Insulation: Difference between revisions
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==Vacuum Panel== | ==Vacuum Panel== | ||
*Aerogel but with a vacuum instead of a gas | *Aerogel but with a vacuum (or at least with (heavily) reduced pressure) instead of a gas inside the gel | ||
*The | *The best insulator, but insulation degrades due to gas intrusion | ||
==Rechargable Vacuum Panel== | |||
*[[Rechargable Vacuum Panel]] | |||
*Similar to the above Vacuum Panel, but it has ports and tubing to allow for it to be plumbed to a vacuum pump system to keep it's vacuum strong | |||
*No longer loses vacuum with time | |||
*Does require plumbing and a vacuum pump thus adding complexity (and a small occasional power draw for the vacuum pump motor however) | |||
=See Also= | =See Also= | ||
Revision as of 18:04, 22 December 2018
Basics
- The use of materials to prevent the passage/spread/leakage of heat
- Can improve efficiency
- Can allow for ulra low/ultra high temperatures
Common Materials
Fiberglass
Aramid
- Fabric made of synthetic fibers roughly similar to nylon
- 1/4 I'd, 1/16 wall - [3]
Foamed Plastic
- Polyurethane Spray foams etc
- Easy to apply
- Fills cracks well
- Hard to remove
Aerogel
- Essentially a jell with the liquid being replaced with a gas
- VERY insulating
- Can be complex to make depending on type + materials etc
Vacuum Panel
- Aerogel but with a vacuum (or at least with (heavily) reduced pressure) instead of a gas inside the gel
- The best insulator, but insulation degrades due to gas intrusion
Rechargable Vacuum Panel
- Rechargable Vacuum Panel
- Similar to the above Vacuum Panel, but it has ports and tubing to allow for it to be plumbed to a vacuum pump system to keep it's vacuum strong
- No longer loses vacuum with time
- Does require plumbing and a vacuum pump thus adding complexity (and a small occasional power draw for the vacuum pump motor however)