EcoRenovator  

Go Back   EcoRenovator > Improvements > Conservation
Advanced Search
 


Blog 60+ Home Energy Saving Tips Recent Posts


Reply
 
Thread Tools Display Modes
Old 02-26-12, 01:48 PM   #11
herlichka
Apprentice EcoRenovator
 
Join Date: Oct 2010
Location: Simcoe County, Ontario, Canada
Posts: 102
Thanks: 11
Thanked 15 Times in 10 Posts
Default

It is actually the vapour that you want to stop: if water vapour is allowed to travel from the warm interior of your home into the insulation it will eventually reach a point where it is cool enough to condense. This condensation will eventually cause mould, mildew and will cause structural decay. This is why we install a vapour barrier on the "warm" side of the wall, and a house wrap such as Typar or Tyvec on the outside. The house wrap is an "air barrier", it prevents wind and wind driven rain from penetrating into the wall from the outside, but does allow the insulation's accumulated moisture to dissipate to the outside. Moisture can accumulate simply from the change of seasons, and the moisture content of the outside air. To deal with the moisture inside the house we must install some form of mechanical venilation, and/or a Heat Recovery Ventilator.

I have seen horrendous water damage inside the cavity of exterior walls adjacent to kitchen, bath or even laundry rooms, caused not by actual water penetration, but condensation from moisture seeping out to the cold side of the insulation. I have even seen ice in the insulation above ceiling light fixtures in the attic, from moist air traveling upward from the interior of the house through the electrical devices. Our winter temperatures in Ontario can drop to -30c or more for extended periods, so these ice deposits can become substantial in size, and when the temps rise and the ice melts the wall surfaces can be damaged, people often think that they have a leaky roof.

All for the price of a roll of plastic and a roll of tape.


Last edited by herlichka; 02-26-12 at 06:54 PM.. Reason: Afterthought
herlichka is offline   Reply With Quote
The Following User Says Thank You to herlichka For This Useful Post:
beatr911 (02-27-12)
Old 02-26-12, 11:09 PM   #12
S-F
You Ain't Me
 
S-F's Avatar
 
Join Date: Nov 2009
Location: Northampton MA
Posts: 662
Thanks: 6
Thanked 71 Times in 58 Posts
Default

If you air seal and use cellulose and use a LOT of it this doesn't happen. In an R 40 wall of cellulose there is so much hygroscopic mass that it matters not at all. You obviously need to properly deal with moisture created inside by exhaust fans or HRV's or whatever.
__________________
My project:


To view links or images in signatures your post count must be 0 or greater. You currently have 0 posts.


Chipping away on a daily basis.

Quote:
You know you're an ecorenovator if anything worth insulating is worth superinsulating.
Quote:
S-F: "What happens when you slam the door on a really tight house? Do the basement windows blow out?"

Green Building Guru: "You can't slam the door on a really tight house. You have to work to pull it shut."
S-F is offline   Reply With Quote
Old 02-27-12, 05:06 PM   #13
beatr911
Lurking Renovator
 
Join Date: Jul 2009
Posts: 11
Thanks: 2
Thanked 0 Times in 0 Posts
Default

I agree with herlichka about stopping moisture transmission past the interior envelope. I too have experienced moisture condensation on the inside of the exterior side of a wall, mold forming between the insulation and the OSB. Warm air readily absorbs moisture and when it finally trickled past the insulation the moisture condensed on the exterior side of the wall cavity and the colder air trickled down and out the bottom. Stopping the air flow stopped the moisture flow and consequently the condensation.

Foaming in the can should stop the moisture transmission as well as the heat shouldn't it? I don't understand how the foam can stop one without the other.

I like the idea of using the fire foam instead of regular foam, if the price the same why not? What is the difference of melting point of the two? Not that it's a big deal but it would be nice to know how much extra (if any) thermal integrity it has.

Thanks for the discussion. This is really great stuff.

I know, bad joke =)
beatr911 is offline   Reply With Quote
Old 02-29-12, 06:46 AM   #14
S-F
You Ain't Me
 
S-F's Avatar
 
Join Date: Nov 2009
Location: Northampton MA
Posts: 662
Thanks: 6
Thanked 71 Times in 58 Posts
Default

Unless you are making contact with a hot pipe there is no effective difference between the resistance to heat of the two products. I'm not sure about great stuff but I assume it's about the same as regular gun foam.

About vapor barriers. It's been beaten to death for decades now. There is an overwhelming body of empirical evidence showing that when cellulose is used a vapor barrier can actually be hazardous. There's no way to make it air tight so if you do have an overly moist house all of that water will seek out the seams and you will have a moisture problem in those spots. There are many reasons to avoid vapor barriers. I didn't think anyone actually used them any more. Maybe the people who install fiber glass in new construction use it.
__________________
My project:


To view links or images in signatures your post count must be 0 or greater. You currently have 0 posts.


Chipping away on a daily basis.

Quote:
You know you're an ecorenovator if anything worth insulating is worth superinsulating.
Quote:
S-F: "What happens when you slam the door on a really tight house? Do the basement windows blow out?"

Green Building Guru: "You can't slam the door on a really tight house. You have to work to pull it shut."
S-F is offline   Reply With Quote
Old 02-29-12, 07:46 AM   #15
herlichka
Apprentice EcoRenovator
 
Join Date: Oct 2010
Location: Simcoe County, Ontario, Canada
Posts: 102
Thanks: 11
Thanked 15 Times in 10 Posts
Default

The Ontario Building Code, which is virtually identical to every Provincial and Territorial code in Canada, requires a Vapour Barrier over every moisture permeable insulation product in exterior walls. A vapour Barrier has to be there in one form or another.

Most simpler installations consist of 6mil poly over fibreglass, mineral fibre, cellulose, and so on. These products are marketed under numerous names.

Where people are getting creative, and staying legal, is with the use of Closed Cell spray insulation. Closed cell insulation is considered an acceptable vapour barrier, in that no additional barrier needs to be installed. The Code allows the Vapour Barrier to be located up to 1/3 of the way into the insulation, as measured by R-value, from the warm side. This means that you can spray the stud cavities part way, install your wiring and plumbing, and finish with a thin layer of vapour permeable insulation and drywall. This approach can be varied by several diferent ideas, the wall can be strapped, or a second stud wall can be built.

Another product that can be used as a Vapour Barrier is closed cell rigid styrofoam board. Again, there are numerous names attached to these products. Insulation board can be installed on the inside, under your drywall. This requires extreme attention to the details, and every joint must be properly sealed, as per the manufacturers instructions.

Open cell spray insulations must be treated as vapour permeable, these products can actually become waterlogged if installed incorrectly.

And finally, beware of the possibility of accidentally installing a second vapour barrier. For instance, the example of the 1/3 rule where there is a layer of moisture permeable insulation overclosed cell spray. Avoid the temptation (if you are so inclined) to install a layer of 6mil poly, or foil backed drywall. You can trap moisture in between.

I am a firm believer in a properly installed vapour barrier. I do renovation and home repairs, so I often get to dig into walls and see what's happening in there. I price my work slightly higher when I suspect there is no, or a poorly installed vapour barrier. I know I will likely find mould, and people hate mould. In new construction, in my opinion, the proper installation of the vapour barrier is one of the steps that produces the highest returns on investment

Last edited by herlichka; 02-29-12 at 07:50 AM..
herlichka is offline   Reply With Quote
Old 05-03-12, 07:40 PM   #16
lucerne96
Helper EcoRenovator
 
Join Date: May 2012
Location: house
Posts: 50
Thanks: 3
Thanked 5 Times in 3 Posts
Default

What you can do if you have access to attic space above lights is to make a box out of 1/2" drywall to fit OVER the high hat lighting fixture. Use the fireproof spray foam to seal the box airtight to the underside of the ceiling. This will allow you to insulate over/around the box
lucerne96 is offline   Reply With Quote
Old 05-07-12, 08:57 AM   #17
menaus2
Apprentice EcoRenovator
 
Join Date: Feb 2011
Location: Driftless Region, North America, Earth, Solar System, Orion Arm, Milky Way Galaxy,Virgo Supercluster
Posts: 116
Thanks: 13
Thanked 35 Times in 25 Posts
Default

I'd LED the can lights, and foam the bejesus on top of it with fire resistant greatstuff. If they last around 15 years, I'd figure incandescents will be pretty dead by then anyways. The LED lumens/watt do tend to be dissapointing most of the time, but imo .they compensate by being an inherently directional lightsource.
menaus2 is offline   Reply With Quote
Old 05-07-12, 10:53 AM   #18
lucerne96
Helper EcoRenovator
 
Join Date: May 2012
Location: house
Posts: 50
Thanks: 3
Thanked 5 Times in 3 Posts
Default

Quote:
Originally Posted by menaus2 View Post
I'd LED the can lights, and foam the bejesus on top of it with fire resistant greatstuff.

I totally agree with putting in LED's. The problem is if someone else comes along in the future and changes out to incandescents & the light can gets insulated over, you will have the potential for trouble because of heat build up. Heat build up will also reduce the life span of your lamp.

The tried & tested way(and only approved methodology in Pennsylvania) is the 1/2" drywall box method explained previously. It allows enough space to not have heat build up problems.
lucerne96 is offline   Reply With Quote
Old 05-15-12, 09:58 PM   #19
Exalta-STA
Apprentice EcoRenovator
 
Join Date: May 2012
Location: Philippines
Posts: 107
Thanks: 12
Thanked 4 Times in 4 Posts
Default

Yes LEDs have very low operating temperatures, It'd hardly heat up even if you leave it overnight as compared to incandescents

In my case. since I'm too heavy for my ceiling to support (gypsum ceiling boards) My only option was to work from below to seal it. I used transparent neutral silicone sealant (leftovers from working on car windshields). A very fine point, a steady hand and lots of patience is needed. oh and a sturdy ladder would help too

Hope this helps
Exalta-STA is offline   Reply With Quote
Old 05-15-22, 06:14 AM   #20
MarkTrestt12
Lurking Renovator
 
Join Date: May 2022
Location: Canada
Posts: 3
Thanks: 0
Thanked 0 Times in 0 Posts
Default

Can you show us a photo fo how it turned out?

__________________
Sorry, new users are not permitted to post links in their signatures.
MarkTrestt12 is offline   Reply With Quote
Reply



Posting Rules
You may not post new threads
You may not post replies
You may not post attachments
You may not edit your posts

BB code is On
Smilies are On
[IMG] code is On
HTML code is Off

Forum Jump


All times are GMT -5. The time now is 08:29 AM.


Powered by vBulletin® Version 3.8.11
Copyright ©2000 - 2024, vBulletin Solutions Inc.
Ad Management by RedTyger
Inactive Reminders By Icora Web Design