It produces a rotational environment to conduct heat transfer experiments. Not much empirical data exist for the heat transfer rates through air channels while rotating.
Why does that matter?
If it is known what type of channel geometry gives higher heat transfer rates, then turbine blades can be cooled more efficiently resulting in more efficient gas turbines (power plants, jet engines, etc).
Owned my name is nayan bhakta too
Masternayan117 1 year ago
i don't get it...where does the water go?
Bhak1 3 years ago
It produces a rotational environment to conduct heat transfer experiments. Not much empirical data exist for the heat transfer rates through air channels while rotating.
Why does that matter?
If it is known what type of channel geometry gives higher heat transfer rates, then turbine blades can be cooled more efficiently resulting in more efficient gas turbines (power plants, jet engines, etc).
pirateman336 3 years ago
Comment removed
maddoc1988 3 years ago