Edited by
Pascal Granger, Universite de Lille, Laboratoire de Catalyse de Lille, France
Vasile Pârvulescu, University of Bucharest, Department of Chemical Technology and Catalysis, Romania
Description
This book offers an overview of the state of the art in the field of DeNO
x catalysis in order to focus novel orientations,
new technological developments, from laboratory to industrial scale. A particular attention has been paid towards the implementation
of catalytic processes for minimising NO
x emissions either from stationary or mobile sources under lean condition to meet
future standard regulations of NO
x emissions. In the first part of this book, critical aspects reported in the literature
which usually make difficult the achievement of efficient catalytic technologies in those conditions are summarised and analysed in order
two separate new perspectives. The second part deals with fundamental aspects at molecular level. A better understanding of the reactions
involved under unsteady-state conditions is probably a pre-requisite step for improving the performances of the actual processes or developing
original ones. The development of powerful in situ spectroscopic techniques is of fundamental interest for kinetic modelling. Correlations
between spectroscopic and kinetic data with those obtained from theoretical calculations are reported. Some illustrations emphasise the
fact that these comparisons may help in determining the nature of the catalytic active sites and building predictive tools for simulations
under running conditions. The latter part of this book will be illustrated by different practical approaches covering various aspects
related to the catalysts preparation and the development of alternative technologies which include industrial considerations.
Included in series
Studies in Surface Science and Catalysis
Audience:
Academic researchers and manufacturers.
