Insulation: Difference between revisions
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=Common Materials= | =Common Materials= | ||
== | == [[Glass Fiber Wool]] == | ||
*Sleeve, 1/2" I'd, 1/4 wall -[https://www.mcmaster.com/#insulation/=1e3emmy] | *Sleeve, 1/2" I'd, 1/4 wall -[https://www.mcmaster.com/#insulation/=1e3emmy] | ||
*1/4" ID, 9/32 wall - [https://www.mcmaster.com/#8772k51/=1e3er8s] | *1/4" ID, 9/32 wall - [https://www.mcmaster.com/#8772k51/=1e3er8s] | ||
= | |||
== [[Mineral Wool]] == | |||
*Higher temperature resistance than fiberglass. | *Higher temperature resistance than fiberglass. | ||
*$2/sf, 1" thick - R4 - Roxul - [https://www.zoro.com/roxul-insulation-wool-0-to-1200-degrees-f-40320/i/G8546763/] | *$2/sf, 1" thick - R4 - Roxul - [https://www.zoro.com/roxul-insulation-wool-0-to-1200-degrees-f-40320/i/G8546763/] | ||
*Menards R15 batts, $1/sf - [https://www.menards.com/main/building-materials/insulation/insulation-rolls-batts/owens-corning-reg-thermafiber-reg-r-15-mineral-wool-insulation-batt-15-x-47-24-5-sq-ft/1617300/p-1445972379665.htm] | *Menards R15 batts, $1/sf - [https://www.menards.com/main/building-materials/insulation/insulation-rolls-batts/owens-corning-reg-thermafiber-reg-r-15-mineral-wool-insulation-batt-15-x-47-24-5-sq-ft/1617300/p-1445972379665.htm] | ||
==Ceramic Fiber== | == [[Ceramic Fiber Wool]] == | ||
*1", $3/sf - [https://www.zoro.com/unitherm-ceramic-fiber-insulation-6-cu-ftlb-cf6-1-24x60in/i/G9205677/] | *1", $3/sf - [https://www.zoro.com/unitherm-ceramic-fiber-insulation-6-cu-ftlb-cf6-1-24x60in/i/G9205677/] | ||
==Aramid== | ==Aramid== | ||
*Fabric made of synthetic fibers roughly similar to nylon | *Fabric made of synthetic fibers roughly similar to nylon | ||
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==Foamed Plastic== | ==Foamed Plastic== | ||
*Can be made from vinyl with carbon dioxide as the foaming agent [https://www.sciencedirect.com/topics/materials-science/foamed-plastics#:~:text=Foaming%20will%20take%20place%20with,by%20just%20using%20carbon%20dioxide.] | |||
*Polyurethane Spray foams etc | *Polyurethane Spray foams etc | ||
*Easy to apply | *Easy to apply | ||
| Line 39: | Line 42: | ||
*No longer loses vacuum with time | *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) | *Does require plumbing and a vacuum pump thus adding complexity (and a small occasional power draw for the vacuum pump motor however) | ||
=Ecologically Safe Options= | |||
==Cellulose Insulation== | |||
*Typically mostly cellulose pump/batting from the paper and cloth industries | |||
*Also can roughly include strategies like [[Hay Bale Insulation]] or hemp etc | |||
*Additives can be added such as [[Fire Retardants]] , [[Binding Agents]] , anti bacterial/fungal etc | |||
*Similar ease of installation to "blown fiberglass batting" and some foams (although it won't expand, and may in fact settle) | |||
==Bioplastic Based Foams== | |||
*Can be done, but requires full development of the more complex [[Bio-Petrochemistry]] (distillates and refining them into the polyurothane etc) and the required infastructure | |||
*Thus unlikely near-term | |||
==Bioplastic Based (Rechargable?) Vacuum Panel Insulation== | |||
*Use bioplastic glazing ( [[PLA]] or [[Cellulose Acetate]] (latter one is quite flammible) ) | |||
*Is this viable? | |||
*If so would be highly insulating, and unlikely to become a host to rodents/microbes | |||
*Unsure on flammability | |||
==Sustainably Sourced [[Mineral Wool]] == | |||
* [[Clinkers]] / [[Drass]] / [[Slag]] can all be used as feedstock for [[Mineral Wool]] (and perhaps [[Basalt Fiber]] ?) production | |||
==Carbon Foam Rigid Panel Insulation== | |||
* [[Carbon Foam]] being utilized in a similar manner to Plastic Foam [[Rigid Panel Insulation]] or [[Drywall]] (as insulation, not as a nail holding, paintable material etc) | |||
*Can be made in a simple kiln with a mold, and some simple recipe? | |||
*Should be quite straighforeward | |||
*Also is relitively fireproof/resistant (see [[Carbon Foam]] ) | |||
*Also should be relitively resistant to insects/rodents | |||
*Unsure on mold/microbes as it does have high surface area, but it isn't as "digestable" as cellulose etc? | |||
== "GreenCellFoam" == | |||
*Some OTS product; mainly marketed for packaging | |||
*Secrative on what material | |||
**It is corn based, water soluable, and easily biodegradable (ie can be done in a simple backyard pile, not a proper [[Anerobic Digestion]] setup like [[PLA]] | |||
**Thus it may be some sort of starch/cellulose etc foam? | |||
*Should be replicable, but in "in wall use" it shouldn't have too much of an advantage over regular cellulose batting, and thus isn't too relevant? | |||
==Simply Overbuilding== | |||
* IE very thick walls of [[CEB]]s or [[Concrete]] | |||
*More resource and space intensive, but it "gets the job done" | |||
*VERY simple compared to other methods | |||
*Also no fire/insect/rodent/microbe risk (outside of if they can somehow get into CEBs (need to read up on this) | |||
=Internal Links= | =Internal Links= | ||
* | *[[Superinsulation]] | ||
=External Links= | =External Links= | ||
*[https://en.wikipedia.org/wiki/Insulation_(list_of_insulation_material) Wikipedia List of All sorts of materials and their thermal properties (all in a easy to use graph)] | *[https://en.wikipedia.org/wiki/Insulation_(list_of_insulation_material) Wikipedia List of All sorts of materials and their thermal properties (all in a easy to use graph)] | ||
*[http://www.byg.dtu.dk/upload/institutter/byg/publications/rapporter/byg-sr0601.pdf Survey paper on insulation (English in specific chapters) (Broken Link?)] | *[http://www.byg.dtu.dk/upload/institutter/byg/publications/rapporter/byg-sr0601.pdf Survey paper on insulation (English in specific chapters) (Broken Link?) ] | ||
*[http://www.youtube.com/watch?v=UwF2_MLfRH4 super insulation panel technology may offer a 90% savings on heating and cooling energy requirements] | *[http://www.youtube.com/watch?v=UwF2_MLfRH4 super insulation panel technology may offer a 90% savings on heating and cooling energy requirements] | ||
[[Category: Housing and construction]] | [[Category: Housing and construction]] [[Category: Materials]] | ||
Latest revision as of 23:39, 3 January 2024
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
Glass Fiber Wool
Mineral Wool
- Higher temperature resistance than fiberglass.
- $2/sf, 1" thick - R4 - Roxul - [3]
- Menards R15 batts, $1/sf - [4]
Ceramic Fiber Wool
- 1", $3/sf - [5]
Aramid
- Fabric made of synthetic fibers roughly similar to nylon
- 1/4 I'd, 1/16 wall - [6]
Foamed Plastic
- Can be made from vinyl with carbon dioxide as the foaming agent [7]
- 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)
Ecologically Safe Options
Cellulose Insulation
- Typically mostly cellulose pump/batting from the paper and cloth industries
- Also can roughly include strategies like Hay Bale Insulation or hemp etc
- Additives can be added such as Fire Retardants , Binding Agents , anti bacterial/fungal etc
- Similar ease of installation to "blown fiberglass batting" and some foams (although it won't expand, and may in fact settle)
Bioplastic Based Foams
- Can be done, but requires full development of the more complex Bio-Petrochemistry (distillates and refining them into the polyurothane etc) and the required infastructure
- Thus unlikely near-term
Bioplastic Based (Rechargable?) Vacuum Panel Insulation
- Use bioplastic glazing ( PLA or Cellulose Acetate (latter one is quite flammible) )
- Is this viable?
- If so would be highly insulating, and unlikely to become a host to rodents/microbes
- Unsure on flammability
Sustainably Sourced Mineral Wool
- Clinkers / Drass / Slag can all be used as feedstock for Mineral Wool (and perhaps Basalt Fiber ?) production
Carbon Foam Rigid Panel Insulation
- Carbon Foam being utilized in a similar manner to Plastic Foam Rigid Panel Insulation or Drywall (as insulation, not as a nail holding, paintable material etc)
- Can be made in a simple kiln with a mold, and some simple recipe?
- Should be quite straighforeward
- Also is relitively fireproof/resistant (see Carbon Foam )
- Also should be relitively resistant to insects/rodents
- Unsure on mold/microbes as it does have high surface area, but it isn't as "digestable" as cellulose etc?
"GreenCellFoam"
- Some OTS product; mainly marketed for packaging
- Secrative on what material
- It is corn based, water soluable, and easily biodegradable (ie can be done in a simple backyard pile, not a proper Anerobic Digestion setup like PLA
- Thus it may be some sort of starch/cellulose etc foam?
- Should be replicable, but in "in wall use" it shouldn't have too much of an advantage over regular cellulose batting, and thus isn't too relevant?
Simply Overbuilding
- IE very thick walls of CEBs or Concrete
- More resource and space intensive, but it "gets the job done"
- VERY simple compared to other methods
- Also no fire/insect/rodent/microbe risk (outside of if they can somehow get into CEBs (need to read up on this)