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Design and Operation of a Pilot Plant for Studies on Scale Up, Liquid Distribution,Liquid Holdup, Hydraulics, Heat and Mass Transfer, and Carbon Dioxide Removal UsingChemical Solvents

机译：中试工厂的设计和运行，用于研究使用化学溶剂进行的放大，液体分配，液体滞留，液压，传热和传质以及二氧化碳去除

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《Annual Loss Prevention Symposium; 20070422-26; Houston,TX(US)》|2007年|1-11|共11页
会议地点 HoustonTX(US)
作者
Damaraju P. Rao; Kaushik Majumder; Srikanth Kandkuri;
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作者单位

Chemical Engineering Department, Indian Institute of Technology (Delhi),rnHauz Khas, New Delhi - 110016, India;

Chemical Engineering Department, Indian Institute of Technology (Delhi),rnHauz Khas, New Delhi - 110016, India;

Chemical Engineering Department, Indian Institute of Technology (Delhi),rnHauz Khas, New Delhi - 110016, India;

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会议组织
原文格式 PDF
正文语种 eng
中图分类农用化学物质、有毒化学物质污染及其防治;
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1. GUIDELINES FOR PILOT PLANT-TESTINGA`1. The minimum volume should be 250 gal (950 L) for scalable mass-transfer testing. A 20-gal tank can be used to evaluate blending and impeller placement 2. Liquid-level-to-tank-height ratio, and tank geometry should be similar to full scale 3. Baffles and heating coils on pilot scale should be similar to full-scale tank 4. Test the fluid with the organism, if possible. If not, use water, knowing the oxygen transfer rate results will be different [J] . Chemical Engineering Group Chemical Engineering . 2014,第3期

机译：飞行员工厂测试指南`1。最小体积应为250 gal（950 L），以进行可扩展的传质测试。可以使用20加仑的水箱评估混合和叶轮的位置2.液面高度与水箱高度的比，水箱的几何形状应与满刻度相似。3.导流刻度的挡板和加热线圈应与满刻度相似。刻度的水箱4.如果可能，用生物体测试液体。如果不是，请使用水，因为知道氧气传输速率的结果会有所不同
2. 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
3. Gas-Liquid Mass Transfer Characteristics of Large-Scale Impellers:Empirical Correlations of Gas Holdups and Volumetric Mass Transfer Coefficients in Stirred Tanks [J] . NAOKI DOHI, TAKANORI TAKAHASHI, KIMIO MINEKAWA, Chemical Engineering Communications . 2006,第4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
4. Design and Operation of a Pilot Plant for Studies on Scale Up, Liquid Distribution,Liquid Holdup, Hydraulics, Heat and Mass Transfer, and Carbon Dioxide Removal UsingChemical Solvents [C] . Damaraju P. Rao, Kaushik Majumder, Srikanth Kandkuri 19th Ethylene Producers' Conference Proceedings . 2007

机译：中试工厂的设计和运行，用于研究使用化学溶剂进行的放大，液体分配，液体滞留，液压，传热和传质以及二氧化碳去除
5. Development of Hydraulic Models, Mass Transfer Models, and Dynamic Models of Solvent-Based Carbon Capture Processes with Uncertainty Quantification and Validation with Pilot Plant Data [D] . Soares Chinen, Anderson. 2018

机译：液压模型，传质型号和溶剂型碳捕获过程的动态模型的开发，具有不确定量化和试验工厂数据的验证
6. Mass-Removal and Mass-Flux-Reduction Behavior for Idealized Source Zones with Hydraulically Poorly-Accessible Immiscible Liquid [O] . M.L. Brusseau, E.L. DiFilippo, J.C. Marble, -1

机译：水力难以接近的不混溶液体的理想源区的质量去除和质量通量减少行为
7. Extending the design space in solvent extraction – from supercritical fluids to pressurized liquids using carbon dioxide, ethanol, ethyl lactate, and water in a wide range of proportions [O] . Veronika Pilařová, Said Al Hamimi, Larissa P. Cunico, 2019

机译：在溶剂萃取中延伸设计空间 - 从超临界流体使用二氧化碳，乙醇，乳酸乙酯和水的加压液体，在各种比例范围内
8. Automation of a Hydrogen Meter for Use in Coal Liquefaction Plant and for Determination of the Effect of Aliphatic Hydrocarbons on Hydrogen Solubility and Mass Transfer Rate in Coal Liquid Solvents. [R] . Liaw, S. J. 1989

机译：用于煤液化装置的氢气计的自动化和测定脂肪烃对煤液溶剂中氢溶解度和传质速率的影响。

Design and Operation of a Pilot Plant for Studies on Scale Up, Liquid Distribution,Liquid Holdup, Hydraulics, Heat and Mass Transfer, and Carbon Dioxide Removal UsingChemical Solvents

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