and
R
L
ohmi,e
e
=
Nernst–Planck’s equation for water transport:
jn
i
nF
D
c
z
cc
K
P
HO drag
e
HO
HO
HO HO
HO
HO
22
2
22
2
2
d
d
d
=− −2
µ
ddz
Schlogl equation for water transport:
jn
i
nF
c
K
HO drag
e
HO
HO
HO
2
2
=−−
µ
.
References
Bernardi, D. M. and M. W. Verbrugge. Mathematical model of a gas diffusion elec-
trode bonded to polymer electrolyte. AIChE Journal 37: 1151–1163, 1991.
Fergus, J. W., R. Hui, X. Li, W. P. Wilkinson and J. Zhang. Solid Oxide Fuel Cells—
Materials Properties and Performance. CRC Press, 2009.
Jaouen, F., G. Linbergh and G. Sundholm. Investigation of mass transport limita-
tions in the solid polymer ...