air pressures and air flows in homes - energy · 4. building enclosure air-tightness (durability...
TRANSCRIPT
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Air Pressures and Air Flows in Homes:
Causes and Effects
Richard Stone, Extension Educator in Housing Technology
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NASA Photo
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The planet Earth is a System Its performance is governed by rules we know as Physical Laws and Effects
NASA Photo
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MOISTURE
SPECIFIC HUMIDITY
MASS
ENERGY
PRESSURE
TEMPERATURE
DEW POINT
EQUILIBRIUM FLOW We should understand a few of these
Physical Laws define our understanding of how things work
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is a result of the earth’s rotation Equatorial regions move faster than polar regions as the earth turns
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It is why tropical storms rotate counter-clockwise in the Northern Hemisphere
The resulting Coriolis force drives the rotation of air masses
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L
It is why tropical storms rotate clockwise in the Southern Hemisphere
Tropical storms are LOW pressure systems.
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Interactions between HIGHs and LOWs are one driver of Weather Systems on Earth
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L H Rotation in Southern Hemisphere
HIGH pressure systems rotate in the opposite direction.
Source: High and Low Pressure Systems http://www.bom.gov.au/lam/Students_Teachers/pressure.shtml © Commonwealth of Australia, Bureau of Meteorology
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Wind is Air Flow around and between Pressure Systems Wind velocity is determined by Pressure Differences
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H L Rotation in Northern Hemisphere
Source: High and Low Pressure Systems http://www.bom.gov.au/lam/Students_Teachers/pressure.shtml © Commonwealth of Australia, Bureau of Meteorology
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Homes are built on the planet Earth They are subject to the same physical laws and effects
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Our homes have become a Complex set of Systems with many system actions and system interactions
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Conditions inside the Home are managed by Mechanical Systems Their performance is determined by many design, installation, and operational decisions
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HOW DO WE MANAGE THE DECISIONS?
What are the Guiding Principles?
• Plan systems and changes to the home to ensure safety. • Design, construct, and maintain homes for durability. • Operate homes for health and comfort.
Here is the Priority List: 1. Combustion Safety - including attached garages (safety and health) 2. Ventilation and Indoor Environmental Quality (health and durability) 3. Water and Moisture Vapor Management (health and durability) 4. Building Enclosure Air-tightness (durability and comfort) 5. Insulation and Windows (comfort and energy efficiency) 6. Heating and Air Conditioning Design (comfort and energy efficiency)
Priorities are Listed In Order of Importance! Apply the Priorities to Each Planned Change
SAFETY + HEALTH + DURABILITY + COMFORT + ENERGY EFFICIENCY
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HEAT AIR
MOISTURE
Building Science focuses on Relationships between These Three They are at the center of our understanding of Building Performance
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MOISTURE AIR HEAT
Easier to remember as the Building Science “HAM” Sandwich
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Air is at the Center of the Sandwich Because it is at the center of so many relationships with Heat and Moisture
Source: Air Smart © University of Minnesota Extension
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Buildings can be Tested to Measure Performance The digital manometer measures pressure differences
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The Blower Door is used to measure air leakage The combined size of leakage pathways can be determined
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Thermal Imaging Cameras are often used with a Blower Door Leakage pathways can be identified by observing surface temperature changes
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The Effect of Wind across a Home causes Pressure Differentials Holes in the building enclosure allow air to move in and out of a home
Source: Air Smart © University of Minnesota Extension
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Air In = Air Out Air entering the home is called Infiltration. Air leaving the home is called Exfiltration
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Not all Homes are Built to the Same Performance Standards The amount of air leaking through a building varies between homes
Source: Air Smart © University of Minnesota Extension
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Evidence of Infiltration from Outside Dirt has been “filtered” out by the insulation as outside air leaked through the walls
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Evidence of Infiltration from an Attached Garage Combustion particulates have been “filtered” out by the insulation at leakage locations
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Air Leakage carries Heat and Moisture into Building Cavities The effects are most obvious along leakage pathways
Source: Air Smart © University of Minnesota Extension
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This Damage was found in a 7 year old Home Warm, moist air entered the wall cavity at the gap around the electrical box
William Angell Photo
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Air Leakage Pathways need an Opening at Each End Moist air entered the wall cavity from inside and moved toward the opening that was just sealed
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Massive Warm, Moist Air Leakage =Massive Moisture Damage The frame and sheathing have been almost completely lost to decay in less than 10 years
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Homes need a Continuous Pressure Boundary (The Air Barrier) In Cold Climates, the Air Barrier is in contact with the Inside Surface of the Insulation
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This Air Barrier and Insulation are not in proper alignment This could compromise both Thermal and Pressure Boundary performance
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Keep Insulation and Air Barrier behind the interior framed wall The sealing details are easier if done before adding the interior framing
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Or, Insulate All Framed Cavities and then add the Air Barrier Blocking could be added to keep air from moving freely through the entire Wall Assembly
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When boundaries are NOT aligned at the Ceiling/Attic Interface a Leaky Ceiling may cause the Roof Deck to become the Pressure Boundary
Joe Nagan Photo
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Escaping Warm, Moist Air causes Damage to the Structure Melting frost causes wood decay inside and Ice Dams cause roof damage outside
Joe Nagan Photo
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It’s Not Just Older Homes that have this Problem This 2 year old home appears to have Thermal/Pressure misalignment issues
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This wall and band joist have been installed correctly Polyethylene sheeting, foil faced rigid insulation, and acoustical sealant have been used
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An alternative to using poly is the Airtight Drywall Approach Closed cell foam gaskets are installed behind the drywall at the pressure boundaries
Terry Lenhart Photo
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Closed cell sprayed foam has been used at the band joist areas Gaskets have been used at floors, ceilings, windows, and penetrations
Terry Lenhart Photo
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The Drywall, Gaskets, and Drywall Taping provide the Air Barrier Vapor Diffusion Retarder paint provides the Vapor Retarder part of the system
Terry Lenhart Photo
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Window
Foamed Air Seal
Framing
Gasket
Drywall
Vapor Diffusion Retarder Paint
All these details create an effective, continuous Air Barrier VDR paint allows more vapor diffusion than well sealed polyethylene sheeting
Terry Lenhart Photo
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Warmed Air Rising causes Stack Effect in Buildings Temperature Differential and Building Height are factors in the strength of the force
Source: Air Smart © University of Minnesota Extension
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Warmed Air is Less Dense than the Surrounding Cooler Air The increased buoyancy of the warm air causes the balloon to rise into the sky
Source: Air Smart © University of Minnesota Extension
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Buildings are too heavy to rise like balloons Warmed air rises to the pressure boundary at the ceiling or roof of a home
Source: Air Smart © University of Minnesota Extension
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Pressure is Most Positive at the Top – Most Negative at the Bottom Where Negative Pressure meets Positive Pressure is called the Neutral Pressure Plane.
Source: Air Smart © University of Minnesota Extension
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The Neutral Pressure Plane can be seen on this Paneled Ceiling Infiltration (cold) is below the window head. Exfiltration (warm) is seen above that level
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An Air Barrier was Obviously NOT Present in that Paneled Ceiling If an Air Barrier had been installed, the Infiltration and Exfiltration Flows could not occur
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Air Barrier Details at the Ceiling are Critically Important Air Leakage at the top of the house creates a significant durability risk for the building
Source: Air Smart © University of Minnesota Extension
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The Poly in this Two-Story Home has Torn Loose at the Top Plate Temperature differential and height created the force that caused this to happen
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Common Air Leakage Pathways into the Attic Most trades are represented by some type of bypass shown here
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As Found condition noticed in the first walk-through of new home appears to be caused by rising warmed air. No lights are heating the opposite side of the wall.
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In the Attic, the Top Plate looked Similar to this Multiple holes for AV cable had been drilled by the owner after the builder air-sealed the attic
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Oversize Openings are often cut for Plumbing and Ductwork Holes closer to the actual duct or pipe size are easier to air-seal
Joe Nagan Photo
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Evidence of Exfiltration Insulation batt has filtered dirt from warmed air escaping into the attic
Joe Nagan Photo
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Air escaping into the Attic from below is Warm and Moist Frost is formed as the moisture condenses on the roof deck and keeps lumber wet
Joe Nagan Photo
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The Air-Sealing at this Corner was Almost Finished Right Sealant was stopped short of the corner and the tape was not well fitted
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When Viewed using a Thermal Imaging Camera Blower Door depressurization shows leakage between walls and attic at that corner
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Polyethylene, Acoustical Sealant, Tape, and Foam This corner is completely detailed to prevent air leakage into the attic
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A Big Bypass that is Difficult. . .and Frequently made More Difficult Plywood blocking had been removed instead of cutting a round hole to fit
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By Using a Lot of Foam and Extra Time This big opening to the attic was effectively sealed after adding insulation below the plenum.
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Bypasses at the Top Should be Handled First, but large openings at the bottom could be allowing soil gases including moisture to enter the home
Source: Air Smart © University of Minnesota Extension
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Openings in the Slab for Bathtub plumbing are Oversized Closed cell foam is water resistant and provides effective air-sealing
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Measure Twice and Seal Once to Keep Soil Gas Out This large opening to moist soil is almost never properly blocked and sealed
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The Sump Crock often contains Standing Water The drain tile under the basement slab is not a good “make-up air” source for the home
Joe Nagan Photo
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Install a Sealed Sump Lid with Gaskets at the Pipes This sump crock and drain tile are vented by the active radon mitigation system
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Open Gaps around the Basement Slab Perimeter add up to a lot of square inches of opening for soil gas and moisture to enter the home
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Spray installed Closed Cell Foam seals gaps and Insulates Framing is held back at least one inch from foundation walls
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Rim Joist Insulation and Air-Sealing Can be a Challenge Air Leakage and Condensation are common issues
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Spray installed Closed Cell Foam in Rim Joist Locations Air-sealing and insulation are completed in one application
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Infiltration between Bottom Plate and Floor Sealant at this location could have eliminated the leakage
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Chimneys Act as Large Exhaust Fans Combined with mechanical exhaust appliances, the total air volume adds up quickly
Source: Air Smart © University of Minnesota Extension
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Most Homes have Several Mechanical Exhaust Systems In addition to those shown, most homes have bath fans and some have central vacuum systems
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Combustion Appliance Drafts can be Measured Test Natural Draft Equipment at Worst Case Depressurization for Occupant Safety
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Exhaust Fan Flow can be Measured Test equipment to assure that it is performing as designed
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Combined Wind, Stack, and Mechanical Forces are Dynamic Wind shifts, temperatures change, and equipment is cycled on or off
Source: Air Smart © University of Minnesota Extension
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The Neutral Pressure Plane moves as the Forces Change The greatest forces are still seen at the top and bottom in most conditions
Source: Air Smart © University of Minnesota Extension
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Leaks in Return Side Ductwork in Basements A pressure imbalance between floors can cause backdrafting of combustion equipment
Source: Air Smart © University of Minnesota Extension
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Evidence of Backdrafting Combustion particulates collecting around the vent
Joe Nagan Photo
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Evidence of Extreme Sudden Depressurization Flame Roll-Out of a combustion appliance is extremely dangerous
Joe Nagan Photo
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Leaks in Return Side Ductwork in Basements Adding to the negative pressure can increase the amount of soil gas infiltration
Source: Air Smart © University of Minnesota Extension
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Zone 1 Highest Potential
Zone 2 Moderate Potential
Source: United States Environmental Protection Agency
Minnesota Radon Zones Testing can only be accomplished after the home is completed and in final operating condition
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One in Three Minnesota Homes has High Radon Levels Source: Radon: keeping your home safe from radon www.health.state.mn.us/divs/eh/indoorair/radon/radonconbrochure.pdf
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Radon System Diagram Pipes inside the home should be under a negative pressure
Source: Building Radon Out -United States Environmental Protection Agency
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Leaky Ductwork Creates a Pressure Imbalance Leaks concealed in floor systems can force conditioned air through unsealed gaps to the outside
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Plenum Leaks Pressurize or Depressurize Basements or Attics Building durability and occupant safety are put at risk
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Which Gap was Sealed? Which Gap was Missed? Not my Job?
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Transite Duct Systems are installed Under Slabs Leaks allow air to escape or draw in pollutants and water from the soil
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Flexible Mastic is the Most Effective way to Seal Ductwork Proper sizing for rooms also assures improved pressure balance through the home
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Sealing Seams Protects the Home and its Occupants Leakage in ductwork prevents the system from performing as designed
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Joe Nagan Photo
Balanced Whole House Ventilation Systems Provide heat or energy recovery and filtration when properly installed and maintained
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Exhaust Fan Efficiency More planning can deliver improved efficiency at a lower operating cost
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Moisture and Pollutants should be Exhausted to the Outdoors This is creating a pressure imbalance and adding moisture and pollutants to the attic
Todd Owens Photo
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Joe Nagan Photo
Efficient Ductwork is Short, Straight, and Smooth Properly designed and installed ductwork helps keep things in balance
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Demonstrating Pressure Differences in Homes:
Can Closing a Bedroom Door Push a Fragile House “Over the Cliff” ?
Richard Stone, Extension Educator in Housing Technology
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Uncontrolled Air Pressures and Air Flows Contribute to Familiar Problems in Homes
• Ice dams and water damage
• Mold and decay caused by trapped moisture
• Frost and moisture damage in attics
Photo Credit: Joe Nagan
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Think of the House as a System Actually, a set of complex systems and system interactions
• Central heating and cooling equipment
• Distribution systems for air, water, and electricity
• Insulation for comfort and energy savings
• Air sealing and vapor management for durability and comfort
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The Story of the Little Bungalow where . . .
. . . a family unknowingly changed the pressure balance and created a dangerous condition
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Understanding System Interactions is Critical Features of this Compact Bungalow include:
• A simplified heating distribution system
• Warm air supply ducts to the bedrooms
• Central cold air return in the living room
• Wood-burning fireplace in the living room
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After Using the Fireplace in the Evening
Some family members experienced mild headaches with flu-like symptoms the next morning
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Set up for the Incident How Many Air Pressure and Air Flow System Inputs ?
• Central heating system running
• Fire in the fireplace allowed to burn out at bedtime
• Bedroom doors closed
• Bedroom windows opened slightly for fresh air
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What Happened Next
Family was hospitalized for carbon monoxide poisoning
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How Could That All Happen ?
Using the NRCERT House of Pressure to recreate the incident
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Setting Up the Simulation Starting conditions and changes made are the Same as in the Real House
• Heating distribution system is running
• Bedroom doors are open and bedroom windows are closed
• Fireplace is in use • Pressures are graphed while recreating the steps taken by the family
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1. Close Bedroom 1 Door
• Pressurizes bedroom 1
• Depressurizes living room
• Fireplace backdrafts
• Combustion gases drawn into cold air return
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Taking the First Step “Over the Cliff”
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Fireplace is now Backdrafting
Combustion gases are drawn into the living room instead of exhausting up the chimney
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2. Close Bedroom 2 Door
• Pressurizes bedroom 2
• Living room depressurizes further
• Fireplace continues backdrafting
• Combustion gases continue entering the cold air return
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Stepping Further “Over the Cliff”
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3. Open Bedroom 1 Window
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A Little Fresh Air is Always Good, Right ?
• Bedroom 1 returns to zero relative to outdoor air pressure
• Living room depressurizes even further
• Fireplace continues backdrafting
• Combustion gases continue entering the cold air return
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4. Open Bedroom 2 Window
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More Fresh Air Should be Better, shouldn’t it?
• Bedroom 2 returns to zero relative to outdoor air pressure
• Living room depressurizes even further
• Fireplace continues backdrafting
• Combustion gases continue entering the cold air return
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5. Open Passive Return Connects Bedroom 1 and Living Room
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• Bedroom 1 remains at zero relative to outdoor air pressure
• Reduces level of living room depressurization
• Fireplace continues backdrafting
• House is moving back toward proper pressure balance
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6. Open Bedroom 2 Door Has the Same Result as a Passive Return Between Bedroom 2 and the Living Room
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• Bedroom 2 remains at zero relative to outdoor air pressure
• Living room returns to zero relative to outdoor air pressure
• Fireplace draft is restored to safe operation
• House is restored to proper pressure balance
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The Lesson Existing Conditions in a House can make it Fragile and Easy to Push “Over the Cliff”
• This little house was fragile and ready for a performance failure
• Closing doors was enough to take the house “over the cliff”
• Opening the bedroom windows for fresh air made things worse
• A solution for problem is already known and used in homes
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More About the Solution Installing Passive Returns is Simple and Inexpensive
• Pressure differences between rooms can be measured by testing
• Pressure differences that are identified can be managed
• Passive returns are already used in homes
• Performance testing of homes is relatively inexpensive
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Teaching the Value of Testing Homes Classroom Simulation Tools Demonstrate Real Conditions
• The House of Pressure was developed by Anthony Cox
• Versatile tool can simulate many conditions
• Visual demonstration of pressure differences and air flows
• Understanding gained can be applied in real homes
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© 2013 Regents of the University of Minnesota. All rights reserved. The University of Minnesota is an equal opportunity educator and employer. In accordance with the Americans with Disabilities Act, this PowerPoint is available in alternative formats upon request. Direct requests to the Extension Store at 800-876-8636.
Photo and Graphics Sources Slides 1,2 Photos by NASA Slides 7,8 Graphics from High and Low Pressure Systems http://www.bom.gov.au/lam/Students_Teachers/pressure.shtml Slides 15,19,21,24,40,41,42,43,46,59,69,70,73,74,75,78 Graphics from Air Smart, University of MN Extension Slides 20,28,48 Graphics from Cold Climate Information Center, University of MN Extension Slide 25 Photo by William Angell Slides 32,33,51,52,53,62,76,77,88,91 Photos by Joe Nagan Slides 36,37,38,39 Photos by Terry Lenhart Slide 79 Graphic from U.S. Environmental Protection Agency Slide 80 Graphics from MN Department of Health Radon Pamphlet Slide 81 Graphic from Building Radon Out / EPA Slide 90 Photo by Todd Owens
Thank You
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