A blower door test was performed on April 11th, 2014 at 162 Pine Street in Kingston for client Brenda Slomka. The test revealed an equivalent air leakage of 205 in^2 and an air changes per hour at 50 Pascals of 6.75, indicating a moderately leaky home. The largest source of air leakage was found to be around a heating duct penetration in the basement wall leading to a crawlspace. Properly sealing this penetration and insulating the crawlspace from the basement is recommended to significantly reduce air leakage and heat loss from the home.
Vapor intrusion: How a Building Works and Breathes Braun Intertec
Our presentation will strengthen your knowledge on building sciences with a focus on ventilation systems, design and operation that impacts the environmental vapor potential in a building.
Topics include:
-Understanding how building air movement works
-What can effect the movement of vapor through a building
-How air moves through a building
-Considerations when designing ventilation and vapor mitigation systems
-Different forces that affect air movement
Please, contact Steve Flaten at Slfaten@braunintertec.com for more information or questions.
Sick Building Syndrome is the term to describe a facility that is exposing occupants to harmful conditions or uncomfortable environments; most often resulting from poor ventilation or errors in HVAC functionality.
Vapor intrusion: How a Building Works and Breathes Braun Intertec
Our presentation will strengthen your knowledge on building sciences with a focus on ventilation systems, design and operation that impacts the environmental vapor potential in a building.
Topics include:
-Understanding how building air movement works
-What can effect the movement of vapor through a building
-How air moves through a building
-Considerations when designing ventilation and vapor mitigation systems
-Different forces that affect air movement
Please, contact Steve Flaten at Slfaten@braunintertec.com for more information or questions.
Sick Building Syndrome is the term to describe a facility that is exposing occupants to harmful conditions or uncomfortable environments; most often resulting from poor ventilation or errors in HVAC functionality.
BALNEARIO SEMIVIRGEN CON AGUAS TERMALES CREADAS POR LA NATURALEZA NATURAL, SE UBICA EN IXMIQUILPAN HIDALGO EN CARDONAL, AHI PODRA TENER CONTACTO CON LA NATURALEZA, ADMIRAR EL NACIMIENTO DEL AGUA Y EL CANTAR DE LAS AVES.
EN ESTE BALNEARIO LAS PERSONA PODRÁN RELAJARSE Y RENCONTRARSE CON SU FAMILIA.
EL EJIDO EN EL QUE SE UBICA ESTE REFUGIO NATURAL ESTA CLAVADO EN MEDIO DE MONTAÑAS EGRESTES Y PAISAJES SEMIDESERTICOS DONDE PARECIERA IMPENSABLE ENCONTRAR UN OASIS COMO EN ESTE MEDIO DE UN ENTORNO TAN INSÓLITO.
Let’s assume that you’re reading this article because you have a crawl space and you’re asking yourself the question, “Should crawl space vents be open or closed?” As long as homes have been built with crawl spaces underneath them, there has been a controversy as to whether that crawl space should be vented.
Brighter Home Solutions windows are individually made to order for a perfect fit rather than being prefabricated units delivered from stock. That is why such care is taken at the design and survey stages to ensure that all measurements are accurate and each element of your requirements taken into account.http://www.brighterhomesolutions.co.uk/windows.html
First Passive House Retrofit in a Cold Climate: The MinnePHit HouseTE Studio
This presentation was given by Tim Delhey Eian of TE Studio on Tuesday, September 23rd, at the 2014 NAPHN Passive House Conference in Portland, Maine. It showcases the first cold climate Passive House retrofit (EnerPHit) project which TE Studio designed, and the Passivhaus Institut in Darmstadt (Germany) certified as a pilot EnerPHit project.
Home energy audits are needed to ensure that your home performs. Don't waste money on energy efficient upgrades until having an energy audit performed.
Step 5 Pressure Balancing of The Seven Steps of Building a Synergy Home. Air that is supplied to a room needs a return pathway back to the air handler when the door is closed.
BALNEARIO SEMIVIRGEN CON AGUAS TERMALES CREADAS POR LA NATURALEZA NATURAL, SE UBICA EN IXMIQUILPAN HIDALGO EN CARDONAL, AHI PODRA TENER CONTACTO CON LA NATURALEZA, ADMIRAR EL NACIMIENTO DEL AGUA Y EL CANTAR DE LAS AVES.
EN ESTE BALNEARIO LAS PERSONA PODRÁN RELAJARSE Y RENCONTRARSE CON SU FAMILIA.
EL EJIDO EN EL QUE SE UBICA ESTE REFUGIO NATURAL ESTA CLAVADO EN MEDIO DE MONTAÑAS EGRESTES Y PAISAJES SEMIDESERTICOS DONDE PARECIERA IMPENSABLE ENCONTRAR UN OASIS COMO EN ESTE MEDIO DE UN ENTORNO TAN INSÓLITO.
Let’s assume that you’re reading this article because you have a crawl space and you’re asking yourself the question, “Should crawl space vents be open or closed?” As long as homes have been built with crawl spaces underneath them, there has been a controversy as to whether that crawl space should be vented.
Brighter Home Solutions windows are individually made to order for a perfect fit rather than being prefabricated units delivered from stock. That is why such care is taken at the design and survey stages to ensure that all measurements are accurate and each element of your requirements taken into account.http://www.brighterhomesolutions.co.uk/windows.html
First Passive House Retrofit in a Cold Climate: The MinnePHit HouseTE Studio
This presentation was given by Tim Delhey Eian of TE Studio on Tuesday, September 23rd, at the 2014 NAPHN Passive House Conference in Portland, Maine. It showcases the first cold climate Passive House retrofit (EnerPHit) project which TE Studio designed, and the Passivhaus Institut in Darmstadt (Germany) certified as a pilot EnerPHit project.
Home energy audits are needed to ensure that your home performs. Don't waste money on energy efficient upgrades until having an energy audit performed.
Step 5 Pressure Balancing of The Seven Steps of Building a Synergy Home. Air that is supplied to a room needs a return pathway back to the air handler when the door is closed.
My Air Conditioner Isn't Cooling My House - 5 Amazing FixesAdam N' Julie Lewis
So you have changed your filter, cleaned your condenser fins of debris, and done the things everyone knows to do. Here are five simple home improvements that will make a HUGE difference.
If you want to break into the potentially lucrative rehabbing or real estate development business, the first thing you need to do is learn how to write a killer Scope of Work. The Scope of Work (SOW) document is the foundation of your rehab project. From budget considerations and preliminary walkthrough advice to a deconstructed sample Scope of Work, you’ll find everything you need to get started. It is the agreement between you and your contractor as to exactly what will happen in your rehab, and a good way to show potential investors and quality contractors that you mean business.
1. Blower Door Test Results
Client: Brenda Slomka
Location: 162 Pine Street, Kingston
Time: April 11th
, 2014.
Students: Derek Jordan, Derek Signore, Michael Clarke
What is a “Blower Door Test” and how does it work?
A “Blower Door Test” depressurizes a building resulting in
outside air streaming in through cracks and air gaps. It is an
extremely effective method for identifying major sources of
air leakage in a building. This is important, because inflowing
air from cracks must be heated to maintain the desired
building temperature. A large heat load results in high
heating cost. A blower door test is an essential part of an
energy audit to identify and quantify these leaks, for which
solutions can be designed.
April 11th
Test Results
The two most valuable pieces of data obtained from the April
11th
blower door test were the “ELA” and “ACH50” numbers.
ELA stands for “Equivalent Air Leakage”. Air leaks in a home
can be thought of as many tiny holes in your walls where
heat escapes and air penetrates. These holes have an area to
them: the larger the area, the larger the air leakage and heat
loss. An Equivalent Air Leakage (ELA) is like the area of a single hole, equivalent to all the tiny holes that contribute to
the air leakage of your home. The ELA of your home was found to be 205 in2.
Therefore, if all the air leakage in your
home was coming from a single source, it would be about a 14”x14” hole.
The next important piece of information obtained from the test is the ACH50 number. This value refers to an hourly rate
that the entire building volume is replaced by air from leaks (@50Pa of pressure). For example, a building with ACH50
value of ‘1’ has its entire volume of air is replaced by leaked air once per hour. After our measurements were taken and
calculations performed, your home was found to have an ACH50 of 6.75.
The following table should help to give a framework for understanding how “good” that number is, and how your home
compares to other buildings:
ACH50 Value Description of the building
10-20 Older homes, very leaky.
7-10 Average new home with some air sealing but no verification; quite leaky.
7 OK infiltration level; modestly leaky.
3-5 Good and achievable target for most new homes; Air tight.
3 and lower Extremely tight home excellent air sealing.
.6 Passive House Standard
Since your home was 6.75 ACH50, we would consider it between moderately and quite leaky. The value suggests there
are one or several significant sources of air leakage in the home. In the next section, we hope to describe them.
2. Areas of Leakage
Once the blower door was installed and running, we looked around the home for areas of air leakage. The list below
summarizes some of our observations:
• Some slight leakage was noticed around several first floor windows and the front door, but it was not significant.
• Upstairs, several slight leaks were noticed in the following places: “Attic hatch; corner of hall window; old light;
light in room at end of stairs.”
• The cat door to the basement had a significant force of inrushing air. The plastic flap was nearly 45 degrees from
horizontal, indicating a very significant force of inrushing air from the basement. We thus focused our efforts in
isolating the source of air leakage present within the basement.
The dryer exhaust line penetrated a wooden header beam
and was insulated with loose fiberglass insulation. Some
definite air leakage was felt entering the space from this
area.
There was a small gap between the foundation wall
and this floor joist, on the South end of the basement.
Slight air leakage was noticeable all along this gap.
The most significant source of air leakage was found to be around where a heating duct penetrated the North
facing basement wall. This duct is assumed to continue through to a crawlspace underneath the kitchen. Spray
foam had been improperly applied in an attempt to seal these penetrations. Of all the leaks identified in the
home, this were the most significant. It is likely that if this were sealed properly, there would be significantly less
air leakage from the basement. The other sources were noticeable, but this was absolutely glaring.
3. It would seem that this wall penetration specifically contributes a great deal to the area leakage from the basement, and
therefore the home. If only a single upgrade were undertaken, it is our recommendation to focus here.
The Crawlspace
The house has an addition, visible from the outside by its distinct blue paneling. It is assumed that there is a crawlspace
underneath this addition in which the heating duct runs. Given the force of air streaming in from around this heating
duct, it’s extremely likely that the crawlspace is improperly insulated. It was unfortunate that we did not investigate this
possibility on the day of the test, as we could have conclusively identified the root cause. Since there wasn’t access the
crawlspace from within the basement, we didn’t investigate further. It is likely that the entrance was from outside, and
had we been more thorough, we would have found it.
Recommendation: Properly insulate the crawlspace
From what we understand of the constriction of the home, the heating duct in question follows this path: It begins from
the furnace, runs along the basement ceiling, penetrates the North side wall, enters a crawlspace area, travels in this
area underneath the kitchen, finally delivering its heat to duct vents in the kitchen area.
If indeed the crawlspace is as described previously, then we put forward the following recommendation: Properly seal
the wall penetration with new spray foam. Insulate the foundation wall between the crawlspace and the basement with
XPS foam, perhaps 1”-2”. Where the crawlspace walls meet the floor, pack fiberglass batted insulation. The result would
be the total thermal separation of the crawlspace from the rest of the heated house. It this could be effectively
achieved, it would go a long way to reducing air leakage and heat loss from the home.
