Time | Paper ID | Title / Authors | Keywords | Topic code | Ack. number |
Day 1 13:20– 15:20 | PA124 | Design method for injectable manufacturing processes considering continuous and batch modes
| Pharmaceutical manufacturing Decision making Process modeling
| 6-b | 461 |
Day 1 13:20– 15:20 | PA126 | Development of soft sensor modeling method for determining appropriate process dynamics
| softsensor process dynamics
| 6-c | 283 |
Day 1 13:20– 15:20 | PA129 | Development of adaptive soft sensor selection method based on Bayesian optimization
| soft sensor model selection machine learning
| 6-d | 136 |
Day 1 13:20– 15:20 | PA130 | Decision support method for the choice between batch and flow syntheses in drug substance manufacturing
| Pharmaceutical manufacturing Decision support method Batch and flow syntheses
| 6-b | 532 |
Day 2 9:00– 9:20 | C201 | Development and validation of the simulation method specialized in high viscosity fluid
| high viscosity fluid particle method numerical simulation
| 2-a | 415 |
Day 2 9:20– 9:40 | H202 | Application of Steady State Information to Plantwide Control
| Plantwide Control Modeling and Simulation of Steady State and Dynamics Process and Control Design
| 6-d | 576 |
Day 2 10:40– 11:00 | H206 | Optimization Method of Toluene Hydrogenation Process under Fluctuating Hydrogen Feed
| Renewable energy Methylcyclohexane Toluene hydrogenation
| 6-c | 590 |
Day 2 13:20– 15:20 | PC236 | Effective enzyme immobilization method on the carbon surface using anthracene dimer
| Biofuel cells Enzyme immobilization Suppression of physical adsorption
| 12-a | 639 |
Day 2 13:20– 15:20 | PC284 | Structure prediction of platonic micelles with computational chemistry
| platonic micelles molecular dynamics simulation
| 12-i | 269 |
Day 2 15:40– 16:00 | H221 | Approach to quantitative analysis techniques of risk of delay in projects schedule management
| Schedule network Delay risk analysis Rescheduling
| 6-f | 234 |
Day 3 13:20– 13:40 | L314 | Proposal of the model of comprehensive anode reaction in solid oxide fuel cell / electrolysis cell and constructing the method of multivariable fitting
| Solid Oxide Fuel Cell Kinetics modeling Langmuir-Hinshelwood
| 9-e | 698 |