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Combustion Science and Technology Volume 23, 1980 - Issue 5-6
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Original Articles

A Kinetic Study of NO Removal from Combustion Gases by Injection of NHi-Containing Compounds

S. SALIMIAN Department of Mechanical Engineering, Stanford University, Stanford, California, 94305
&
R. K. HANSON Department of Mechanical Engineering, Stanford University, Stanford, California, 94305
Pages 225-230 | Received 04 Dec 1979, Accepted 18 Mar 1980, Published online: 27 Apr 2007

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M. XU, Y FAN & J. YUAN. (1998) Modelling and Mechanism of NOx Emissions Under Fuel Staging During Combustion. Combustion Science and Technology 133:4-6, pages 377-394.
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J. STECIAK, W. ZHU, Y. A. LEVENDIS & D. L. WISE. (1994) The Effectiveness of Calcium (Magnesium) Acetate and Calcium Benzoate as NOx Reduction Agents in Coal Combustion. Combustion Science and Technology 102:1-6, pages 193-211.
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C. J. DASCH & R.J. BLINT. (1984) A Mechanistic and Experimental Study of Ammonia Flames. Combustion Science and Technology 41:5-6, pages 223-244.
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Articles from other publishers (36)

O. N. Kulish, K. I. Zaporozhskii & M. N. Orlova. (2023) Two-Stage Selective Non-Catalytic Process for Nitrogen Oxide Removal from Thermal Generating Unit Flue Gases. Doklady Chemistry 511:2, pages 197-201.
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O. N. Kulish, K. I. Zaporozhskii & M. N. Orlova. (2023) THE TWO-STAGED REDUCTION SELECTIVE NON-CATALYTIC REDUCTION PROCESS OF NITROGEN OXIDES INTHERMAL GENERATION UNIT FLUE GASES. Доклады Российской академии наук. Химия, науки о материалах 511:1, pages 54-59.
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Carlo Locci, Luc Vervisch, Benjamin Farcy, Pascale Domingo & Nicolas Perret. (2017) Selective Non-catalytic Reduction (SNCR) of Nitrogen Oxide Emissions: A Perspective from Numerical Modeling. Flow, Turbulence and Combustion 100:2, pages 301-340.
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Lucio Postrioti, Gabriele Brizi, Carmine Ungaro, Mark Mosser & Francesco Bianconi. (2015) A methodology to investigate the behaviour of urea-water sprays in high temperature air flow for SCR de- applications . Fuel 150, pages 548-557.
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Liu Hong, Li‐Jie Yin, De‐Zhen Chen & Du Wang. (2014) Proposal and verification of a kinetic mechanism model for NO x removal with hydrazine hydrate . AIChE Journal 61:3, pages 904-912.
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Liu Hong & De-Zhen Chen. (2011) Notice of Retraction Analysis of kinetics mechanism on NOx removal by hydrazine at moderate to high temperatures. Notice of Retraction Analysis of kinetics mechanism on NOx removal by hydrazine at moderate to high temperatures.
Alexander A. Konnov, M. Tayyeb Javed, Håkan Kassman & Naseem Irfan. 2010. Handbook of Combustion. Handbook of Combustion 439 464 .
Rubik Asatryan, Joseph W. Bozzelli, Gabriel da Silva, Saartje Swinnen & Minh Tho Nguyen. (2010) Formation and Decomposition of Chemically Activated and Stabilized Hydrazine. The Journal of Physical Chemistry A 114:21, pages 6235-6249.
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M. Tayyeb Javed, W. Nimmo, Asif Mahmood & Naseem Irfan. (2009) Effect of oxygenated liquid additives on the urea based SNCR process. Journal of Environmental Management 90:11, pages 3429-3435.
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Yanwen Zhang, Ningsheng Cai, Jingbiao Yang & Bo Xu. (2008) Experimental and modeling study of the effect of CH4 and pulverized coal on selective non-catalytic reduction process. Chemosphere 73:5, pages 650-656.
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J. J. Hernández, J. Pérez-Collado & J. Sanz-Argent. (2007) Role of the Chemical Kinetics on Modeling NO x Emissions in Diesel Engines . Energy & Fuels 22:1, pages 262-272.
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M. Tayyeb Javed, W. Nimmo & B.M. Gibbs. (2008) Experimental and modeling study of the effect of CO and H2 on the urea DeNOx process in a 150kW laboratory reactor. Chemosphere 70:6, pages 1059-1067.
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M. Tayyeb Javed, Naseem Irfan & B.M. Gibbs. (2007) Control of combustion-generated nitrogen oxides by selective non-catalytic reduction. Journal of Environmental Management 83:3, pages 251-289.
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C.C Schmidt & C.T Bowman. (2001) Flow reactor study of the effect of pressure on the thermal de-NO x process. Combustion and Flame 127:1-2, pages 1958-1970.
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S.C Hill & L Douglas Smoot. (2000) Modeling of nitrogen oxides formation and destruction in combustion systems. Progress in Energy and Combustion Science 26:4-6, pages 417-458.
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Minghou Xu, Yaoguo Fan, Jianwei Yuan, Changdong Sheng & Hong Yao. (1999) Modelling NOx emissions during staged combustion. International Journal of Energy Research 23:8, pages 683-693.
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J. A. Caton, J. K. Narney, H. C. Cariappa & W. R. Laster. (2009) The selective non‐catalytic reduction of nitric oxide using ammonia at up to 15% oxygen. The Canadian Journal of Chemical Engineering 73:3, pages 345-350.
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Stephen P. Walch. (1993) Theoretical characterization of the reaction NH2+NO→products. The Journal of Chemical Physics 99:7, pages 5295-5300.
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John Boyle, Armistead Russell, Shi-Chune Yao, Qian Zhou, James Ekmann, Yuan Fu & Mahendra Mathur. (1993) Reduction of nitrogen oxides from post-combustion gases utilizing molecular radical species. Fuel 72:10, pages 1419-1427.
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Walter Hack, Reinhard Haubold, Claudia Heinrich-Sterzel, Hannelore Keller-Rudek, Ulrike Ohms-Bredemann, Dag Schiöberg & Carol StrametzWalter Hack, Reinhard Haubold, Claudia Heinrich-Sterzel, Hannelore Keller-Rudek, Ulrike Ohms-Bredemann, Dag Schiöberg & Carol Strametz. 1993. N Nitrogen. N Nitrogen 14 278 .
James A. Miller & Craig T. Bowman. (2004) Kinetic modeling of the reduction of nitric oxide in combustion products by isocyanic acid. International Journal of Chemical Kinetics 23:4, pages 289-313.
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Richard K. Lyon & Jerald A. Cole. (1990) A reexamination of the RapreNOx process. Combustion and Flame 82:3-4, pages 435-443.
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V.P. Bulatov, A.A. Ioffe, V.A. Lozovsky & O.M. Sarkisov. (1989) On the reaction of the NH2 radical with NO at 295–620 K. Chemical Physics Letters 161:2, pages 141-146.
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Katharina Kohse-Höinghaus, David F. Davidson, Albert Y. Chang & Ronald K. Hanson. (1989) Quantitative NH2 concentration determination in shock tube laser-absorption experiments. Journal of Quantitative Spectroscopy and Radiative Transfer 42:1, pages 1-17.
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Stephen P. Walch, Ronald J. Duchovic & Celeste McMichael Rohlfing. (1989) Theoretical characterization of the minimum energy path for hydrogen atom addition to N2: Implications for the unimolecular lifetime of HN2. The Journal of Chemical Physics 90:6, pages 3230-3240.
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James A. Miller & Craig T. Bowman. (1989) Mechanism and modeling of nitrogen chemistry in combustion. Progress in Energy and Combustion Science 15:4, pages 287-338.
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U. Zell, R. Shamekhi & P. Roth. (1988) Waste water combustion in laboratory swirl burners—II. No formation from dissolved N-compounds. Chemical Engineering Science 43:7, pages 1667-1676.
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Mark A. Kimball-Linne & Ronald K. Hanson. (1986) Combustion-driven flow reactor studies of thermal DeNOx reaction kinetics. Combustion and Flame 64:3, pages 337-351.
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C.F. Melius & J.S. Binkley. (1985) Energetics of the reaction pathways for NH2+NO→ products and NH+NO→products. Symposium (International) on Combustion 20:1, pages 575-583.
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S. Salimian, R. K. Hanson & C. H. Kruger. (2004) High temperature study of the reactions of O and OH with NH 3 . International Journal of Chemical Kinetics 16:6, pages 725-739.
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S. Salimian, R.K. Hanson & C.H. Kruger. (1984) Ammonia oxidation in shock-heated NH3N2OAr mixtures. Combustion and Flame 56:1, pages 83-95.
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Charles K. Westbrook & Frederick L. Dryer. (1984) Chemical kinetic modeling of hydrocarbon combustion. Progress in Energy and Combustion Science 10:1, pages 1-57.
Crossref
Ronald K. Hanson & Siamak Salimian. 1984. Combustion Chemistry. Combustion Chemistry 361 421 .
Joel A. Silver. (1983) The effect of sulfur on the thermal DeNOx process. Combustion and Flame 53:1-3, pages 17-21.
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John P. Seidle & Melvyn C. Branch. (1983) Hydroxyl concentration measurements in the NH3NOO2 reaction in postflame gases. Combustion and Flame 52, pages 47-57.
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A.M. Dean, J.E. Hardy & R.K. Lyon. (1982) Kinetics and mechanism of NH3 oxidation. Symposium (International) on Combustion 19:1, pages 97-105.
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