摘要
The extraction process for preparing hydrogen peroxide with bottom air injection in a spray column was investigated With the increase of air superficial velocity, extraction efficiency was improved remarkably and the height of transfer unit (HTU) was largely reduced Extraction efficiency was 2-3 times higher than that of liquid liquid extraction without air introduction, and the HTU was only 1/2- 1/3 of liquid liquid extraction Moreover, the air liquid liquid reactive extraction system for preparing hydrogen peroxide via anthraquinone was investigated Oxidation reaction of the hydrogenated working solution was combined with extracting hydrogen peroxide from the working solution in a sieve plate column, which involves simultaneous oxidation of 2 ethylhydroanthraquionone and liquid liquid separation Oxygen was introduced with the hydrogenated working solution through a nozzle on the bottom of the column,with oxygen working as an agitating source as well as a reagent Reaction rate and extraction efficiency increased with increasing air injection superficial velocity because of great improvement of mass transfer between air liquid liquid
The extraction process for preparing hydrogen peroxide with bottom air injection in a spray column was investigated With the increase of air superficial velocity, extraction efficiency was improved remarkably and the height of transfer unit (HTU) was largely reduced Extraction efficiency was 2-3 times higher than that of liquid liquid extraction without air introduction, and the HTU was only 1/2- 1/3 of liquid liquid extraction Moreover, the air liquid liquid reactive extraction system for preparing hydrogen peroxide via anthraquinone was investigated Oxidation reaction of the hydrogenated working solution was combined with extracting hydrogen peroxide from the working solution in a sieve plate column, which involves simultaneous oxidation of 2 ethylhydroanthraquionone and liquid liquid separation Oxygen was introduced with the hydrogenated working solution through a nozzle on the bottom of the column,with oxygen working as an agitating source as well as a reagent Reaction rate and extraction efficiency increased with increasing air injection superficial velocity because of great improvement of mass transfer between air liquid liquid phases
出处
《化工学报》
EI
CAS
CSCD
北大核心
2003年第11期1654-1657,共4页
CIESC Journal
基金
国家重点基础研究发展规划项目(No 2 0 0 0 0 480 0 5 )
国家自然科学基金资助项目 (No 2 0 10 60 11)~~
关键词
蒽醌
过氧化氢
喷射萃取
喷射反应萃取
氧化率
萃取率
anthraquinone, hydrogen peroxide, extraction with air injection, reactive extraction with air injection,oxidation efficiency, extraction efficiency
