CHEMICAL AND PROCESS ENGINEERING TOPICS
#TOPIC
BIOMASS
Biomass Conversion Analysis
BC1 Solid biofuel Combustion at different scales of application
BC2 Pyrolysis, Torrefaction, Carbonisation and Char production
BC3 Gasification for Syngas production and Power
BC4 Bio from Digestion
BC5 Lignocellulosic ethanol, biomass fermentation
BC6 Bio to (combined) Refineries
BC7 Biofuel kinetics and pollutant formation
Biomass Processes
BP1 Production of solid biofules and feedstock charaterization
BP2 Biodisel, jet fuels production from oil-based fuels and chemicals from Syngas
BP3 Technologies for feedstock supply: chipping, pelletising, briqueting
BP4 Innovative processes from waste
BP5 Anaerobic digestion processes
BP6 Algae production and processing
Biomass Resources
BR1 Innnovative use of wastes
BR2 Residue from agriculture and harvesting
BR3 Algae cultivation and supply chain
BR4 Biomasses from dedicated bioenergy crops
Biomass Policies
BO1 Life cycle and supply chain
BO2 Sustainability and impact with environment
BO3 Agriculatur global planning and intensification
BO4 Support programmes and strategic goals
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
ENVIRONMENT
EV1 Process Development for Sustainable Environment
EV2 Environmental Impact Assessment and Environmental Protection
EV3 Green House Gases, Emission Trading
EV4 Environmental Remediation
EV5 Carbon Dioxide as a valuable source of carbon for the chemical industry
EV6 Waste processing and waste-to-energy systems
EV7 Technological innovation for water management in the urban and industrial context
EV8 Soil remediation
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