Abstract
This article analyzes a published formulation of the Navier–Stokes equations cast into surface-following coordinates and provides some additional mathematical background to follow the article. Ubiquitous in the paint shops of automotive plants around the world, a high-speed rotary bell is succinctly described as a rapidly spinning concave axisymmetric surface with liquid paint supplied from a port coinciding with the center of rotation. The spinning surface transfers momentum to the paint film causing it to flow outward. Upon reaching the bell periphery, it is flung off, subsequently forming an atomized spray transferred to an automotive body through advection and electrostatics. Common analytical frameworks of rotating films were spherical or cylindrical coordinate systems where the wetted surface profile of the bell was constrained to follow a coordinate axis. This led to solutions for films modeled with conical, disk-like, or partial hemispherical profiles. An alternative was a more general case using a surface-following orthogonal curvilinear coordinate system along with its derived vector operators. In the unique case of a thin film, these results validated a simpler pattern found in common coordinate systems.
Original language | English |
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Pages (from-to) | 939-945 |
Number of pages | 7 |
Journal | Journal of Coatings Technology and Research |
Volume | 19 |
Issue number | 3 |
DOIs | |
State | Accepted/In press - 2022 |
Bibliographical note
Funding Information:This work was partially supported by development funds of the Institute of Research for Technology Development (IR4TD) College of Engineering, University of Kentucky.
Publisher Copyright:
© 2022, The Author(s).
Funding
This work was partially supported by development funds of the Institute of Research for Technology Development (IR4TD) College of Engineering, University of Kentucky.
Funders | Funder number |
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University of Kentucky |
Keywords
- Atomization
- Automotive Paint
- Curvilinear
- Rotary Bell
- Rotational Fluid Mechanics
ASJC Scopus subject areas
- General Chemistry
- Surfaces and Interfaces
- Surfaces, Coatings and Films
- Colloid and Surface Chemistry