期刊文献+

采用间接膨胀法研究鼓泡床内气含率特性 被引量:1

Gas holdup measurement of bubble column using indirect expansion technique
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摘要 An indirect expansion technique was proposed to measure the gas holdup in a non-transparent bubble column with 0.1 m inner diameter and height of 5.2 m.Air and distilled water were employed as gas and liquid phases,respectively.The experimental results show that the average and maximum errors of gas holdup are less than 2% and 4.5%,respectively,between the indirect expansion and pressure drop methods at atmospheric or elevated pressure.Moreover,the gas holdup increases with operating pressure when the superficial gas velocity is a constant,while the effect of static liquid height on gas holdup can be ignored when the operating pressure and superficial gas velocity are fixed. An indirect expansion technique was proposed to measure the gas holdup in a non-transparent bubble column with 0.1 m inner diameter and height of 5.2 m.Air and distilled water were employed as gas and liquid phases,respectively.The experimental results show that the average and maximum errors of gas holdup are less than 2% and 4.5%,respectively,between the indirect expansion and pressure drop methods at atmospheric or elevated pressure.Moreover,the gas holdup increases with operating pressure when the superficial gas velocity is a constant,while the effect of static liquid height on gas holdup can be ignored when the operating pressure and superficial gas velocity are fixed.
出处 《化工学报》 EI CAS CSCD 北大核心 2010年第9期2353-2357,共5页 CIESC Journal
基金 国家重点基础研究发展计划项目(2005CB221205)~~
关键词 鼓泡床 气含率 间接膨胀法 差压法 bubble column gas holdup indirect expansion technique pressure drop method
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参考文献10

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共引文献9

同被引文献19

  • 1Jian Yu,Changbin Yao,Xi Zeng,Shuang Geng,Li Dong,Yin Wang,Shiqiu Gao,Guangwen Xu.Biomass pyrolysis in a micro-fluidized bed reactor: Characterization and kinetics[J]. Chemical Engineering Journal . 2011 (2)
  • 2Junwu Wang,Lianghui Tan,M.A. van der Hoef,M. van Sint Annaland,J.A.M. Kuipers.From bubbling to turbulent fluidization: Advanced onset of regime transition in micro-fluidized beds[J]. Chemical Engineering Science . 2011 (9)
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