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Combustion Science and Technology Volume 172, 2001 - Issue 1
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Original Articles

A STUDY OF PYRROLE OXIDATION UNDER FLOW REACTOR CONDITIONS

M. LUMBRERAS Department of Chemical and Environmental Engineering, Centro Politécnico Superior, Maria de Luna, Zaragoza, Spain
,
M.U. ALZUETA Department of Chemical and Environmental Engineering, Centro Politécnico Superior, Maria de Luna, Zaragoza, SpainCorrespondence[email protected]
,
A. MILLERA Department of Chemical and Environmental Engineering, Centro Politécnico Superior, Maria de Luna, Zaragoza, Spain
&
R. BILBAO Department of Chemical and Environmental Engineering, Centro Politécnico Superior, Maria de Luna, Zaragoza, Spain
Pages 123-139 | Received 08 Jan 2001, Accepted 14 Jun 2001, Published online: 22 Sep 2010

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Chang’an Wang, Yongbo Du, Xi Jin & Defu Che. (2016) Pyridine and pyrrole oxidation under oxy-fuel conditions. Energy Sources, Part A: Recovery, Utilization, and Environmental Effects 38:7, pages 975-981.
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Articles from other publishers (22)

Bingjie Chen, Peng Liu, Matteo Pelucchi, Clarissa Guidici, Luna Pratali Maffei, Sebastian Faller, Qiang Xu, Jiabin Huang, Feng Zhang, Can Huang, Kai Leonhard, Zhandong Wang, Marco Mehl, William L. Roberts, Tiziano Faravelli & Heinz Pitsch. (2023) New insights into the oxidation chemistry of pyrrole, an N-containing biomass tar component. Proceedings of the Combustion Institute 39:1, pages 73-84.
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Ribhu Gautam, Shashank S. Nagaraja, Sultan Alturkistani, Yitong Zhai, Can Shao, Mohammed Albaqshi, Gabriele M. Fiene, Mark Tester & S. Mani Sarathy. (2022) Combustion of Salicornia bigelovii Pyrolysis Bio-oil and Surrogate Mixtures: Experimental and Kinetic Study . Energy & Fuels.
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O. N. Fedyaeva & A. A. Vostrikov. (2023) Conversion of Pyrrole in Supercritical Water and Water–Oxygen Fluid. Russian Journal of Physical Chemistry B 16:8, pages 1409-1415.
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Ling-Nan Wu, Zhen-Yu Tian, Du Wang, Zhi-Hao Zheng, Kai-Ru Jin, Bing-Zhi Liu, Cheng Xie, Qiang Xu & Zhan-Dong Wang. (2022) Dinitriles and nitriles are common intermediates of pyrrole pyrolysis. Combustion and Flame 245, pages 112358.
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Marco Lubrano Lavadera, Jundie Chen & Alexander A. Konnov. (2022) Laminar burning velocities of pyrrole/air flames: Experimental and comprehensive modeling study. Combustion and Flame 245, pages 112350.
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Alessandro Stagni, Alessio Frassoldati, Matteo Pelucchi & Tiziano Faravelli. 2022. Fundamentals of Low Emission Flameless Combustion and Its Applications. Fundamentals of Low Emission Flameless Combustion and Its Applications 421 451 .
O. N. Fedyaeva, D. O. Artamonov & A. A. Vostrikov. (2022) Influence of a Pt-Rh/Pt thermocouple on combustion of benzene, pyridine, and pyrrole in a high pressure steam. Thermophysics and Aeromechanics 28:5, pages 717-727.
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Jianghui Luo, Chun Zou, Qianjin Lin, Wenxiang Xia, Huiruo Zou & Shusen Wang. (2021) A shock tube and modeling study on the auto-ignition properties of pyrrole in O2/CO2 atmosphere at elevated pressures. Combustion and Flame 230, pages 111458.
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Matteo Pelucchi, Suphaporn Arunthanayothin, Yu Song, Olivier Herbinet, Alessandro Stagni, Hans-Heinrich Carstensen, Tiziano Faravelli & Frédérique Battin-Leclerc. (2021) Pyrolysis and Combustion Chemistry of Pyrrole, a Reference Component for Bio-oil Surrogates: Jet-Stirred Reactor Experiments and Kinetic Modeling. Energy & Fuels 35:9, pages 7265-7284.
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Sommer L. Johansen, Zhongxing Xu, J. H. Westerfield, Anna C. Wannenmacher & Kyle N. Crabtree. (2021) Coupled Cluster Characterization of 1-, 2-, and 3-Pyrrolyl: Parameters for Vibrational and Rotational Spectroscopy. The Journal of Physical Chemistry A 125:5, pages 1257-1268.
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Jianghui Luo, Qianjin Lin, Wenxiang Xia, Yizhuo He, Mei Mei, Lixin Lu, Yang Liu & Chun Zou. (2021) A shock tube and modeling study on ignition delay times of pyridine under O2/CO2 atmospheres at elevated pressures. Proceedings of the Combustion Institute 38:4, pages 5475-5484.
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O N Fedyaeva, D O Artamonov & A A Vostrikov. (2020) Heterogeneous and platinum-initiated homogeneous combustion of nitrogen-containing heterocyclic compounds in the argon and water vapor media at elevated pressure. Journal of Physics: Conference Series 1677:1, pages 012040.
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Jay C. Amicangelo & Yuan-Pern Lee. (2020) Hydrogenation of pyrrole: Infrared spectra of the 2,3-dihydropyrrol-2-yl and 2,3-dihydropyrrol-3-yl radicals isolated in solid para -hydrogen . The Journal of Chemical Physics 153:16.
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Oxana N. Fedyaeva, Denis O. Artamonov & Anatoly A. Vostrikov. (2019) Heterogeneous–homogeneous oxidation of pyrrole in water vapor at elevated pressure. Combustion and Flame 210, pages 183-192.
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Jianghui Luo, Chun Zou, Yizhuo He, Huixiang Jing & Sizhe Cheng. (2019) The characteristics and mechanism of NO formation during pyridine oxidation in O2/N2 and O2/CO2 atmospheres. Energy 187, pages 115954.
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Juan-Carlos Lizardo-Huerta, Baptiste Sirjean, Laurent Verdier, René Fournet & Pierre-Alexandre Glaude. (2017) Kinetic Modeling of the Thermal Destruction of Nitrogen Mustard Gas. The Journal of Physical Chemistry A 121:17, pages 3254-3262.
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Arnas Lucassen, Zhandong Wang, Lidong Zhang, Feng Zhang, Wenhao Yuan, Yizun Wang, Fei Qi & Katharina Kohse-Höinghaus. (2013) An experimental and theoretical study of pyrrolidine pyrolysis at low pressure. Proceedings of the Combustion Institute 34:1, pages 641-648.
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Tsuyoshi Yamamoto, Takuya Kuwahara, Koichi Nakaso & Takahisa Yamamoto. (2012) Kinetic study of fuel NO formation from pyrrole type nitrogen. Fuel 93, pages 213-220.
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Zhandong Wang, Arnas Lucassen, Lidong Zhang, Jiuzhong Yang, Katharina Kohse-Höinghaus & Fei Qi. (2011) Experimental and theoretical studies on decomposition of pyrrolidine. Proceedings of the Combustion Institute 33:1, pages 415-423.
Crossref
Zhenyu Tian, Yuyang Li, Taichang Zhang, Aiguo Zhu, Zhifeng Cui & Fei Qi. (2007) An experimental study of low-pressure premixed pyrrole/oxygen/argon flames with tunable synchrotron photoionization. Combustion and Flame 151:1-2, pages 347-365.
Crossref
F. Liesa, M. U. Alzueta, A. Millera & R. Bilbao. (2007) Influence of Reactant Mixing in a Laminar Flow Reactor:  The Case of Gas Reburning. 1. Experimental Study. Industrial & Engineering Chemistry Research 46:11, pages 3520-3527.
Crossref
F. Liesa, María U. Alzueta, A. Millera & R. Bilbao. (2005) An Experimental and Computational Fluid Dynamics (CFD) Simulation Study of Reburning under Laboratory Turbulent Mixing Conditions. Energy & Fuels 19:3, pages 833-841.
Crossref

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