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| 圆形微通道反应器内2-乙基四氢蒽氢醌氧化反应 | |
| 引用本文: | 张统,苏宏久,曹彬,Yves Gonthier,罗灵爱,王树东. 圆形微通道反应器内2-乙基四氢蒽氢醌氧化反应[J]. 化学反应工程与工艺, 2012, 28(3): 193-199 |
| 作者姓名: | 张统 苏宏久 曹彬 Yves Gonthier 罗灵爱 王树东 |
| 作者单位: | 1. 中国科学院,大连化学物理研究所洁净能源国家实验室,大连116023;法国萨瓦大学尚贝里工程师学院LOCIE实验室,Le Bourget-du-Lac Cedex,France 73376;中国科学院研究生院,北京100049 2. 中国科学院,大连化学物理研究所洁净能源国家实验室,大连116023 3. 法国萨瓦大学尚贝里工程师学院LOCIE实验室,Le Bourget-du-Lac Cedex,France 73376 |
| 基金项目: | 国家自然科学基金(20776138) |
| 摘 要: | 以管径为900 μm的圆形微通道反应器内2-乙基四氢蒽氢醌(THEAQH2)的氧化反应为研究对象,研究了反应过程中气液两相的流动形态,考察了反应温度、反应压力、液体流速ULS、气液比rAS等因素对THEAQH2氧化反应的影响.研究表明,圆形微通道反应器内进行THEAQH2的氧化反应时可得到较高的气液两相接触比表面积;氧化反应随温度升高、压力增大和液体流速ULS的增加而显著加快;THEAQH2的氧化反应在圆形微通道反应器内进行可得到较高的过氧化氢时空收率YSTY (Space-Time Yield),在温度50℃、压力0.29 MPa、液体流速0.052 m/s时,YSTY可达1 790 kg/(m3·h),高出常规反应器1~2个数量级. |
| 关 键 词: | 微通道反应器 气液比表面积 气液流动 氧化反应 |
Oxidation of Hydrogenated 2-Ethyltetrahydroanthraquinone in a Horizontal Circular Micro-Channel Reactor |
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| Zhang Tong , Su Hongjiu , Cao Bin , Yves Gonthier , Luo Lingai , Wang Shudong. Oxidation of Hydrogenated 2-Ethyltetrahydroanthraquinone in a Horizontal Circular Micro-Channel Reactor[J]. Chemical Reaction Engineering and Technology, 2012, 28(3): 193-199 | |
| Authors: | Zhang Tong Su Hongjiu Cao Bin Yves Gonthier Luo Lingai Wang Shudong |
| Affiliation: | 1(1.Dalian National Laboratory for Clean Energy,Dalian Institute of Chemical Physics,Chinese Academy of Sciences,Dalian 116023,China;2.Laboratoire Optimisation de la Conception et Ingénierie de l’Environnement(LOCIE),CNRS-UMR5271,Université de Savoie,Campus Scientifique,Savoie Technolac,73376 Le Bourget-du-Lac Cedex,France;3.Graduate School of Chinese Academy of Sciences,Beijing 100039,China) |
| Abstract: | An experimental investigation on oxidation of hydrogenated 2-ethyltetrahydroanthraquinone(THEAQH2) is presented in a horizontal circular micro-channel reactor with inner diameter of 900 μm.The gas-liquid two-phase flow patterns in the reactor were visualized and recorded by a fast camera,and the gas-liquid contacting specific surface(αi) was calculated with the image of flow patterns.Moreover,the influence of temperature,pressure,liquid superficial velocity(ULS) and gas-liquid ratio(rAS) on the THEAQH2 oxidation reaction were also investigated.The results show that αiin the micro-channel could be much higher than that in traditional reactors and the rate of THEAQH2oxidation reaction speeds up obviously with the temperature and pressure increase.Although the conversion(η) decreases with increasing of ULS,the space-time yield of hydrogen peroxide(YSTY) would increase.In addition,YSTY in the micro-channel reactor could reach 1 790 kg/(m3.h) under the conditions of temperature 50 ℃,pressure 0.29 MPa and liquid superficial velocity 0.052 m/s,much higher than that in traditional oxidation reactors. |
| Keywords: | circular micro-channel hydrogen peroxide gas-liquid flow oxidation |
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