Aerosol Generation, Nanoparticles and Nanomaterials
Tampere University
Aerosol reactor design. We will cover the main principles of operation of reactors, chambers and flow systems which are most frequently used when using aerosol processes.
· Batch reactors
· Tubular reactors
· Tank reactors
· Open processes
Aerosol generation mechanisms. The fundamental physical mechanisms on which the aerosol generation methods are based on.
· Mechanical
· Thermal
· Electrical
Intraparticle processes. For material synthesis, understanding and control of the material properties is important. In material synthesis via aerosol route, one of the main challenges is to understand the intraparticle processes which lead to different final morphologies and surface properties of the nanomaterial.
· Agglomeration
· Coalescence
· Morphology
Aerosol particles vs surfaces. In many applications, the aerosol particles are collected/deposited on surfaces. Therefore, knowledge on the physical and chemical phenomena affecting the deposition is important.
· Adhesion
· Bounce
· Deposition processes
Aerosol synthesis and nanomaterials. Here we cover the main processes on how the nanomaterials are fabricated in real industrial processes. Different technologically important examples will be covered. Essential classical journal papers will give and addition to the industrial relevance of the topic.
· Aerosol processes & CVD
· Material synthesis via aerosol route
· Applications
Back
|
|