|
CHEMICAL
AND PROCESS ENGINEERING TOPICS
|
||
| #TOPIC | ||
| EDUCATION | ||
| ED1 | Innovation Strategy | |
| ED2 | Education | |
| ED3 | Public Perception | |
| ELECTROCHEMICAL ENGINEERING | ||
| EE1 | Electrochemical Reactors | |
| EE2 | Industrial Electrochemistry | |
| EE3 | Electrochemical Engineering in Environmental Protection | |
| EE4 | Electrochemical Energy Conversion and Storage | |
| EE5 | Corrosion Protection Engineering | |
| EE6 | Electrochemistry at Nanoscale | |
| EE7 | Photochemistry and Electrochemistry | |
| FLUID MECHANICS AND TRANSPORT PHENOMENA | ||
| FM1 | Fundamentals | |
| FM2 | Multiphase Flows | |
| FM3 | Microfluidics and nanofluidics | |
| FM4 | Industrial Applications | |
| PARTICLE TECHNOLOGY | ||
| PT1 | Filtration and Separation | |
| PT2 | Crystallization | |
| PT3 | Mechanics and Particulate Solids | |
| PT4 | Drying | |
| PT5 | Comminution and Classification | |
| PT6 | Characterization of Particulate Systems | |
| PT7 | Agglomeration | |
| PT8 | Particulate solids/solids processing | |
| PROCESS INTENSIFICATION | ||
| PI1 | Novel Reactors | |
| PI2 | Reactive and Hybrid Separations | |
| PI3 | Continuous Processing | |
| PI4 | Alternative Energy Forms | |
| PI5 | Microscale Processes | |
| PI6 | Multifunctional Equipment | |
| PROCESS SYSTEM ENGINEERING | ||
| PS1 | Off-Line Systems | |
| PS2 | On-Line Systems | |
| PS3 | Computational & Numerical Solutions Strategies | |
| PS4 | Integrated and Multiscale Modelling and Simulation | |
| PS5 | Computer Aided Process Engineering for the users, society and education | |
| PRODUCT DESIGN AND ENGINEERING | ||
| DE1 | Micro& Nano-structured Materials | |
| DE2 | Self-Assembling Systems | |
| DE3 | Relation Product Process | |
| DE4 | High Performance Materials | |
| REACTION ENGINEERING | ||
| RE1 | Heterogeneous & homogeneous catalytic reactions | |
| RE2 | Homogeneous & heterogeneous non-catalytic reactions | |
| RE3 | Biotech reaction systems | |
| RE4 | Multiphase reactors | |
| RE5 | Multifunctional & non-conventional reactors | |
| RE6 | Structured catalysts & reactors | |
| RE7 | Safe operation of chemical reactors | |
| RE8 | Homogeneous and multiphase CFD modeling | |
| RE9 | Analysis & design of porous media | |
| RE10 | Integration of the chemical reactor in plant layout | |
| RE11 | Catalysts, sorbents | |
| RE12 | Novel porous materials | |
| RE13 | Membranes | |
| SEPARATION TECHNOLOGY AND TRANSFER | ||
| ST1 | Fluid separations | |
| ST2 | High pressure technology | |
| ST3 | Membrane separations | |
| ST4 | Separation challenges in future fuels | |
| ST5 | Green solvents, ionic liquids, biofuels | |
| ST6 | CO2 capture | |
| ST7 | Integrated, hybrid and novel separations | |
| ST8 | Equipment design and revamp | |
| ST9 | Process troubleshooting and handling operational problems | |
| ST10 | High pressure and high temperature process technology | |
| SUSTAINABLE MANAGEMENT OF NATURAL RESOURCES | ||
| SM1 | Hygiene | |
| SM2 | Industrial Ecology | |
| SM3 | Scarcity | |
| SM4 | Carbon Issues | |
| THERMODYNAMICS AND INTERFACIAL PHENOMENA | ||
| TH1 | New Approaches, needs and trends | |
| TH2 | Industrial use of thermodynamics | |