Open Source Dessicant-Humidifier Cycle Based Liquid Chiller: Difference between revisions
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*[[Bioballs]] would work and are inexpensive | *[[Bioballs]] would work and are inexpensive | ||
*[[Stainless Steel Scrubbers]] based packing would work as well (would a conductive packing offer any advantages over thermally insulative plastic? ) | *[[Stainless Steel Scrubbers]] based packing would work as well (would a conductive packing offer any advantages over thermally insulative plastic? ) | ||
==Fans== | |||
*[[Inline Fans]] may work, but the added pressure of a centrifugal fan should help with "pushing the air through the packed column?" | |||
*This ties into the spray tower vs packed column issue | |||
==Pumps== | ==Pumps== | ||
Revision as of 06:04, 1 February 2021
Baics
- OSE's Design for a Dessicant-Humidifier Cycle Refrigeration based Hydronic Cooling system
Existing Open Source Designs
Minimum Viable Product
Basic Design
Part A
Part/Componet B
BOM
Column Packing
- Should be simpler than a Spray Tower system due to it's "open" nature (even if in a sealed+clean container, it doesn't have a sealed pressurized liquid tube)
- Bioballs would work and are inexpensive
- Stainless Steel Scrubbers based packing would work as well (would a conductive packing offer any advantages over thermally insulative plastic? )
Fans
- Inline Fans may work, but the added pressure of a centrifugal fan should help with "pushing the air through the packed column?"
- This ties into the spray tower vs packed column issue
Pumps
- "Fountain Pumps" usually go for ~20-50 usd each (need to determine GPH flow needed/diminishing returns on higher flow?)
PVC Pipe
- 4in PVC Pipe seems like the largest size at the local "Home Depot" store
CAD
Code
Software
Firmware
Internal Links
- [Dessicant-Humidifier Cycle Refrigeration]]
- Hydronic Cooling