Gas-liquid mass transfer characteristics of large-scale impellers: Empirical correlations of gas holdups and volumetric mass transfer coefficients in stirred tanks

Dohi N; Takahashi T; Minekawa K; Kawase Y

首页> 外文期刊>Chemical Engineering Communications >Gas-liquid mass transfer characteristics of large-scale impellers: Empirical correlations of gas holdups and volumetric mass transfer coefficients in stirred tanks

【24h】

Gas-liquid mass transfer characteristics of large-scale impellers: Empirical correlations of gas holdups and volumetric mass transfer coefficients in stirred tanks

机译：大型叶轮的气液传质特性：搅拌罐中气体滞留量与体积传质系数的经验关系

获取原文

获取原文并翻译 | 示例

掌桥外文数据库（机构版） >>

开具论文收录证明 >>

文献代查 >>

页面导航

摘要
著录项
相似文献
相关主题

摘要

Gas dispersion with large-scale impellers consisting of modified large paddle impellers in stirred tanks, with rather large ratios of both impeller diameter and impeller height to tank diameter, was experimentally examined in transition and turbulent mixing ranges. Gas holdups and volumetric gas-liquid mass transfer coefficients with large-scale impellers, i.e., Maxblend and Fullzone impellers, were measured in 0.31 and 0.6 m I.D. stirred tanks, and the gas dispersion performance of large-scale impellers was compared with that of double conventional small-scale high-speed impeller systems, i.e., double four-flat blade disk turbine impellers and double four-flat paddle impellers.

机译：在过渡和湍流混合范围内，通过实验检查了大型叶轮的气体分散情况，该大型叶轮由改进的大型桨式叶轮组成，在搅拌罐中，叶轮直径和叶轮高度与罐直径之比相当大。在0.31和0.6 m I.D下测量大型叶轮（Maxblend和Fullzone叶轮）的气体滞留率和气液体积传质系数。将大型叶轮与双常规小型高速叶轮系统（即双四平叶片盘式涡轮叶轮和双四平桨叶式叶轮）的气体分散性能进行了比较。

著录项

来源
《Chemical Engineering Communications》 |2006年第6期|共13页
作者
Dohi N; Takahashi T; Minekawa K; Kawase Y;
展开▼
作者单位

展开▼
收录信息
原文格式 PDF
正文语种 eng
中图分类化学工业;
关键词
large-scale impellers; gas dispersion performance; gas holdups; volumetric mass transfer coefficients; MIXING CHARACTERISTICS; POWER REQUIREMENTS; INTERFACIAL AREA; REACTORS;

机译：大型叶轮;气体扩散性能;气体滞留率;体积传质系数;混合特性;功率要求;界面面积;反应器;

相似文献

外文文献
中文文献
专利

1. Gas-liquid mass transfer characteristics of large-scale impellers: Empirical correlations of gas holdups and volumetric mass transfer coefficients in stirred tanks [J] . Dohi N, Takahashi T, Minekawa K, Chemical Engineering Communications . 2006,第6期

机译：大型叶轮的气液传质特性：搅拌罐中气体滞留量与体积传质系数的经验关系
2. GAS-LIQUID MASS TRANSFER IN VESSELS STIRRED WITH MULTIPLE IMPELLERS .1. GAS-LIQUID MASS TRANSFER CHARACTERISTICS IN INDIVIDUAL STAGES [J] . Linek V., Sinkule J., Moucha T. Chemical Engineering Science . 1996,第12期

机译：带有多个叶轮搅拌的容器中的气液传质1。单个阶段的气液传质特性
3. Hydrodynamics and volumetric gas-liquid mass transfer coefficient of a stirred vessel equipped with a gas-inducing impeller [J] . Poncin S., Nguyen C., Midoux N., Chemical Engineering Science . 2002,第16期

机译：装有诱导叶轮的搅拌容器的流体力学和体积气液传质系数
4. Effect of Impeller Geometry on Gas-Liquid Mass Transfer Coefficients in Filamentous Suspensions [C] . SUNDEEP N. DRONAWAT, C. KURT SVIHLA, THOMAS R. HANLEY Biotechnology for Fuels and Chemicals . 1997

机译：叶轮几何形状对丝状悬浮液气液传质系数的影响
5. Determination of an empirical correlation for the mass transfer coefficients of pharmaceutical powders in a fluid bed dryer. [D] . Arocho Serrano, Magaly. 2004

机译：确定流化床干燥器中药物粉末的传质系数的经验相关性。
6. Enhancement of Oxygen Mass Transfer and Gas Holdup Using Palm Oil in Stirred Tank Bioreactors with Xanthan Solutions as Simulated Viscous Fermentation Broths [O] . Suhaila Mohd Sauid, Jagannathan Krishnan, Tan Huey Ling, 2006

机译：使用黄原溶液作为模拟粘性发酵液，在搅拌罐生物反应器中使用棕榈油增强氧气的传质和气体滞留
7. Modelling of mass transfer in gas-liquid stirred tanks agitated by Rushton turbine and CD-6 impeller: a scale-up study [O] . Gimbun Jolius, Rielly Chris D., Nagy Zoltan K. 2009

机译：Rushton涡轮和CD-6叶轮搅动的气液搅拌罐中的传质模型：放大研究
8. Mass Transfer to Newtonian and Non-Newtonian Systems in Stirred Tank Gas-Liquid Contactors. [R] . wernau, w. c. wilke, c. r. 1973

机译：搅拌槽气液接触器中牛顿和非牛顿体系的传质。

Gas-liquid mass transfer characteristics of large-scale impellers: Empirical correlations of gas holdups and volumetric mass transfer coefficients in stirred tanks

摘要

著录项

相似文献

相关主题

期刊订阅