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Journal of the Air & Waste Management Association Volume 42, 1992 - Issue 9
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Original Articles

Flue Gas NOX Reduction Using Ammonia Radical Injection

Qian Zhou Department of Mechanical Engineering, Carnegie Mellon University, Pittsburgh, Pennsylvania, USA
,
Shi-Chune Yao Department of Mechanical Engineering, Carnegie Mellon University, Pittsburgh, Pennsylvania, USA
,
Armistead Russell Department of Mechanical Engineering, Carnegie Mellon University, Pittsburgh, Pennsylvania, USA
&
John Boyle Department of Mechanical Engineering, Carnegie Mellon University, Pittsburgh, Pennsylvania, USA
Pages 1193-1197 | Received 24 Feb 1992, Accepted 10 Jul 1992, Published online: 06 Mar 2012

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Yuta Fukuda, Tomoyuki Kuroki, Ryosuke Nishioka, Hidekatsu Fujishima, Haruhiko Yamasaki, Hashira Yamamoto & Masaaki Okubo. (2022) Performance Improvement in Semi-dry Ozone Injection NOx and SOx Removal Process for a Glass Furnace Flue Gas. Ozone: Science & Engineering 44:5, pages 453-463.
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Pavel Machač & Erlisa Baraj. (2018) A simplified simulation of the reaction mechanism of NO formation and non-catalytic reduction. Combustion Science and Technology 190:6, pages 967-982.
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Moo Been Chang, How Ming Lee, Feeling Wu & Chi Ren Lai. (2004) Simultaneous Removal of Nitrogen Oxide/Nitrogen Dioxide/Sulfur Dioxide from Gas Streams by Combined Plasma Scrubbing Technology. Journal of the Air & Waste Management Association 54:8, pages 941-949.
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F.E. BARTOSZEK, L. R. VÁSQUEZ, W. HE & J.S. CHANG. (1998) Removal of NOx from Flue Gas by Reburning with Plasma Activated Natural Gas: Review and Economics. Combustion Science and Technology 133:1-3, pages 161-190.
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Articles from other publishers (26)

Yuanye Zhou, Ioanna Aslanidou & Konstantinos Kyprianidis. (2023) Effect of spray operation conditions on Nox emission control in a power station. Chemical Engineering Research and Design 191, pages 214-225.
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Haruhiko Yamasaki, Yuta Mizuguchi, Ryosuke Nishioka, Yuta Fukuda, Tomoyuki Kuroki, Hashira Yamamoto & Masaaki Okubo. (2021) Pilot-Scale NOx and SOx Aftertreatment by Semi-Dry Plasma-Chemical Hybrid Process in Glass-Melting-Furnace Exhaust Gas. Plasma Chemistry and Plasma Processing 42:1, pages 51-71.
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Hafiz Muhammad Adeel Sharif, Nasir Mahmood, Shengye Wang, Ijaz Hussain, Ya-Nan Hou, Li-Hui Yang, Xu Zhao & Bo Yang. (2021) Recent advances in hybrid wet scrubbing techniques for NOx and SO2 removal: State of the art and future research. Chemosphere 273, pages 129695.
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Toshiaki Yamamoto, Soma Asada & Yoshiyasu Ehara. (2013) Integrated Diesel Engine Emission Control Using Plasma-Combined Hybrid System. IEEE Transactions on Industry Applications 49:6, pages 2414-2420.
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Hidekatsu Fujishima, Kenichi Takekoshi, Tomoyuki Kuroki, Atsushi Tanaka, Keiichi Otsuka & Masaaki Okubo. (2013) Towards ideal NOx control technology for bio-oils and a gas multi-fuel boiler system using a plasma-chemical hybrid process. Applied Energy 111, pages 394-400.
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M Okubo, H Fujishima, Y Yamato, T Kuroki, A Tanaka & K Otsuka. (2013) Towards Ideal NO x and CO 2 Emission Control Technology for Bio-Oils Combustion Energy System Using a Plasma-Chemical Hybrid Process . Journal of Physics: Conference Series 418, pages 012115.
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Xu Shen, Xiang Gao, Zhongshan Li, Bo Li, Chenghang Zheng, Zhiwei Sun, Mingjiang Ni, Kefa Cen & Marcus Aldén. (2012) PLIF diagnostics of NO oxidization and OH consumption in pulsed corona discharge. Fuel 102, pages 729-736.
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Toshiaki Yamamoto, Soma Asada & Yoshiyasu Ehara. (2012) Integrated diesel engine emission control using plasma combined hybrid system. Integrated diesel engine emission control using plasma combined hybrid system.
Toshiaki Yamamoto, Soma Asada, Tomohiro Iida & Yoshiyasu Ehara. (2011) Novel <formula formulatype="inline"><tex Notation="TeX">$\hbox{NO}_{\rm x}$</tex></formula> and VOC Treatment Using Concentration and Plasma Decomposition. IEEE Transactions on Industry Applications 47:5, pages 2235-2240.
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Hidekatsu Fujishima, Yusuke Yoshioka, Tomoyuki Kuroki, Atsushi Tanaka, Keiichi Otsuka & Masaaki Okubo. (2011) Development of Low-Emission Bio-Fuel Boiler System With Plasma-Chemical Hybrid $\hbox{NO}_{\rm x}$ Reduction. IEEE Transactions on Industry Applications 47:5, pages 2210-2217.
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Hidekatsu Fujishima, Yusuke Yoshioka, Tomoyuki Kuroki, Atsushi Tanaka, Keiichi Otsuka & Masaaki Okubo. (2010) Operation Test of Pilot-Scale Low-Emission Multi-Fuel Boiler with Plasma-Chemical Hybrid NOx Reduction System. Operation Test of Pilot-Scale Low-Emission Multi-Fuel Boiler with Plasma-Chemical Hybrid NOx Reduction System.
Toshiaki Yamamoto, Souma Asada, Tomohiro Iida & Yoshiyasu Ehara. (2010) Nobel NOx and Voc Treatment Using Concentration and Plasma Decomposition. Nobel NOx and Voc Treatment Using Concentration and Plasma Decomposition.
Hidekatsu Fujishima, Atsuyoshi Tatsumi, Tomoyuki Kuroki, Atsushi Tanaka, Keiichi Otsuka, Toshiaki Yamamoto & Masaaki Okubo. (2010) Improvement in $\hbox{NO}_{\rm x}$ Removal Performance of the Pilot-Scale Boiler Emission Control System Using an Indirect Plasma–Chemical Process. IEEE Transactions on Industry Applications 46:5, pages 1722-1729.
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Hidekatsu Fujishima, Tomoyuki Kuroki, Tomohiro Ito, Keiichi Otsuka, Toshiaki Yamamoto, Keiichiro Yoshida & Masaaki Okubo. (2010) Performance Characteristics of Pilot-Scale Indirect Plasma and Chemical System Used for the Removal of <formula formulatype="inline"><tex Notation="TeX">$\hbox{NO}_{\rm x}$</tex></formula> From Boiler Emission. IEEE Transactions on Industry Applications 46:5, pages 1707-1714.
Crossref
Tomoyuki Kuroki, Hidekatsu Fujishima & Masaaki Okubo. (2010) Plasma-Chemical Hybrid NOx Reduction System for Commercial Cogeneration Boiler. IEEJ Transactions on Fundamentals and Materials 130:10, pages 885-891.
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T. Yamamoto, H. Fujishima, M. Okubo & T. Kuroki. (2010) Pilot-Scale <formula formulatype="inline"><tex Notation="TeX">$\hbox{NO}_{\rm x}$</tex></formula> and <formula formulatype="inline"><tex Notation="TeX">$\hbox{SO}_{\rm x}$</tex></formula> Removal From Boiler Emission Using Indirect-Plasma and Chemical Hybrid Process. IEEE Transactions on Industry Applications 46:1, pages 29-37.
Crossref
Hidekatsu Fujishima, Tomoyuki Kuroki, Atsuyoshi Tatsumi, Masaaki Okubo, Keiichi Otsuka, Toshiaki Yamamoto & Keiichiro Yoshida. 2009. Electrostatic Precipitation. Electrostatic Precipitation 644 648 .
T. Yamamoto, A. Kajimoto, M. Okubo, T. Kuroki & K. Yoshida. (2008) PM and <formula formulatype="inline"><tex Notation="TeX">$\hbox{NO}_{\rm x}$</tex></formula> Removal for Diesel Engine Emission Using Ozonizer and Chemical Hybrid Reactor. IEEE Transactions on Industry Applications 44:5, pages 1431-1435.
Crossref
Tomoyuki Kuroki, Hidekatsu Fujishima, Keiichi Otsuka, Tomohiro Ito, Masaaki Okubo, Toshiaki Yamamoto & Keiichiro Yoshida. (2008) Continuous operation of commercial-scale plasma–chemical aftertreatment system of smoke tube boiler emission with oxidation reduction potential and pH control. Thin Solid Films 516:19, pages 6704-6709.
Crossref
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.
Crossref
Y. Kusano, F. Leipold, A. Fateev, B. Stenum & H. Bindslev. (2005) Production of ammonia-derived radicals in a dielectric barrier discharge and their injection for denitrification. Surface and Coatings Technology 200:1-4, pages 846-849.
Crossref
Gui-Bing Zhao, S. V. B. Janardhan Garikipati, Xudong Hu, Morris D. Argyle & Maciej Radosz. (2005) Effect of oxygen on nonthermal plasma reactions of nitrogen oxides in nitrogen. AIChE Journal 51:6, pages 1800-1812.
Crossref
K. Yukimura, K. Kawamura, S. Kambara, H. Moritomi & T. Yamashita. (2005) Correlation of energy efficiency of NO removal by intermittent DBD radical injection method. IEEE Transactions on Plasma Science 33:2, pages 763-770.
Crossref
T. Yamamoto, H. Fujishima, M. Okubo & T. Kuroki. (2005) Pilot-scale NOx and SOx removal from boiler emission using indirect plasma and chemical hybrid process. Pilot-scale NOx and SOx removal from boiler emission using indirect plasma and chemical hybrid process.
Mitsunori Nishida, Ken Yukimura, Shinji Kambara & Toshiro Maruyama. (2001) Reduction of nitrogen oxide in N2 by NH3 using intermittent dielectric barrier discharge. Journal of Applied Physics 90:6, pages 2672-2677.
Crossref
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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