OPEM Report (Amphlett Model)

What is Amphlett ?

Amphlett static model is a parametric model that predicting the performance of a solid polymer electrolyte, proton exchange membrane (PEM) fuel cell. Main concepts in the Amphlett model includes Nernst voltage, PEMFC losses (activation polarization loss, ohmic polarization loss and concentration polarization loss), power and efficiency of fuel cell. This parametric model of PEMFC using a combination of mechanistic and empirical approach. The ideal standard potential (Nernst potential) of an H2/O2 FC is 1.229 V with liquid water product. The actual cell potential is decreased from its reference potential because of irreversible losses.

Inputs

Input	Description	Value
A	Active area [cm^2]	50.6
JMax	Maximum current density [A/(cm^2)]	1.5
N	Number of single cells	1
PH2	Partial pressure [atm]	1
PO2	Partial pressure [atm]	1
R	R-Electronic [ohm] (*Optional)	0
T	Cell operation temperature [K]	343.15
i-start	Cell operating current start point [A]	0
i-step	Cell operating current step	0.1
i-stop	Cell operating current end point [A]	75
l	Membrane thickness [cm]	0.0178
lambda	An adjustable parameter with a min value of 14 and max value of 23	23

Overall Parameters

Parameter	Description	Value
Efficiency\|Pmax	Cell efficiency at maximum power	0.2825484954669381
Pmax	Maximum power [W]	29.399736050325846
Ptotal(Elec)	Total electrical power [W]	45.01193996081915
Ptotal(Thermal)	Total thermal power [W]	47.074060039180836
VFC\|Pmax	Cell voltage at maximum power [V]	0.44077565292842347

Graphs

Parameter	Description	Value
K	Slope of the curve obtained by linear approximation [A^(-1)]	-0.005863884375694599
Pmax(L-Approx)	Maximum power obtained by linear approximation [W]	28.735604176281242
V0	Intercept of the curve obtained by linear approximation [V]	0.8209805365669519
VFC\|Pmax(L-Approx)	Cell voltage at maximum power obtained by linear approximation [V]	0.41049026828347596

Generated By OPEM Version 1.3