Response to the letter 'Mass transport on composite catalytic surfaces by V. Zhdanov'

Mattos T.G.; Aar?o Reis F.D.A.

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Response to the letter 'Mass transport on composite catalytic surfaces by V. Zhdanov'

机译：对字母“ V. Zhdanov在复合催化表面上的传质”的回复

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In the model studied in [T.G. Mattos, F.D.A. Aar?o Reis, J. Catal. 263 (2009) 67], the constant external reactant flux drives the system far from equilibrium, thus detailed balance conditions are expected to fail and chemical potentials are not useful to determine equilibrium conditions. This is similar to other far from equilibrium models, some of them also applied to catalysis. There is a nonzero net flux of reactants across the catalyst-support interface, but mass conservation is satisfied there, although the original solution of the model was based on a global mass conservation. Thus, the claim that the results of [T.G. Mattos, F.D.A. Aar?o Reis, J. Catal. 263 (2009) 67] are wrong is unjustified, and the far from equilibrium conditions may be observed experimentally.

机译：在[T.G.马托斯（美国） Aar？o Reis，J。Catal。 [263]（2009）67]，恒定的外部反应物通量使系统远离平衡，因此详细的平衡条件可能会失效，并且化学势对确定平衡条件没有帮助。这与其他远非平衡模型相似，其中一些也适用于催化。穿过催化剂-载体界面的反应物的净通量为非零，但在那里满足质量守恒，尽管该模型的原始解决方案基于全局质量守恒。因此，声称[T.G.马托斯（美国） Aar？o Reis，J。Catal。 [263（2009）67]的错误是不合理的，并且可以通过实验观察到远离平衡条件的情况。

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《Journal of Catalysis》 |2009年第2期|共2页
作者
Mattos T.G.; Aar?o Reis F.D.A.;
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正文语种 eng
中图分类催化;
关键词
Back-spillover; Catalysis; Desorption; Diffusion; Scaling; Spillover;

机译：回溢;催化;解吸;扩散;缩放;溢出;

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Response to the letter 'Mass transport on composite catalytic surfaces by V. Zhdanov'

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