Title:
Environmental catalysis
Publication Information:
Washington, DC : ACS, 1994
ISBN:
9780841228511
General Note:
Developed from a symposium sponsored by the Catalysis and Surface Science Secretariat at the 205th National Meeting of the American Chemical Society, Denver, Colorado, March 28-April 2, 1993
Added Author:
Added Corporate Author:
Added Conference Author:
Available:*
Library | Item Barcode | Call Number | Material Type | Item Category 1 | Status |
|---|---|---|---|---|---|
Searching... | 30000002989253 | TD192.3.E68 1994 | Open Access Book | Proceedings, Conference, Workshop etc. | Searching... |
On Order
Summary
Summary
The first comprehensive volume on the major aspects of environmental catalysis. Focuses on NO[x removal, mobile engine emission controls, power plant emissions, control of volatile organic compounds, SO[x emissions, and waste minimization. Overview chapters introduce each section and provide added perspective and coverage. Includes comprehensive technical reports on automotive and diesel emission control catalysis, NO[x removal, and removal of chlorinated hydrocarbons from various process streams.
Table of Contents
| Armor: NOx Removal: An OverviewY. Zhang and M. Flytzani-Stephanopoulos: |
| Catalytic Decomposition of Nitric Oxideover Promoted Copper-Ion-Exchanged ZSM-5 ZeolitesG. Centi and C. Nigro and S. Perathoner and G. Stella |
| Reactivity of Cu-BasedZeolites and Oxides in the Conversion of NO in the Presence or Absence of O2K.C.C.Kharas and H.J. Robota and A. Datye |
| Deactivation of Cu-ZSM-5: ProbableIrrelevance of Modest Zeolite Degradation Compared to Cupric Sintering toCuOH.W. Jen and H.S. Gandhi |
| Catalytic Reduction of NOHydrocarbon in Oxidizing |
| Atmosphere: Importance of Hydrocarbon OxidationL.P. Haack and M. Shelef: |
| X-ray Photoelectron Spectroscopy of Cu-ZSM-5 ZeoliteR. Gopalakrishnan and J. Davidson and P. Stafford and W.C. Hecker and C.H. |
| Bartholomew:Catalysis for Cleanup of NH3, NOx, and CO from a Nuclear Waste Processing FacilityJ.N. Armor |
| Mobile Engine Emission Control: An OverviewJ.C. Summers and W.B. Williamson: |
| Palladium-Only Catalysts for Closed-LoopControlB. E. Nieuwenhuys and J. Siera and K. Tanaka and H. Hirano |
| Differences in Behaviorof Pt, Rh, and Pt-Rh Alloy Surfaces toward NO ReductionT.R. Ward and P. Alemany and R. Hoffmann |
| Adhesion of Rh, Pd, and Pt to Aluminaand NO Reactions on Resulting Surfaces |
| Model CalculationsG. Srinivas and S.S. C. Chuang and S. Debnath |
| Interaction of NO and CO on Rh-SiO2and Ce-Rh-SiO2 Catalysts |
| A Transient In Situ IR Spectroscopic StudyJ.N. Armor |
| Power Plant Emissions An OverviewG.W. Spitznagel and K. Huttenhofer and J.K. Beer |
| NOx Abatement by Selective Catalytic ReductionP.A. Lowe and W. Ellison |
| Foreign Experience with Selective Catalytic Reduction NOx ControlsP.A. Lowe |
| Low-Temperature Selective Catalytic Reduction NOx ControlR.M. Heck and J.M. Chen and B.K. Speronello and L. Morris |
| Family of VersatileCatalyst Technologies for NOx Removal in Power Plant ApplicationsS.K. Agarwal and B.W.-L. Jang and R. Oukaci and A. Riley and G. Marcelin |
| NOx Control by Catalytic Combustion of Natural GasG. Centi and N. Passarini and S. Perathoner and A. Riva |
| Contemporaneous Removal of SO2 and NO from Flue Gas Using a Regenerable Copper-on-Alumina Sorbent- CatalystE. Xue and K. Seshan and P.D.L. Mercera and J. G. van Ommen and J.R. H. Ross |
| Pt-ZrO2Catalysts for the Oxidation of NO and SO2: Effects of SulfateJ.N. Armor |
| Future Fuels: An OverviewJ. B. Wise and D. Powers |
| Highly Selective Olefin Skeletal Isomerization PRocessR. H. Harding and R. R. Gatte and J. A. Whitecavage and R. F. Wormsbecher |
| ReactionKinetics of Gasoline Sulfur Compounds: Catalytic Mechanisms for Sulfur ReductionJ.N. Armor |
| Volatile Organic Compounds: An OverviewL.M. Parker and J.E. Patterson |
| Catalysts for Low-Temperature Oxidation of EtheneA.A. Klinghoffer and J.A. Rossin |
| Transient Response of a Monolithic OxidationCatalyst: Effects of Process ConditionsM.T. Vandersall and S.G. Maroldo and W. H. Brendley Jr. and K. Jurczyk and R.S. Drago |
| Low-Temperature Deep Oxidation of Aliphatic and Aromatic HydrocarbonsR.S. Drago and S.C. Petrosius and G. C. Grunewald and W. H. Brendley Jr. |
| Deep Oxidation of Chlorinated HydrocarbonsA. Gervasini and C.L. Bianchi and V. Ragaini |
| Low-Temperature Catalytic Combustion of Volatile Organic Compounds Using OzoneJ.N. Armor |
| Other Opportunities for Catalysts in Environmental Problems: An OverviewW. Liu M. |
| Flytzani-Stephanopoulos: Reduction of SO2 toElemental S. |
| overCeria CatalystsH.M. Huisman and P. van der Berg and R. Mos and A.J. van Dillen and J.W. Geus |
| Hydrolysis of COS on Titania Catalysis: Mechanism and Influence of OxygenP.F. Schubert and R. D. Beatty and S. Mahajan |
| Catalytic Bromine Recovery from HBrWasteS. Tsubota and A. Ueda and H. Sakurai and T. Kobayashi and M. Haruta |
| Application ofSupported Gold Catalysts in Environmental Problems |
