Air Cooling Heat Exchanger: Difference between revisions
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*Problem statement: derive a simple formula for calculating cooling power of a square-geometry heat exchanger, made of flat surfaces and rectangular fins. | *Problem statement: derive a simple formula for calculating cooling power of a square-geometry heat exchanger for hydraulic oil cooling, made of flat surfaces and rectangular fins. Design a passively cooled system with thermosiphon at the 20 hp modular scale. | ||
=Links= | =Links= | ||
*Tube heat exchangers - [https://files.chartindustries.com/hudson/BasicsofACHEBrochure-Web.pdf] | *Tube heat exchangers - [https://files.chartindustries.com/hudson/BasicsofACHEBrochure-Web.pdf] | ||
Latest revision as of 02:08, 15 September 2023
- Problem statement: derive a simple formula for calculating cooling power of a square-geometry heat exchanger for hydraulic oil cooling, made of flat surfaces and rectangular fins. Design a passively cooled system with thermosiphon at the 20 hp modular scale.
Links
- Tube heat exchangers - [1]