Re: Venting & Drying Brick Veneer Wall

September 6, 2006

No direct experience in this exact situation but consider

1. IR Gun to check temp/conductivity differences as a surrogate to how well the

wall is doing from in to out.

2. I have actually used thermocouples and RH/T meters inside walls to see how

they react. Another opportunity.

3. Model it with WUFI

a) as you suggest to try it using the city data nearest you

and with a bake out in that room

I would also model the current with and without scenarios to see what the

differences really are.

4. It appears that you need a temperature difference (dT) to drive the drying

process to the outside since you'll have a vapor barrier that is equivalent to a

boundary condition of no dVP. And I think you're right - slow.

My thoughts.

Tony

...........................................................................

" Tony " Havics, CHMM, CIH, PE

pH2, LLC

PO Box 34140

Indianapolis, IN 46234

cell

90% of Risk Management is knowing where to place the decimal point...any

consultant can give you the other 10%â„

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Venting & Drying Brick Veneer Wall

We operate an environmental, health & safety company in a textbook Mixed-Humid

region. We often get involved with local builders and IAQ issues. I recently

started an interesting project that I'm sure falls within some of you guys'

expertise. I think this situation provides an opportunity to add to the body of

knowledge, at least anecdotally.

We have client (an established homebuilder) who built a ~6000 sqft residence 18

months ago, putting unfaced insulation & plastic in the walls with the expected

consequences in this mixed-humid climate. For some reason prior to occupancy,

he removed a 6 foot linear section of plastic from a second floor bedroom wall

(west-facing gable end of the 2-story home) and replaced the drywall & unfaced

insulation without the plastic vapor barrier. The drywall in this section shows

marginally damp, which I believe is partially due to this section being the sole

water vapor inlet along this wall. I was able to show him the effects of

plastic in the wall by opening a 2X3 ft section in this non-plastic portion and

by also opening another 2X3 ft section approximately 10 feet away along the same

wall in the same room. Opening the plastic-treated walls shows wet studs about

1/4 inch deep, but little or no visible mold, yet. (By the way, the trigger for

our involvement was to investigate the " problem " in the non-plastic portion of

wall which caused mold growth on a large picture hanging on this portion. This

was due no doubt to the wall being able to dry to the inside at this one section

of wall. I had some convincing to do to show that the plastic-treated wall

sections were the real problem.)

Now the interesting partâ€¦The homeowner is willing to allow us to monitor the

residence over the next year for mold growth as we attempt to dry the walls.

Both inspection openings are located behind large furniture so the sections do

not have to be permanently repaired in between inspections. The plastic-treated

wall section was resealed with aluminum duct tape to restore non-permeable

conditions to that section and to allow future monitoring. The builder wants to

avoid removing the brick for obvious reasons. I have confirmed an approximate

3/4 inch space between the drain plane and the brick veneer. We have access to

the top of the brick veneer to vent the top. There is room to allow a powered

ventilation approach along the top, if warranted or feasible.

The builder will open as many weep holes as required along the bottom of the

brick veneer. The builder also understands the need for a tight air barrier

(SCS, at this point) treatment at the inside walls.

Question. Is there any study to show an existing brick wall being successfully

dried by a retrofitted venting solution? There are a lot of homes in this

situation here and an alternate to removing brick is obviously attractive, IF it

works AND IF the IAQ is monitored for mold growth following the principle of Do

No Harm. To short-circuit some thought, I am familiar with the Straube &

Burnett text, the Lstiburek, et. al. work, Canadian research on rain screens &

brick veneer, etc.

What do you think, folks? Any research or experience with keeping the plastic

in place and successfully drying? Documented work seems to show the importance

of strong flow behind the brick, with an unvented wall showing problems,

regardless of vapor barrier situation, but...<grin>

FAIR USE NOTICE:

This site contains copyrighted material the use of which has not always been

specifically authorized by the copyright owner. We are making such material

available in our efforts to advance understanding of environmental, political,

human rights, economic, democracy, scientific, and social justice issues, etc.

We believe this constitutes a 'fair use' of any such copyrighted material as

provided for in section 107 of the US Copyright Law. In accordance with Title 17

U.S.C. Section 107, the material on this site is distributed without profit to

those who have expressed a prior interest in receiving the included information

for research and educational purposes. For more information go to:

http://www.law.cornell.edu/uscode/17/107.shtml. If you wish to use copyrighted

material from this site for purposes of your own that go beyond 'fair use', you

must obtain permission from the copyright owner.

September 6, 2006

Bruce, temporally drying brick and the airspace behind it is generally

for naught if it is left to later ventilate with summer air with

dew-points of 70 degrees on a sunlit wall that absorbs moisture. Are you

retrofitting and leaving the drying in place?

A couple of questions for you:

What is the substrate on the exterior of the stud wall and how is it

sealed? Can you get a good look at the integrity of it through the Hole

cut in the drywall?

What type of air barrier and damp proofing were incorporated into the

exterior wall behind the brick?

What summer time temperatures and relative humidities are being held in

the home?

I ask about the temperature because generally to get the problem behind

the picture you need to have a picture flat against the wall with no

ventilation air gap at the top between the wall and the picture frame or

there is a room temperature approaching the summer time dew-point. We

see mold occur behind pictures in South Florida when homes are held

below 73 degrees and the picture has marginal air gap behind it.

Also, I ask about the temperature also because it is not unusual for us

to get a half dozen calls a year to large homes held at or below 70

degrees with obvious consequences to anything that acts as a vapor

barrier. If that's the case, you really have a (IMHO) Challenge before

you.

Ron

Venting & Drying Brick Veneer Wall

We operate an environmental, health & safety company in a textbook

Mixed-Humid region. We often get involved with local builders and IAQ

issues. I recently started an interesting project that I'm sure falls

within some of you guys' expertise. I think this situation provides an

opportunity to add to the body of knowledge, at least anecdotally.

We have client (an established homebuilder) who built a ~6000 sqft

residence 18 months ago, putting unfaced insulation & plastic in the

walls with the expected consequences in this mixed-humid climate. For

some reason prior to occupancy, he removed a 6 foot linear section of

plastic from a second floor bedroom wall (west-facing gable end of the

2-story home) and replaced the drywall & unfaced insulation without the

plastic vapor barrier. The drywall in this section shows marginally

damp, which I believe is partially due to this section being the sole

water vapor inlet along this wall. I was able to show him the effects

of plastic in the wall by opening a 2X3 ft section in this non-plastic

portion and by also opening another 2X3 ft section approximately 10 feet

away along the same wall in the same room. Opening the plastic-treated

walls shows wet studs about 1/4 inch deep, but little or no visible

mold, yet. (By the way, the trigger for our involvement was to

investigate the " problem " in the non-plastic portion of wall which

caused mold growth on a large picture hanging on this portion. This was

due no doubt to the wall being able to dry to the inside at this one

section of wall. I had some convincing to do to show that the

plastic-treated wall sections were the real problem.)

Now the interesting part...The homeowner is willing to allow us to

monitor the residence over the next year for mold growth as we attempt

to dry the walls. Both inspection openings are located behind large

furniture so the sections do not have to be permanently repaired in

between inspections. The plastic-treated wall section was resealed with

aluminum duct tape to restore non-permeable conditions to that section

and to allow future monitoring. The builder wants to avoid removing the

brick for obvious reasons. I have confirmed an approximate 3/4 inch

space between the drain plane and the brick veneer. We have access to

the top of the brick veneer to vent the top. There is room to allow a

powered ventilation approach along the top, if warranted or feasible.

The builder will open as many weep holes as required along the bottom of

the brick veneer. The builder also understands the need for a tight air

barrier (SCS, at this point) treatment at the inside walls.

Question. Is there any study to show an existing brick wall being

successfully dried by a retrofitted venting solution? There are a lot of

homes in this situation here and an alternate to removing brick is

obviously attractive, IF it works AND IF the IAQ is monitored for mold

growth following the principle of Do No Harm. To short-circuit some

thought, I am familiar with the Straube & Burnett text, the Lstiburek,

et. al. work, Canadian research on rain screens & brick veneer, etc.

What do you think, folks? Any research or experience with keeping the

plastic in place and successfully drying? Documented work seems to show

the importance of strong flow behind the brick, with an unvented wall

showing problems, regardless of vapor barrier situation, but...<grin>

FAIR USE NOTICE:

This site contains copyrighted material the use of which has not always

been specifically authorized by the copyright owner. We are making such

material available in our efforts to advance understanding of

environmental, political, human rights, economic, democracy, scientific,

and social justice issues, etc. We believe this constitutes a 'fair use'

of any such copyrighted material as provided for in section 107 of the

US Copyright Law. In accordance with Title 17 U.S.C. Section 107, the

material on this site is distributed without profit to those who have

expressed a prior interest in receiving the included information for

research and educational purposes. For more information go to:

http://www.law.cornell.edu/uscode/17/107.shtml. If you wish to use

copyrighted material from this site for purposes of your own that go

beyond 'fair use', you must obtain permission from the copyright owner.

September 6, 2006

Tony,

My company just completed a brick drying project (3 to 4 layers of red clay brick and

mortar) that took the greater part of 2 months to complete. We used Aqua-Dry

system and tremendous amounts of pressure differentials along with core

drilling to complete the project of a 100-year-old commercial brick building that

was converted into million dollar condominiums that are

close to the ocean.

From:

iequality [mailto:iequality ] On Behalf Of Tony Havics

Sent: Wednesday, September 06,

2006 1:10 PM

To: iequality

Subject: RE: Venting

& Drying Brick Veneer Wall

No direct experience in this exact situation but consider

1. IR Gun to check temp/conductivity differences as a surrogate to how well the

wall is doing from in to out.

2. I have actually used thermocouples and RH/T meters inside walls to see how

they react. Another opportunity.

3. Model it with WUFI

a) as you suggest to try it using the city data nearest you

and with a bake out in that room

I would also model the current with and without scenarios to see what the

differences really are.

4. It appears that you need a temperature difference (dT) to drive the drying

process to the outside since you'll have a vapor barrier that is equivalent to

a boundary condition of no dVP. And I think you're right - slow.

My thoughts.

Tony

...........................................................................

" Tony " Havics, CHMM, CIH, PE

pH2, LLC

PO Box 34140

Indianapolis, IN 46234

cell

90% of Risk Management is knowing where to place the decimal point...any consultant

can give you the other 10%â„

This message is from pH2. This message and any attachments may contain legally

privileged or confidential information, and are intended only for the

individual or entity identified above as the addressee. If you are not the

addressee, or if this message has been addressed to you in error, you are not

authorized to read, copy, or distribute this message and any attachments, and

we ask that you please delete this message and attachments (including all

copies) and notify the sender by return e-mail or by phone at .

Delivery of this message and any attachments to any person other than the

intended recipient(s) is not intended in any way to waive confidentiality or a

privilege. All personal messages express views only of the sender, which are

not to be attributed to pH2 and may not be copied or distributed without this

statement.

Venting & Drying Brick Veneer Wall

We operate an environmental, health & safety company in a textbook

Mixed-Humid region. We often get involved with local builders and IAQ issues. I

recently started an interesting project that I'm sure falls within some of you

guys' expertise. I think this situation provides an opportunity to add to the

body of knowledge, at least anecdotally.

We have client (an established homebuilder) who built a ~6000 sqft residence 18

months ago, putting unfaced insulation & plastic in the walls with the

expected consequences in this mixed-humid climate. For some reason prior to

occupancy, he removed a 6 foot linear section of plastic from a second floor

bedroom wall (west-facing gable end of the 2-story home) and replaced the drywall

& unfaced insulation without the plastic vapor barrier. The drywall in this

section shows marginally damp, which I believe is partially due to this section

being the sole water vapor inlet along this wall. I was able to show him the

effects of plastic in the wall by opening a 2X3 ft section in this non-plastic

portion and by also opening another 2X3 ft section approximately 10 feet away

along the same wall in the same room. Opening the plastic-treated walls shows

wet studs about 1/4 inch deep, but little or no visible mold, yet. (By the way,

the trigger for our involvement was to investigate the " problem " in

the non-plastic portion of wall which caused mold growth on a large picture

hanging on this portion. This was due no doubt to the wall being able to dry to

the inside at this one section of wall. I had some convincing to do to show

that the plastic-treated wall sections were the real problem.)