Time | Paper ID | Title / Autors | Keywords | Topic code | Ack. number |
---|---|---|---|---|---|
Hall F, Day 3 | |||||
(9:20–10:40) ( Shiraishi F., Ohtani S.) | |||||
F302 | Rates Constants Estimation Model in Ultrasonic Degradation Reaction of Methylene Blue | Ultrasound Degradation Kinetics | S-5 | 530 | |
F303 | Degradation of brominated flame retardant HBCD by ultrasonic irradiation | HBCD(hexabromocyclododecane) Ultrasonic Degradation | S-5 | 208 | |
F304 | Development of continuous liquid phase laser ablation device for nanoparticles production | Laser Ablation Nanoparticle Metal Oxide | S-5 | 36 | |
F305 | Collection of the nanoparticles using the ESP coupled with electrostatic atomization | Electrostatic Atomization Nanoparticle Electrostatic Precipitator | S-5 | 38 | |
(10:40–12:00) ( Harano A., Kashiwada T.) | |||||
F306 | Evaluation of the performance of a photocatalyst fibrous membrane for the decomposition of formic acid in an aqueous solution | Fibrous photocatalyst Formic acid Reactor | S-5 | 94 | |
F307 | Mechanism of the decomposition of 2,4-dinitrophenol on photocatalyst immobilized on a glass surface | Reaction mechanism 2,4-dinitrophenol Photocatalyst | S-5 | 97 | |
F308 | Photocatalytic degradation of agricultural chemicals containing nitrogen over TiO2/SiO2 | Photocatalyst TiO$2$/SiO$2& Agricultural chemicals | S-5 | 320 | |
F309 | Photocatalytic disinfection of E. coli and Bacillus subtili over Ag-doped TiO2/SiO2 | Ag-doped TiO$2$/SiO$2$ photocatalytic disinfection #Bacillus subtili# | S-5 | 322 | |
(13:00–14:40) ( Batres R., Wada Y.) | |||||
F313 | Influence of acid on the degradation of nitrocellulose | Nitrocellulose Spontaneous ignition Accelerating rate calorimeter (ARC) | S-5 | 532 | |
F314 | Thermal behavior and decomposition mechanism of triazolone derivatives | triazole derivatives thermal decomposition molecular orbital calculation | S-5 | 993 | |
F315 | [Requested Lecture] Ignition and Combustion Charactersitics of A2L Refrigerant | Refrigerant Ignition CH radicals | S-5 | 687 | |
F316 | [Requested Lecture] Study on decomposition of organic peroxide using thermal analysis | hazardous evaluation differential scanning calorimeter adiabatic calorimeter | S-5 | 107 | |
F317 | [Requested Lecture] Study on heat accumulation of degraded plastics using chemiluminescence technique | Chemiluminescence autoxidation fire accident | S-5 | 702 | |
(14:40–15:20) ( Iuchi K.) | |||||
F318 | [Keynote Lecture] Process Safety Management and Process Chemistry | Process Safety Management Process Chemistry Life Cycle Engineering | S-5 | 157 | |
(15:20–17:00) ( Katoh K., Matsuoka Y.) | |||||
F320 | Process Safety Management andĦĦIntegratedĦĦDatabase | Process Safety Management Integrated Database Life Cycle Engineering | S-5 | 441 | |
F321 | [Requested Lecture] Analysis of the Accidents which occurred by Runaway Reaction, using JNIOSH Explosion/Fire Database | Explosion and Fire Database Runaway Reaction | S-5 | 241 | |
F322 | Radical reactions in industrial chemical processes and process development | Radical reaction process development safety | S-5 | 781 | |
F323 | Safety Evaluation in Chemical Process Development | Process Safety Technology Runaway reaction Scale Up | S-5 | 387 | |
F324 | A New Approach for Generating Operating Procedures for Startup and Shutdown in the Presence of Flammability Constraints | operating procedures microgenetic algorithms mixing tank | S-5 | 1021 |