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Carbon Monoxide

What is Carbon Monoxide (CO)?
  • CO is a colorless, odorless, tasteless gas
  • It is a by-product of incomplete combustion (unburned fuel such as gas, oil,wood, etc.)
  • Low concentrations of CO can go undetected and can contribute to ongoing, unidentified illnesses. At high concentrations, it can be deadly
Why is it Dangerous?

If there is CO in the air you breath, it will enter your blood system the same way oxygen does, through your lungs. The CO displaces the oxygen in your blood, depriving your body of oxygen. When the CO displaces enough oxygen, you suffocate.

What are the Symptoms?

Continued exposure or high concentrations –

  • Confusion
  • Severe headaches
  • Cardiac problems
  • Breathing difficulties
  • Brain damage
  • Dizziness
  • Death

Long term exposure to low concentrations –

  • Slight headaches
  • Fatigue
  • Shortness of breath with only moderate exertion
  • Nausea
  • Dizziness and confusion
Why is it called "The Great Imitator"?
  • Symptoms of CO poisoning are very similar to the flu
  • Illness in your pets just preceding illness in a family member may suggest CO poisoning
Who is at Greater Risk?
  • Senior citizens
  • Unborn babies
  • People with respiratory or coronary problems
  • Infants
  • Pregnant women
  • Young children

Note: Vulnerable people who are exposed even to low levels of CO for long time periods may have similar health affects as those exposed to high concentrations of CO.

What can Produce CO in our Homes?

Anything that burns fuel or generates combustion gases including -

  • Gas Stoves
  • Fireplaces
  • Automobiles
  • Barbecues
  • Furnaces
  • Ranges
  • Boilers
  • Space heaters
  • Water heaters

Solid fuels, such as wood, always produce carbon monoxide when they are burned. Gas and liquid fuels may produce no CO or very little.

What are the most common sources of Carbon Monoxide?
  1. Automobile exhaust in attached garages.
    This is responsible for 60% of all CO alarms. People who warm their cars up in the garage are trapping CO inside the garage. The CO can find its way into the home.


  2. Gas cooking appliances
    Reported to account for 20% of CO alarms. May be a result of a misused, poorly maintained, poorly installed, or unvented cooking appliance.


    3.1 Poor draft/venting for fuel burning appliances – This is one of the most common and serious causes for CO build up and has been reported to account for up to 19% of CO alarms. The products of combustion are not being safely expelled to the exterior. This could be due to venting problems, such as blocked chimney flues or inadequate venting for appliances or fireplaces. Other problems include poor installation and negative air pressure in the house, causing backdrafting, often due to exhaust fans.



    Other problems include:

    3.2 Poor combustion at furnace - Inadequate combustion air to the furnace can result in incomplete combustion. If the furnace has a cracked heat exchanger, it is possible to get CO into the circulating air. It is also imperative that we do not deprive our heating equipment and fuel burning appliances of air; especially in air-tight homes where running exhaust fans can result in a shortage of combustion air. Combustion air is essential for safe operation of furnaces, water heaters, and other fuel burning equipment.



    3.3 Leakage – A leak in a chimney or flue pipe.

    3.4 Ventilation – Barbecues or gasoline powered equipment operating in a attached garage, basement, or enclosed area.
    Are there more problems with carbon monoxide today than 30 years ago?

    Yes, due to -
    More energy-efficient, air-tight homes
    Less natural ventilation

    How can I guard against carbon monoxide poisoning?

    The first line of defense is to have your home heating systems, fuel burning appliances, flues and chimneys checked and/or cleaned annually.

    Inspection checklist:

    Specialists should check for:
    Blocked openings to flues and chimneys
    Cracked,rusted,or disconnected flue pipes
    Dirty filters
    Rusted or cracked heat exchangers
    Soot or creosote build-up inside fireplaces and chimney flues
    Exhaust or gas odors.
    Attached garages require gas proofing and automatic closers for doors into the home
    Adequate combustion air
    Adequate venting on indoor combustion appliances (i.e-gas stoves)

    The second line of defense is a CO detector.

Carbon Monoxide Detectors

Background

New technology
Introduced in the early 1990’s
Designed to warn homeowners when CO reaches dangerous levels within the home

How do they work?

CO detectors sample the air at specific time intervals
A microchip inside the detector stores the reading and keeps track of the level of CO that the detector is exposed to over time

Types of sensors:

Residential
Biometric (Oldest type of sensor)
Metal Oxide Semi-conductor
Electrochemical (The best of the three types for a residential sensor)

Industrial
Infrared – Highly advanced, very expensive. Not something you would find at Home Depot.

The detectors are supposed to sound an alarm when exposed to a set level of CO (measured in parts per million) over a specific time period. These levels or standards are set by UL (Underwriters Laboratories).

Old Standard (Units manufactured between October 1, 1995 and October 1, 1998) - First Generation CO detectors

Exposure
CO (ppm)
Time
To a low level for a prolonged period of time
15
Alarm after 30 days
To a low level of CO for an extended period of time
100
Alarm within 90 minutes
To a moderate level of CO for a shorter period of time
200
Alarm within 35 minutes
To a high level of CO for a short period of time
400
Alarm within 15 minutes

New Standard (Units manufactured after October 1, 1998)

Exposure
CO (ppm)
Time
To a low level for a prolonged period of time
30
Alarm after 30 days
To a low level of CO for an extended period of time
70
Alarm within 189 minutes
To a moderate level of CO for a shorter period of time
150
Alarm within 50 minutes
To a high level of CO for a short period of time
400
Alarm within 15 minutes

The UL Standard was revised and any detector manufactured after October 1, 1998 must conform to the new Standard.

Also included in the new Standard is:
CO detector should ignore a CO level reading of 70 for at least 1 hour without alarming
CO detector should ignore a CO level reading of 150 for at least 10 minutes without alarming
Must only signal under alarm or trouble. No low-level warning signal is allowed
Must have a SILENCE button to shut it off. Must re-alarm after 6 minutes if CO levels persist
Must meet the specificity test referencing non-alarm status at specific concentrations of certain gases and vapors

To put levels into perspective:

CO Level (ppm) Health Effect
0 Desirable level
9 Maximum outdoor air quality level as per EPA
50 Maximum concentration for a continuous exposure in an 8-hour time period (OSHA standard)
400 Headaches in 1 to 2 hours, life threatening after 3 hours
800 Nausea and convulsions, death within 2 hours
1600 Nausea within 20 minutes, death within 1 hour
12,800 Death within 1 to 3 minutes

Note: These studies are generally done on young, healthy people. These symptoms can change drastically depending on age, sex, weight, habits (e.g.smoking), and most importantly, your health.

The Controversy

Reliability of the detectors

The Issue
CO detectors are supposed to alarm at certain levels as indicated in the tables above
Recent testing suggests that many of these devices are not nearly as reliable as they should be
CBC has provided television coverage that focused on false alarms and the reliability of CO detectors

Example
In 1994, Chicago was the first major city to make these detectors mandatory in the living space
In the last three months of 1994, the Chicago Fire Department responded to 8,600 CO alarms
In almost every case there was no dangerous level of CO found during follow-up investigations

Result
Laboratory testing was done
Up to 1/3 of the alarms tested, failed to alarm

Reasons

1. Technology
Technology for residential CO detectors is very primitive
Industrial detectors have a different set of standards and more sophisticated technology. As a result, they are very expensive
Different detectors have large variances on the levels at which they are supposed to alarm. The sensor technology used in home alarms is not designed to measure and display low level, short term concentrations of CO. Substantial differences exist in the sensitivity of different sensors at low levels. As a result, they may go off too soon or not soon enough.

2. Humidity
Standards require these devices to be tested at a humidity of 50%
Testing revealed that many devices failed to respond when humidity levels were low even though they are supposed to work within a large humidity range. See your CO detectors manual.
In Canada, humidity levels can fall well below 50% (in fact the humidity should not be higher than 40%) during the cold season when furnaces and other fuel burning appliances are in full operation

3. Effect of Other Gases and Vapors
Other gases such as Carbon Dioxide can also trigger a CO alarm. The UL 2034 Standard requires that CO alarms do not alarm when certain concentrations of other gases and vapors exist in the vicinity of a CO detector. The level for Carbon Dioxide in the old standard was low, which may have contributed to many false alarms with first generation CO detectors.

Conclusions

CO detectors are designed to protect the average healthy human from death or serious injury under the current standards; however –
People who are more susceptible cannot depend on these devices for total protection. In this case, more sensitive CO detecting equipment should be used.
Several groups are working with UL to improve the standards. October 99 revisions have already been drafted.
There is room for improvement by imposing stricter standards as well as technological development.
It is critical that people understand the dangers of CO and that the people who investigate it are properly trained and are using CO testing equipment properly.

Where to install a CO detector?

One or more CO detectors in accordance with the manufacturer’s recommendations. Usually one per floor.
Maintain and test regularly as instructed by the manufacturer.

Things to look for when buying a CO detector?

1) Type of sensor (electrochemical)
2) Certification-UL 2034
3) Conforms to new standard
4) IAS 6-96 is a supplementary standard to the UL 2034 which includes reliability testing. This standard may not be visible on the box.
5) Other considerations include digital display, sensor life, power source, and warranty.

How does all of this relate to your home inspection?

A home inspection may reveal a potential Carbon Monoxide source.

Common deficiencies found during inspections include:

Venting deficiencies
Damaged or rusted flue pipes
Dirty or blocked chimney flues
Cracked heat exchangers
Gas proofing deficiencies
Inadequate combustion air
Poorly installed equipment

Limitations –
Visual Inspection
Equipment available

There are other ways to test CO levels in a home. These tests go beyond the scope of a standard home inspection.

Line drawings are from the Carson Dunlop Home Inspection Training Program and Home Inspection Software Tool - Horizon