Reduction of Nitrogen Oxide Emissions

Reduction of Nitrogen Oxide Emissions

by Umit S. Ozkan
     
 

ISBN-10: 0841231508

ISBN-13: 9780841231504

Pub. Date: 01/28/1995

Publisher: American Chemical Society

Includes two overview chapters covering both technical and regulatory aspects of nitrogen oxide emissions from stationary sources. Discusses new directions in the field, such as direct composition of NO[2, different reducing agents, new catalytic materials, and two new noncatalytic techniques. Provides a thorough insight into the phenomena involved in existing

Overview

Includes two overview chapters covering both technical and regulatory aspects of nitrogen oxide emissions from stationary sources. Discusses new directions in the field, such as direct composition of NO[2, different reducing agents, new catalytic materials, and two new noncatalytic techniques. Provides a thorough insight into the phenomena involved in existing technologies. Offers a broad spectrum of studies tackling the problem of NO[2 reduction.

Product Details

ISBN-13:
9780841231504
Publisher:
American Chemical Society
Publication date:
01/28/1995
Series:
ACS Symposium Series, #587
Pages:
238
Product dimensions:
6.00(w) x 9.10(h) x 0.90(d)

Table of Contents

NO[x Control from Stationary Sources: Overview of Regulations, Technology, and Research Frontiers, C.J. Pereira and M.D. Amiridis
Clean Air Act Requirements: Effect on Emissions of NO[x from Stationary Sources, D. Grano
Selective Catalytic Reduction of NO by NH[3 over Aerogels of Titania, Silica, and Vanadia, M.D. Amiridis, B.K. Na, and E.I. Ko
Deactivation Behavior of Selective Catalytic Reduction DeNO[x Catalysts: Basis for the Development of a New Generation of Catalysts, E. Hums and G.W. Spitznagel
Zeolite Selective Catalytic Reduction Catalysts for NO[x Removal from Nuclear Waste Processing Plants, R. Gopalakrishnan and C.H. Bartholomew
Kinetic Studies of NO Reduction by CH[4 over Nonmetallic Catalysts, X. Zhang, A.B. Walters, and M.A. Vannice
Low-Temperature Selective Catalytic Reduction of NO by Hydrocarbons in the Presence of O[2 and H[2O, B. W.-L. Jang, J.J. Spivey, M.C. Kung, B. Yang, and H.H. Kung
Catalytic Reduction of NO with Propene over Coprecipitated CuZrO[2 and CuGa[2O[3, M.C. Kung, K. Bethke, D. Alt, B. Yang, and H.H. Kung
IR Study of Catalytic Reduction of NO[x by Propene in the Presence of O[2 over CeZSM-5 Zeolite, H. Yasuda, T. Miyamoto, and M. Misono
Mechanism of Selective Catalytic Reduction of NO by Propene on Fe Silicate in Oxygen-Rich Atmosphere: A Transient Response Study, K. Yogo, T. Ono, M. Ogura, and E. Kikuchi
Decomposition of NO over Metal-Modified Cu-ZSM-5 Catalysts, Y. Zhang, T. Sun, A. F. Sarofim, and M. Flytzani-Stephanopoulos
X-ray Absorption Spectroscopic Study of Cu in Cu-ZSM-5 During NO Catalytic Decomposition, D.J. Liu and H.J. Robota
X-ray Photoelectron Spectroscopy of Metal-Exchanged Na-ZSM-5 Zeolites, L. P. Haack, C.P. Hubbard, and M. Shelef
NO+CO Reaction on Rh and CeRh-SiO[2 Catalyst: In Situ IR and Temperature-Programmed Reaction Study, S.S.C. Chuang, R. Krishnamurthy, and G. Srinivas
NO Reduction by CO and H[2 over a Pt-CoO[x-SiO[2 Catalyst: Effect of CoO[x on Activity and Selectivity, Y.J. Mergler, A. van Aalst, and B.E. Nieuwenhuys
The Influence of Activated Carbon Type on NOx Adsorptive Capacity, A.M. Rubel, M.L. Stewart, and J.M. Stencel
Applications of Urea-Based Selective Noncatalytic Reduction in Hydrocarbon Processing Industry, M.L. Lin, J.R. Comparato, and W.H. Sun

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