Removal Efficiency of the Combined Desulfurization/Denitration Process Using Powder-Particle Fluidized Bed
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概要
- 論文の詳細を見る
A combined desulfurization/denitration (DeSOx/DeNOx) process has recently been proposed by using the powder-particle fluidized bed (PPFB). In the process, SOx is removed by a fine DeSOx sorbent continuously supplied and NOx is reduced to N2 by ammonia under the catalysis of a coarse DeNOx catalyst, the fluidization medium particles. By using the simplest model gas, SO2-NO-Air, in a laboratory scale reactor, SO2 and NO removals in the process are evaluated in this paper by testing the possible side reactions related to SO2 and NO. Then, investigations are extended to the removal efficiency for the simulated flue gas SO2-NO-N2-H2O-Air and to the effects of operating conditions, both gas velocity and the static height of catalyst bed, upon the SO2 and NO abatements. The DeSOx sorbents used were CuO·V2O5·K2SO4/Al2O3 and NaHCO3, and the DeNOx catalysts were V2O5·WO3/TiO2 and WO3/TiO2. It was found that this process suffers little from SO3 exhaust at the reactor exit. SO2 may be chemically adsorbed onto DeNOx catalyst, but it can be suppressed by using a highly efficient sorbent such as CuO·V2O5·K2SO4/Al2O3. Under NH3/NO = 1, both NO and NO2 can be similarly reduced into N2 and the possible side reactions between sorbent and NOx can also be completely abated by the NOx reduction. SO2 and NO removals in the process are more or less affected by water vapor and oxygen fractions, but the removals greater than 90% for SO2 and no less than 80% for NO can still be maintained for actual flue gas, even in a shallow bed with a static catalyst load height of 0.1 m.
- 社団法人 化学工学会の論文
著者
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KATO Kunio
Department of Applied Quantum Physics and Nuclear Engineering, Kyushu University
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Wang Bing
Department of Pathology, College of Medicine, School of Life Science and Technology, Xi’an Jiaotong
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Kato K
Department Of Biological And Chemical Engineering Gunma University
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Kato Kunio
Department Of Biological And Chemical Engineering Gunma University
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NAKAGAWA Nobuyoshi
Department of Biological and Chemical Engineering, Gunma University
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Nakagawa N
Department Of Biological And Chemical Engineering Gunma University
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Nakagawa N
Gunma Univ. Kiryu Jpn
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Nakagawa Nobuyoshi
Department Of Biological And Chemical Engineering Gunma University
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XU Guangwen
Department of Biological and Chemical Engineering, Gunma University
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SUZUKI Hironori
Department of Biological and Chemical Engineering, Gunma University
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GAO Shiqiu
Department of Biological and Chemical Engineering, Gunma University
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MA Xiaoxun
Department of Biological and Chemical Engineering, Gunma University
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Ma Xiaoxun
Department Of Biological And Chemical Engineering Gunma University
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Gao S
Department Of Biological And Chemical Engineering Gunma University
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Xu Guangwen
Department Of Biological And Chemical Engineering Gunma University
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Gao Shiqiu
Department Of Biological And Chemical Engineering Gunma University
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Kato Kunio
Department Of Applied Quantum Physics And Nuclear Engineering Kyushu University
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Wang Bing
Department Of Biological And Chemical Engineering Gunma University
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Suzuki Hironori
Department Of Biological And Chemical Engineering Gunma University
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Nakagawa Nobuyoshi
Department of Biological & Chemical Engineering, Gunma University
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