Elucidation of the Termination Reaction Mechanism of Radical Polymerization / ラジカル重合における停止反応機構の解明

Li, Xiaopei

23 March 2021

京都大学 / 新制・課程博士 / 博士(工学) / 甲第23228号 / 工博第4872号 / 新制||工||1760(附属図書館) / 京都大学大学院工学研究科高分子化学専攻 / (主査)教授 山子 茂, 教授 大内 誠, 教授 中村 正治 / 学位規則第4条第1項該当 / Doctor of Philosophy (Engineering) / Kyoto University / DGAM

Radical polyermzation

termiantion

combination

disproportionation

viscosity effect

cage effect

500

Studies on fluorescence anisotropies of conjugated polyenes with two phenyl groups: excitation wavelength and solvent viscosity dependences

Kuo, Che-ming

23 July 2004

none

fluorescence anisotropy

viscosity effect of solvents

Shattering Kraft Recovery Boiler Smelt by a Steam Jet

Taranenko, Anton

19 March 2013

Kraft recovery boiler smelt is shattered into small droplets by an impinging steam jet to prevent smelt-water explosions in the dissolving tank. Inadequate shattering increases the likelihood of dissolving tank explosions. While industry has not dedicated much effort to smelt shattering, the safety implications require smelt shattering to be studied in detail. An experimental set-up was constructed to simulate the shattering operation using a water-glycerine solution and air instead of smelt and steam respectively. The objective was to examine how physical properties and flow characteristics affect shattering. It was found that increasing shatter jet velocity greatly reduced droplet mean diameter. Increasing the liquid flow rate greatly increased droplet size, as expected. Shattering was not significantly affected by viscosity, unless a weak shatter jet was used on a highly viscous fluid. Increasing the proximity of the shatter jet nozzle decreased droplet size.

pulp and paper

kraft recovery cycle

recovery boiler

smelt shattering

steam jet

atomization

droplet size

smelt-water explosion

dissolving tank explosions

water-glycerine solution

air jet

shatter jet velocity effect

liquid flow rate effect

viscosity effect

shatter jet nozzle proximity effect

0542

Shattering Kraft Recovery Boiler Smelt by a Steam Jet

Taranenko, Anton

19 March 2013

Kraft recovery boiler smelt is shattered into small droplets by an impinging steam jet to prevent smelt-water explosions in the dissolving tank. Inadequate shattering increases the likelihood of dissolving tank explosions. While industry has not dedicated much effort to smelt shattering, the safety implications require smelt shattering to be studied in detail. An experimental set-up was constructed to simulate the shattering operation using a water-glycerine solution and air instead of smelt and steam respectively. The objective was to examine how physical properties and flow characteristics affect shattering. It was found that increasing shatter jet velocity greatly reduced droplet mean diameter. Increasing the liquid flow rate greatly increased droplet size, as expected. Shattering was not significantly affected by viscosity, unless a weak shatter jet was used on a highly viscous fluid. Increasing the proximity of the shatter jet nozzle decreased droplet size.

pulp and paper

kraft recovery cycle

recovery boiler

smelt shattering

steam jet

atomization

droplet size

smelt-water explosion

dissolving tank explosions

water-glycerine solution

air jet

shatter jet velocity effect

liquid flow rate effect

viscosity effect

shatter jet nozzle proximity effect

0542