Ductworks, Inc. and National Jewish Health Featured On FOX 31 / KDVR: Martino TV

Consumer advocate Tom Martino featured the Family Air Kit®, an allergen and mold Test Kit,  developed by National Jewish Health that tests for substances that can cause allergic and asthmatic reactions.

Tom Martino and  Paula Haddock interviewed Jeffery Nathanson, the Executive Director of Business Development and Eddy Frisk, of Ductworks, Inc. to discuss the benefits of the Family Air Kit®

The Family Air Kit® is a cost effective and accurate means of testing the indoor air quality of your home or business.   The Family Air Kit® tests the longitudinal effect of dust in the home.

Ductworks, Inc. and National Jewish Health provide a comprehensive approach to controlling symptoms for people who suffer from allergies and asthma.

Pigeon problems have devastating effects on the heating and cooling components and indoor air quality of a commercial facility.  Pigeon problems affect employees, maintenance personnel and potentially customers.

HVAC Systems Make Perfect Pigeon Coups

Unfortunately, rooftop heating and cooling units are a perfect place for pigeons to nest.  To seek shelter from the elements, pigeons typically enter air handler units through the fresh air intakes and build their nests within the HVAC unit.  A single pair of pigeons can generate up to 18 new pigeons per year.  Once a nest is established, pigeons are extremely territorial.

Indoor Air Quality

An HVAC system distributes the air throughout a facility.  The bacteria, fungi and parasites that live and grow in pigeon droppings can carry and transmit any of 60 known diseases.  Exposure to pigeon feces and other organic matter such as feathers carcasses and nesting material from the HVAC system may pose a considerable health threat to people who come in contact with them or inhale the airborne particles from them.  Every precaution should be taken to ensure that building occupants and maintenance personnel are protected from pigeon feces.

Damage to HVAC Systems

As pigeons live in the air handler units they peck through filter material allowing unfiltered air and pigeon contaminants to freely enter the ventilation system.  There are numerous damaging effects to an HVAC system.

• Filter banks: Pigeons peck though filter banks allowing for unfiltered air and pigeon contaminants to be drawn into HVAC components and supply air ducts.
• Fan Blower: Pigeon debris builds within the fan blades decreasing airflow.
• Air conditioner coils: Pigeon debris compacts within air conditioner coils and clogs the drain pan.
• Insulation: Pigeons peck at insulation to create nesting material allowing for raw fiberglass fibers to enter the airstream.

How Do You Correct Pigeon Problems?

Hire a professional wildlife service or animal control contractor to relocate existing pigeons, and install devices to prevent future intrusions.  Have the pigeon debris removed by a professional air duct cleaning contractor.  Be sure to have the air duct cleaning contractor inspect the supply air ducts downstream of the HVAC unit.

A clothes dryer works by forcing hot air through a turning drum. Wet clothes placed in the drum are then dried by the moving hot air. It is possible for a full load of wet clothes to contain as much as one and a half gallons of water from a typical load of laundry.  Lint is created from the clothes as the water is removed and the clothes dry.  Overtime as air passes through this exhaust line the lint collects in the screws, bends and elbows and walls of the air duct.

Inspect the Type of Air Duct Attached to the Dryer

Most manufacturers specify the use of a rigid or corrugated semi-rigid metal duct, which provides maximum airflow. Flexible plastic or foil type duct can more easily trap lint and is more susceptible to kinks or crushing, which can greatly reduce the airflow.  Replace plastic or foil, accordion-type ducting material with rigid or corrugated semi-rigid metal duct.

Fire Hazard

Clothes dryer fires account for about 15,600 structure fires, 15 deaths, and 400 injuries annually. Fires can occur when lint builds up in the dryer or in the exhaust duct. Lint can block the flow of air, cause excessive heat build-up, and result in a fire in some dryers.

Air Flow Restriction

New construction trends now situate wash­ers and dryers in nontraditional areas of the house, such as upstairs bedrooms, hallways, bathrooms, kitchens, and closets. These new sites generally require longer dryer vents, and a higher probability for air flow restriction.

Dryer Vent Maintenance and Safety Tips

Proper maintenance for clothes dryers involves removing the lint from the traps, vents, and surrounding areas of the dryer.

• Never operate your clothes dryer when you are not home or while you are sleeping.
• Clean your lint trap before or after every use.
• Install a proper screen to the outside exhaust to prevent animals from entering the dryer vent.
• Do not push your dryer too close to the wall as it may cause crimps or bends in the air duct.
• Periodically have the dryer vent professionally cleaned.

Evidence has shown that the air within homes and other buildings can be more seriously polluted than the outdoor air.  Several factors contribute to poor indoor air quality that can be easily controlled.  Follow these simple tips improve your indoor air.

Identify and Remove Pollutant Sources

The relative importance of any single source depends on how much of a given pollutant it emits and how hazardous those emissions are.  Educate yourself on the different types of biological, gas, or particulate pollutants that can potentially affect your indoor air quality and takes steps to remove them.  To have a greater understanding of potential indoor pollutants read “Understanding Indoor Air Pollutants“.

Improve Air Ventilation

If too little outdoor air enters a home, pollutants can accumulate to levels that can pose health and comfort problems.  Most home heating and cooling systems, including forced air heating systems, do not mechanically bring fresh air into the house.  When weather permits open windows to increase ventilation.  If you are intending to filter the outside air consider improving your heating and cooling system by having it modified to draw filtered outside air

Improve Filtration

There are many types and sizes of air filters and air cleaners on the market.   As air is circulated through a forced air ventilation system debris is trapped within the furnace filter. Use furnace filters with a MERV rating between 7 to 11, and change the filter every 2 months that the filter is in use.  If a standalone filtration device is used, use a device that has a high-circulation rate and highly efficient filter.

An air duct system is very efficient at spreading smoke.  When a fire occurs, the entire HVAC system will be contaminated, to a lesser or greater degree.  It is likely that the air duct system will distribute smoke damage well beyond the area of the fire.

Smoke Damage from an Active Air Duct System

Unfortunately, a forced air ventilation system is rather effective at spreading smoke damage.  Smoke is drawn into return air vents, through the furnace components, and distributed throughout the home or building through the supply air ducts.  If the HVAC system was operating at the time of fire, the return air side will be the most contaminated.

Passive Air Duct Smoke Damage

Even if the heating and ventilation system is not in use, there is a natural or passive air movement throughout the ventilation system.  If the air duct system wan not in operation during the fire, the return and supply air ducts closest to the fire will be the most contaminated.

Absorption of Odors

Smoke is naturally attracted to metal surfaces and is corrosive in nature.  As the smoke enters the air ducts it will cling to the steel, and will absorb into the debris within the air duct system.  A ventilation system has to be thoroughly cleaned in order to remove smoke damage.

Odor Oxidizer

After the ventilation system has been cleaned, an odor oxidizer is applied within the air ducts.  An odor oxidizer naturally breaks downs the odor causing chemicals of the smoke damage.

Encapsulation

In some instances of extreme smoke damage, air ducts will need to be encapsulated to remediate the smoke damage.  After the air ducts are cleaned, an encapsulates approved for use within HVAC systems is applied uniformly throughout the ventilation system.

Green air duct cleaners employ advanced methods and materials specifically for green cleaning.   They make an extra effort to not allow any dust to escape outdoors or indoors, and only use natural cleaning products.

Clean & Maintained Air Duct Cleaning Equipment

Green air duct cleaning companies ensure that equipment is cleaned and maintained to prevent introducing contaminants into the home or business.  HEPA vacuums require routine inspection to ensure that the filter is properly sealed and operating at peak performance.  HEPA filtered vacuums to prevent dust from being re-released into the air.

No Dust Escapes

No dust should enter your home or be released outside during the air duct cleaning process. Green air duct cleaning companies use source removal cleaning procedures to mechanically agitate and HEPA vacuum debris from the wall of the air ducts.

Green Cleaning Products

Cleaning solvents are needed to clean debris air vent vent registers and furnace components.  Only non-toxic, biodegradable, non-corrosive, non-flammable, environmentally safe cleaning products are to be used.

Limited Use of Sanitizers

Sanitizing agents should  ONLY be used if there is microbial problem. Any sanitizer used in the HVAC system must be specifically registered by the EPA or other applicable regulatory agency for the use in HVAC systems.

Never Use Scented Sprays

Green air duct cleaning companies never use scented spays within air ducts.  A proper cleaning of the air vents will remove the debris harboring the odor.  Scented sprays mask odors, and can potentially cause an adverse reaction to home or building occupants.

The greatest difficulty in solving indoor air quality problems is that effects on people can vary.  One of a pollutant can have a completely different effect on two different people.  While pollutants found in indoor air can be responsible for many harmful effects, there is considerable uncertainty as to what concentrations or periods of exposure are necessary cause specific health problems.

Immunocompromised Individuals

People who are immunocompromised have an immune system that is compromised or entirely absent.  Indoor air quality is of great concern to those who are immunuocomprimised, as their bodies are very vulnerable to opportunistic infections.

Hypersensitivity

Some people can become sensitized to biological & chemical pollutants after repeated or high level exposures. Effects may show up after a single exposure or repeated exposures.  Once sensitized to a pollutant, the individual can experience acute adverse reactions when they are exposed to that pollutant, even when the pollutant is at a lower level.

Age Makes a Difference

Children are sensitive to indoor air quality because they breathe faster than adults, inhaling up to 50% more air per pound of body weight than adults.  Elderly have a higher risk for cardiovascular, respiratory illness from fine particle pollutions.

Allergies & Asthma

Dust is a mixture of many substances. Its content may vary from home to home, but the most common allergy triggers such as mold spores, pollen, dust mites, can trigger allergy or asthma attacks.

Fortunately for most healthy people, the symptoms of air pollution exposure usually go away as soon as the air quality improves.  Good housekeeping and good maintenance of the heating and air conditioning equipment is the most important methods for controlling exposure to indoor air pollutants.

A host of different biological, gas, and particulate pollutants can affect the indoor air quality.  The types of contaminants and the amounts that are suspended in the air determine air quality.

Biological Air Pollutants

Biological pollutants are or were living organisms. While all of us are exposed to biological pollutants in one form or another, the effects on our health depend upon the type and amount of biological pollution and the individual person.  Two conditions are essential to support biological growth – nutrients and moisture.  Keeping an area clean and dry is the best method to prevent biological air pollutants.

Common biological air pollutants:

• Pet Hair & Pet Dander
• Mold
• Dust Mites
• Pollen
• Cockroach parts

Chemical & Gas Air Pollutants

Chemical and gas pollutants are the most hazardous of all air pollutants as they are often odorless, tasteless and invisible.  Ensuring proper exhaust, using building products with low levels of volatile organic compounds, and prohibiting smoking indoors are the best methods for preventing chemical and gas air pollutants.

Common chemical & gas pollutants:

• Carbon Monoxide
• Radon
• Smoke
• Building Materials with volatile organic compounds

Particulate Air Pollutants

Particulate air pollutants are particulates that have the ability to become air born when disrupted. The size of particles is directly linked to their potential for causing health problems. Particles that are 10 micrometers in diameter or smaller are of greatest concern because they can pass through the throat and nose and enter the lungs.  Good house keeping and construction containment practices are the best methods for lowering particulate air pollutants.

Common particulate air pollutants:

• Drywall
• Fiberglass
• Concrete
• Carpet fibers
• Sawdust

Air pathways are a key component of indoor air quality. Understanding and improving air pathways will greatly improve your indoor air quality.

Understanding Air Pathways

Air flow is created by pressure differentials.  Air flow always flows from higher relative pressure to lower relative pressure.  Air will flow through any available opening (pathway) in an attempt to equalize pressure.  Pathways include windows, doors, electrical outlets, floor drains, heating and cooling systems, and most importantly air ducts.

Air Pathways within a Home

A forced air system works by creating a difference in pressure between the area where the supply registers are located and the area where the returns are located.  As air moves from supply diffuser to return air grill, it is diverted or obstructed by partitions, creating pathways of air movement throughout the home.

How do Air Pathways affect a Home?

Pathways can change from one minute to the next – Opened windows, an exhaust fan, open/closed doors etc… Unintended pathways need to be acknowledged to have a comprehensive understanding of a homes airflow patterns.

Improving Air Pathways

Air ducts are the pathways for energy efficient homes.  With a couple of simple steps you can improve your air pathways.

• Seal the air ducts to prevent costly, conditioned air flow from being drawn from or escape into unknown, unspecified, or unintended areas of the home.
• Filter the air by changing the furnace or air conditioning air filter.
• Make sure that air ducts are not blocked by interior furnishings that prevent their designed use.
• Have the air ducts cleaned to prevent obstructions in air flow.
• Use bathroom exhaust fans when using the shower to exhaust moisture.
• Use kitchen exhaust fans when cooking to exhaust fumes from cooking.
• Have your HVAC technician inspect exhaust flues when they perform annual HVAC inspections to ensure carbon monoxide is properly exhausted.

Several factors contribute to poor indoor air quality that can be easily controlled. Air pressurization greatly affects the indoor air quality of a home or building.

Pressurization

Air flow is created by pressure differentials.  Air flow always flows from higher relative pressure to lower relative pressure.  If more air is supplied to a room than exhausted, the excess air leaks out of the space and the room is said to be under Positive Pressure.  If less air is supplied than exhausted, air is pulled into the space and the room is said to be under Negative Pressure.

Positive Pressure

If a home or building has too much positive air pressure, it will allow for conditioned air to escape the home causing costly energy concerns.

Negative Pressure

Negatively pressurized homes allow for unconditioned and unfiltered air to be drawn within the home or building.  Debris will enter through cracks and crevices, opened doors, windows, etc…

What’s the Ideal Air Pressurization?

It is ideal to achieve neutral to slightly positive air pressurization.  Though there is a slight loss of conditioned air, a slightly positive pressured home will provide comfort and prevent outdoor contaminants from entering the home or building.

ASHRAE Standard 62.1 “Ventilation for Acceptable Indoor Air Quality” requires proper ventilation and a slightly positive pressurization of buildings. Maintaining a small positive air pressure, relative to the outdoors, limits the entrance of outdoor moisture and is a very common strategy to prevent mold and mildew formation in a building.

How Can You Monitor or Control Air Pressurization?

Air pressure can be monitored through an energy auditor.  An energy auditor will use of a blower door & smoke test to determine the location of air leaks.  After the test is performed steps can be made to improve air pressurization.