We are looking into developing functional coatings comprised of particulate medium for building radiative cooling paints, while we also try to address some fundamental scientific problems related to radiative transfer in dense particulate medium comprised of dielectric particles.
Qualifications of an ideal candidate (or you must be very motivated to achieve these qualifications):
A PhD degree in Mechanical Engineering (preferred or PhD in Physics/Electrical Engineering/Chemical Engineering); MS or BS degrees can also be considered.
Strong background in thermal sciences, heat transfer and physics; specifically radiative transfer, electromagnetics and optics
Strong background in numerical/data analysis and programming skills (Matlab/Python/Fortran)
Able to use open source research codes on electromagnetics, Monte Carlo method based RTE solvers, machine learning packages
Strong written and oral communication skills
Self learning skills, ability to work independently, and in a fast paced work environment
We are looking into developing conducting, band selective nanocomposite materials for aerospace applications. We are also trying to address some fundamental scientific problems related to radiative transfer and conduction in dense particulate medium.
Qualifications of an ideal candidate (or you must be very motivated to achieve these qualifications):
A PhD degree in Mechanical Engineering (preferred or PhD in Physics/Electrical Engineering/Chemical Engineering); MS or BS degrees can also be considered.
Strong background in thermal sciences, heat transfer, and physics; specifically conduction, radiative transfer, electromagnetics and optics
Strong background in numerical/data analysis and programming skills (Matlab/Python/Fortran)
Able to use open source research codes on electromagnetics, Monte Carlo method based RTE solvers, machine learning packages
Able to use commercial thermal analysis software (Comsol, Ansys)
Strong written and oral communication skills
Self learning skills, ability to work independently, and in a fast paced work environment
We are looking into developing compact heat exchangers for HVAC&R industry. Our objective is mainly developing detailed numerical models to be able to support optimization of such systems.
Qualifications of an ideal candidate (or you must be very motivated to achieve these qualifications):
A PhD degree in Mechanical Engineering ( preferred, or in Chemical Engineering), MS or BS degrees can also be considered.
Strong background in thermal sciences, heat transfer, and CFD
Able to use commercial CAD and thermal analysis software (Ansys Fluent)
Strong written and oral communication skills
Self learning skills, ability to work independently, and in a fast paced work environment