Parametric Model of Heat Sink Cooling for Heated Layered Materials
Abstract
A parametric model of heat sink cooling for heated layered materials is described. This model is formally based on the Rosenthal steady-state solution to the advection-diffusion equation, which is extended to include effects of multiple layers with varying thermal conductivities, contact resistance, and heat sink coupling to negative heat sources, represented by cooled circulating baths. This model provides parametric representations of temperature distributions within layered material system, which can be utilized for their design layer configuration, including heat sink control of thermal transport. Results of prototype modeling of controlled heat transfer in layered material systems are presented, demonstrating general aspects of the parametric model for thermal analysis and simulation of heat transfer control using layer configurations and embedded heat sinks
Document Details
- Document Type
- Technical Report
- Publication Date
- Sep 23, 2021
- Accession Number
- AD1148452
Entities
People
- Edward C. Jr Michaelchuck
- Jesse Duncan
- Samuel G. Lambrakos
- Scott A. Ramsey
- Troy Mayo
Organizations
- United States Naval Research Laboratory