Armor: NOx Removal: An Overview / Y. Zhang ; M. Flytzani-Stephanopoulos: |
Catalytic Decomposition of Nitric Oxideover Promoted Copper-Ion-Exchanged ZSM-5 Zeolites / G. Centi ; C. Nigro ; S. Perathoner ; G. Stella |
Reactivity of Cu-BasedZeolites and Oxides in the Conversion of NO in the Presence or Absence of O2K.C.C. / Kharas ; H.J. Robota ; A. Datye |
Deactivation of Cu-ZSM-5: ProbableIrrelevance of Modest Zeolite Degradation Compared to Cupric Sintering to / CuOH.W. Jen ; H.S. Gandhi |
Catalytic Reduction of NO / Hydrocarbon in Oxidizing |
Atmosphere: Importance of Hydrocarbon Oxidation / L.P. Haack ; M. Shelef: |
X-ray Photoelectron Spectroscopy of Cu-ZSM-5 Zeolite / R. Gopalakrishnan ; J. Davidson ; P. Stafford ; W.C. Hecker ; C.H. |
Bartholomew:Catalysis for Cleanup of NH3, NOx, and CO from a Nuclear Waste Processing Facility / J.N. Armor |
Mobile Engine Emission Control: An Overview / J.C. Summers ; W.B. Williamson: |
Palladium-Only Catalysts for Closed-LoopControl / B. E. Nieuwenhuys ; J. Siera ; K. Tanaka ; H. Hirano |
Differences in Behaviorof Pt, Rh, and Pt-Rh Alloy Surfaces toward NO Reduction / T.R. Ward ; P. Alemany ; R. Hoffmann |
Adhesion of Rh, Pd, and Pt to Aluminaand NO Reactions on Resulting Surfaces |
Model Calculations / G. Srinivas ; S.S. C. Chuang ; S. Debnath |
Interaction of NO and CO on Rh-SiO2and Ce-Rh-SiO2 Catalysts |
A Transient In Situ IR Spectroscopic Study |
Power Plant Emissions An Overview / G.W. Spitznagel ; K. Huttenhofer ; J.K. Beer |
NOx Abatement by Selective Catalytic Reduction / P.A. Lowe ; W. Ellison |
Foreign Experience with Selective Catalytic Reduction NOx Controls |
Low-Temperature Selective Catalytic Reduction NOx Control / R.M. Heck ; J.M. Chen ; B.K. Speronello ; L. Morris |
Family of VersatileCatalyst Technologies for NOx Removal in Power Plant Applications / S.K. Agarwal ; B.W.-L. Jang ; R. Oukaci ; A. Riley ; G. Marcelin |
NOx Control by Catalytic Combustion of Natural Gas / N. Passarini ; A. Riva |
Contemporaneous Removal of SO2 and NO from Flue Gas Using a Regenerable Copper-on-Alumina Sorbent- Catalyst / E. Xue ; K. Seshan ; P.D.L. Mercera ; J. G. van Ommen ; J.R. H. Ross |
Pt-ZrO2Catalysts for the Oxidation of NO and SO2: Effects of Sulfate |
Future Fuels: An Overview / J. B. Wise ; D. Powers |
Highly Selective Olefin Skeletal Isomerization PRocess / R. H. Harding ; R. R. Gatte ; J. A. Whitecavage ; R. F. Wormsbecher |
ReactionKinetics of Gasoline Sulfur Compounds: Catalytic Mechanisms for Sulfur Reduction |
Volatile Organic Compounds: An Overview / L.M. Parker ; J.E. Patterson |
Catalysts for Low-Temperature Oxidation of Ethene / A.A. Klinghoffer ; J.A. Rossin |
Transient Response of a Monolithic OxidationCatalyst: Effects of Process Conditions / M.T. Vandersall ; S.G. Maroldo ; W. H. Brendley Jr. ; K. Jurczyk ; R.S. Drago |
Low-Temperature Deep Oxidation of Aliphatic and Aromatic Hydrocarbons / S.C. Petrosius ; G. C. Grunewald |
Deep Oxidation of Chlorinated Hydrocarbons / A. Gervasini ; C.L. Bianchi ; V. Ragaini |
Low-Temperature Catalytic Combustion of Volatile Organic Compounds Using Ozone |
Other Opportunities for Catalysts in Environmental Problems: An Overview / W. Liu M. |
Flytzani-Stephanopoulos: Reduction of SO2 to / Elemental S. |
overCeria Catalysts / H.M. Huisman ; P. van der Berg ; R. Mos ; A.J. van Dillen ; J.W. Geus |
Hydrolysis of COS on Titania Catalysis: Mechanism and Influence of Oxygen / P.F. Schubert ; R. D. Beatty ; S. Mahajan |
Catalytic Bromine Recovery from HBrWaste / S. Tsubota ; A. Ueda ; H. Sakurai ; T. Kobayashi ; M. Haruta |
Application ofSupported Gold Catalysts in Environmental Problems |
Armor: NOx Removal: An Overview / Y. Zhang ; M. Flytzani-Stephanopoulos: |
Catalytic Decomposition of Nitric Oxideover Promoted Copper-Ion-Exchanged ZSM-5 Zeolites / G. Centi ; C. Nigro ; S. Perathoner ; G. Stella |
Reactivity of Cu-BasedZeolites and Oxides in the Conversion of NO in the Presence or Absence of O2K.C.C. / Kharas ; H.J. Robota ; A. Datye |