Methane Combustion Over Lanthanum-based Perovskite Mixed Oxides (springer Theses)
by Hamidreza Arandiyan /
2015 / English / PDF
7.2 MB Download
This book presents current research into the catalytic combustion
of methane using perovskite-type oxides (ABO
This book presents current research into the catalytic combustion
of methane using perovskite-type oxides (ABO3
3).
Catalytic combustion has been developed as a method of promoting
efficient combustion with minimum pollutant formation as compared
to conventional catalytic combustion. Recent theoretical and
experimental studies have recommended that noble metals supported
on (ABO
).
Catalytic combustion has been developed as a method of promoting
efficient combustion with minimum pollutant formation as compared
to conventional catalytic combustion. Recent theoretical and
experimental studies have recommended that noble metals supported
on (ABO3
3) with well-ordered porous networks show
promising redox properties. Three-dimensionally ordered
macroporous (3DOM) materials with interpenetrated and regular
mesoporous systems have recently triggered enormous research
activity due to their high surface areas, large pore volumes,
uniform pore sizes, low cost, environmental benignity, and good
chemical stability. These are all highly relevant in terms of the
utilization of natural gas in light of recent catalytic
innovations and technological advances. The book is of interest
to all researchers active in utilization of natural gas with
novel catalysts. The research covered comes from the most
important industries and research centers in the field. The book
serves not only as a text for researcher into catalytic
combustion of methane, 3DOM perovskite mixed oxide, but also
explores the field of green technologies by experts in academia
and industry. This book will appeal to those interested in
research on the environmental impact of combustion, materials and
catalysis.
) with well-ordered porous networks show
promising redox properties. Three-dimensionally ordered
macroporous (3DOM) materials with interpenetrated and regular
mesoporous systems have recently triggered enormous research
activity due to their high surface areas, large pore volumes,
uniform pore sizes, low cost, environmental benignity, and good
chemical stability. These are all highly relevant in terms of the
utilization of natural gas in light of recent catalytic
innovations and technological advances. The book is of interest
to all researchers active in utilization of natural gas with
novel catalysts. The research covered comes from the most
important industries and research centers in the field. The book
serves not only as a text for researcher into catalytic
combustion of methane, 3DOM perovskite mixed oxide, but also
explores the field of green technologies by experts in academia
and industry. This book will appeal to those interested in
research on the environmental impact of combustion, materials and
catalysis.