Abstract
The steady-state temperature distribution has been determined along a 9 cm 32 SWG Pd wire axially stretched in a reaction vessel and electrically heated in vacuo and in 26 Pa oxygen. The results have been used to calculate reaction velocity for the model rate km=Bm exp (–E/RT), with Bm= 1025 molecule m–2 s–1, and with E= 80–180 kJ mol–1. ‘Experimental’E′ and B″ values were then calculated using the maximum (central) wire temperatures T′ and E″ and B″ values using the computed average wire temperatures T″. For the range of E, the E′ and B′ values correspond more closely for the gaseous ambient to the true (E and 1025) values. If we assume a simple linear extrapolation to lower E values than 80 kJ mol–1, then below E= 30 kJ mol–1, E″ will correspond more closely to the true E values. The generalisation of these conclusions is discussed in relation to some earlier studies on catalytic wires.
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Schedule a callMore From: Journal of the Chemical Society, Faraday Transactions 1: Physical Chemistry in Condensed Phases
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