What people are saying - Write a review
We haven't found any reviews in the usual places.
The Thermodynamic Efﬁciency of Fuel Cells
Electromotive Force of Fuel Cells
12 other sections not shown
advantage air depolarised cell alkaline electrolytes applications carbon dioxide carbon monoxide Carnot cycle catalyst cell reaction chapter chemical energy chemical reaction concentration considerable considered construction conventional cost current density deﬁned depends difﬁculties diffusion efﬁciency electrical energy electrochemical electrode reactions electrolyte cells energy conversion equation example ﬁrst ﬂow fuel battery fuel cell operation fuel cell system fuel electrode galvanic cell gaseous gases Gibbs function heat engine high temperatures hydrazine hydrocarbons hydrogen and oxygen hydrogen electrode hydrogen—oxygen cell hydrogen—oxygen fuel increase installation internal combustion engine ionic low temperature maximum power mechanical membrane metal methanol molten nickel overpotential oxidation oxidised oxygen electrode platinum polarisation pores porous possible potassium hydroxide potential difference problems produced reactants regeneration reversible shown in ﬁgure signiﬁcant sodium solid electrolyte standard electrode potentials suitable supply temperature cells temperature of operation thermodynamic thermodynamically reversible type of cell usually various vehicles