화학공학소재연구정보센터
Applied Surface Science, Vol.173, No.1-2, 122-133, 2001
Hydrogen adsorbed on palladium during water formation studied with palladium membranes
The amount of hydrogen adsorbed on palladium during water formation has been studied by measurements of the rate at which hydrogen permeates a palladium membrane. The water formation and hydrogen permeation rates were measured simultaneously for palladium membranes exposed to a hydrogen-oxygen-argon mixture on one side and to pure argon on the other side. Investigations were carried out for the temperatures 100, 150 and 200 degreesC at a total pressure of 760 Torr. If the rates are plotted as a function of alpha. where alpha = PH2/(PH2 + PO2), PH2 and PO2 are the pressures of hydrogen and oxygen at the palladium surface, respectively, it is found that, at 100 degreesC, a peak occurs in the water formation rate at alpha (max) approximate to 0.2. The palladium surface is dominated by hydrogen for alpha > alpha (max) and is hydrogen deficient for alpha < (max). This is consistent with a rate limiting step for the water forming reaction where adsorbed hydrogen is one of the reactants. It is also concluded that the heat of adsorption for hydrogen on the palladium surface is significantly lower than previously derived from experiments made under ultrahigh vacuum conditions.