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Combustion Science and Technology Volume 182, 2010 - Issue 4-6: SIXTH MEDITERRANEAN COMBUSTION SYMPOSIUM
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Original Articles

A Comprehensive Kinetic Modeling of Ignition of Syngas–Air Mixtures at Low Temperatures and High Pressures

D. E. Cavaliere Dipartimento di Ingegneria Chimica, Università di Napoli “Federico II”, Napoli, Italy
,
M. de Joannon Istituto di Ricerche sulla Combustione–C.N.R., Napoli, Italy
,
P. Sabia Istituto di Ricerche sulla Combustione–C.N.R., Napoli, Italy
,
M. Sirignano Dipartimento di Ingegneria Chimica, Università di Napoli “Federico II”, Napoli, Italy
&
A. D'Anna Dipartimento di Ingegneria Chimica, Università di Napoli “Federico II”, Napoli, ItalyCorrespondence[email protected]
Pages 692-701 | Received 09 Apr 2009, Accepted 12 Oct 2009, Published online: 08 Jun 2010

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Qiang Guo, Jie Liu, Wenkai Liang & Hewu Wang. (2023) On the Three-Stage Explosion Characteristics of Diethyl Ether-Oxygen Mixtures. Combustion Science and Technology 0:0, pages 1-24.
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Sang Kyu Choi, Saeed M. Al-Noman & Suk Ho Chung. (2015) Simulation of Non-Autoignited and Autoignited Laminar Non-Premixed Jet Flames of Syngas in Heated Coflow Air. Combustion Science and Technology 187:1-2, pages 132-147.
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Articles from other publishers (10)

Alexander S. Sharipov, Boris I. Loukhovitski, Alexey V. Pelevkin & Mayya R. Korshunova. (2024) A detailed kinetic submechanism for OH chemiluminescence in hydrogen combustion revisited. Part 1 . Combustion and Flame 263, pages 113407.
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Hernando A. Yepes, Arley Cardona & Carlos E. Arrieta. (2024) Evaluation of the corrections methodologies for improving the ignition delay time calculation in hydrogen/air mixtures using a design of experiments approach. Journal of the Brazilian Society of Mechanical Sciences and Engineering 46:1.
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Wenrui Li, Yanlei Shang, Hongbo Ning, Jun Li & Sheng-Nian Luo. (2020) Reaction pathways and kinetics study on a syngas combustion system: CO + HO 2 in an H 2 O environment . Physical Chemistry Chemical Physics 22:10, pages 5797-5806.
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Nazli Asgari & Bihter Padak. (2018) Effect of fuel composition on NO x formation in high‐pressure syngas/air combustion . AIChE Journal 64:8, pages 3134-3140.
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Nor Afzanizam Samiran, Jo-Han Ng, Mohammad Nazri Mohd Jaafar, Agustin Valera-Medina & Cheng Tung Chong. (2017) Swirl stability and emission characteristics of CO-enriched syngas/air flame in a premixed swirl burner. Process Safety and Environmental Protection 112, pages 315-326.
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N. A. Slavinskaya, M. Abbasi, J. H. Starcke, R. Whitside, A. Mirzayeva, U. Riedel, W. Li, J. Oreluk, A. Hegde, A. Packard, M. Frenklach, G. Gerasimov & O. Shatalov. (2017) Development of an Uncertainty Quantification Predictive Chemical Reaction Model for Syngas Combustion. Energy & Fuels 31:3, pages 2274-2297.
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Quan-De Wang. (2014) An updated detailed reaction mechanism for syngas combustion. RSC Adv. 4:9, pages 4564-4585.
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Elfi Kraka, Wenli Zou, Marek Freindorf & Dieter Cremer. (2012) Energetics and Mechanism of the Hydrogenation of XH n for Group IV to Group VII Elements X . Journal of Chemical Theory and Computation 8:12, pages 4931-4943.
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F. Tabet, B. Sarh & I. Gökalp. (2011) Turbulent non-premixed hydrogen-air flame structure in the pressure range of 1–10 atm. International Journal of Hydrogen Energy 36:24, pages 15838-15850.
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P. Boivin, C. Jiménez, A.L. Sánchez & F.A. Williams. (2011) A four-step reduced mechanism for syngas combustion. Combustion and Flame 158:6, pages 1059-1063.
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