SCOPE
A wide range of topics related to classical and emerging areas of radiation transfer applications will be covered, including:
|
Novel
numerical, analytical and hybrid techniques for
the solution of the radiative transfer equation
in multidimensional and complex geometries; |
|
Transient
radiation problems; |
|
Radiative
properties of gases, agglomerates and non-uniform
particles; |
|
Interaction
of radiation with conduction, convection, turbulence,
chemical kinetics, and soot formation; |
|
Advanced
radiative transfer models for industrial and combustion
systems such as furnaces, IC engines, gas turbines; |
|
Inverse
radiative transfer techniques; |
|
Interactive
use of radiative transfer for improved manufacturing
processes; |
|
Fundamentals
of radiative transfer for remote sensing; |
|
Radiative
transfer in atmosphere and oceans; |
|
Biomedical
applications of radiation transfer; |
|
Radiation
transfer in micro- and nano-scale systems; |
|
Radiative
transfer based diagnostic and control systems. |
|