What Is Carbon Monoxide?
Carbon monoxide is a colorless, odorless,
tasteless gas that is generated through incomplete combustion of fuel such as
natural gas, propane, heating oil, kerosene, coal, and charcoal, gasoline or
wood.
This incomplete combustion can occur in a variety of home appliances. The major
cause of high levels of carbon monoxide in the home is faulty ventilation of
furnaces, hot water heaters, fireplaces, cooking stoves, grills and kerosene
heaters. Other common sources are car exhausts, and gas or diesel powered
portable machines.
Faulty or improper ventilation of natural gas and fuel oil furnaces during the
cold winter months accounts for most carbon monoxide poisoning cases.
Correct operation of any fuel burning equipment requires two key conditions.
There must be:
* An adequate supply of air for complete combustion.
* Proper ventilation of fuel burning appliances through the chimney, vents or
duct to the outside.
How Carbon Monoxide Affects The Body
Hundreds of people die each year, and
thousands more require medical treatment, because of carbon monoxide poisoning
in their home. The human body depends on oxygen for the burning of fuel (food)
to provide the energy that allows cells to live and function. Oxygen makes up
approximately 21% of the atmosphere, and enters the lungs during breathing. In
the lungs it combines with a blood component called hemoglobin. When saturated
with oxygen, it is called oxyhemoglobin.
After being carried by the bloodstream to the cells of the body, oxyhemoglobin
releases oxygen to the body tissues. Carbon monoxide is dangerous because it
bonds much more tightly to the hemoglobin than does oxygen. Once hemoglobin
combines with carbon monoxide to form carboxyhemoglobin, its ability to combine
with oxygen is completely lost.
As more carboxyhemoglobin is formed, the amount of oxygen carried to the cells
and organs in the body decreases. Carbon monoxide starves the blood of oxygen,
literally causing the body to suffocate from the inside out. When the
carboxyhemoglobin concentration reaches a certain level, people get nauseous,
become unconscious, and ultimately die. How quickly symptoms appear depends
upon the concentration, or parts per million (ppm) of carbon monoxide in the
air and the duration of exposure. A person's size, age and general health are
also factors in how quickly effects of the gas will become evident.
Symptoms of Carbon Monoxide Poisoning
Carbon monoxide poisoning is often
confused with the flu. Children with carbon monoxide poisoning have mistakenly
been treated for indigestion. It is important that you discuss with all
family members the symptoms of carbon monoxide poisoning. Different carbon
monoxide concentrations and exposure times cause different symptoms.
EXTREME EXPOSURE: Unconsciousness, convulsions, cardio respiratory failure, and
death
MEDIUM EXPOSURE: Severe throbbing headache, drowsiness, confusion, vomiting,
and fast heart rate
MILD EXPOSURE: Slight headache, nausea, fatigue (often described as 'flu-like'
symptoms)
For most people, mild symptoms generally will be felt after several hours of
exposure of 100 ppm's of carbon monoxide.
Many reported cases of carbon monoxide poisoning indicate that while victims
are aware they are not well, they become so disoriented that they are unable to
save themselves by either exiting the building or calling for assistance.
Infants and children are especially vulnerable to carbon monoxide due to their
high metabolic rates. Because children use more oxygen faster than adults do,
deadly carbon monoxide gas accumulates in their bodies faster and can interfere
with oxygen supply to vital organs such as the brain and the heart. If
left unchecked, a child's exposure to carbon monoxide can lead to neurological
disorders, memory loss, personality changes and mild to severe forms of brain
damage.
Different Types Of Carbon Monoxide Detectors
As with smoke detectors, consumers should
avoid any brand that does not bear the mark of Underwriters Laboratories Inc.
and/or Underwriters' Laboratories of Canada. You should consider ease of
installation, the location of installation and the power source of an alarm
when choosing a plug-in, battery powered or hardwire model. Battery Backup-some
plug-in carbon monoxide alarm models have a back-up power source that allows
the unit to function in the event of a main line power failure. During a power
outage, people are likely to use alternate sources of power, light and heat
(e.g. kerosene heaters, gas-powered portable generators and fireplaces) which
may be out of tune and may produce deadly carbon monoxide gas.
There are three main types of technology
utilized in carbon monoxide detectors today: Chem-optical, Electrochemical, and
Semiconductor.
Chem-optical technology alarms are also
known as gel cell or biomimetic technology alarms. These alarms utilize a type
of sensor that mimics the response of hemoglobin, in the blood, to carbon
monoxide. Alarms using this kind of sensor are usually battery powered. One
main drawback that remains is that the sensor can non-reversibly accumulate
carbon monoxide and other contaminants over time, which can eventually lead to
false and/or nuisance alarms. Some chem-optical (gel cell) alarms on the market
today contain an expensive replacement battery and/or sensor, which must be
replaced periodically.
Electrochemical technology alarms are
usually battery powered and are much more complex than semiconductor. Platinum,
as a catalyst, and acid, as an electrolyte, break down carbon monoxide gas and
release electrons, which induce a small current and activate the alarm. This
type of sensor is very accurate in its initial calibrated state, but is
susceptible to contamination and swaying from its original set point over time
and exposure. The technology is very expensive to manufacture and will
typically have a limited lifetime of about 2-5 years. Some manufacturers'
models will require its battery and/or sensor to be changed periodically. Other
manufacturers' models have sealed housing that requires the entire unit to be
discarded once the battery power supply is depleted.
Semiconductor sensors are mechanically simple and are electronic in nature;
therefore they have a long life (typically 10 years) and are very reliable.
Current designs demonstrate excellent immunity to other gases that may be
present. Semiconductor sensors utilize a controlled quantity of tin dioxide as
a sensing element. The sensing material is heated by a small electric heating
element and carbon monoxide gas is catalytically broken down at the surface of
the sensing element. Electrons are released in this process and are absorbed by
the sensing element. This increase in charged particles lowers the resistance
of the sensor. In an alarm using semiconductor sensors, electronics are used to
measure the sensor resistance and from this to calculate the carbon monoxide
concentration.
What To Do In The Event Of An Alarm
You should consult their owner's manual
for a carbon monoxide alarm procedure. However, the following is a general
procedure:
If a carbon monoxide alarm sounds a low level warning or hazard level alarm,
you should leave your home immediately and call their local emergency service
or 911 for help. The Fire Service has the proper protective equipment and gas
meters to properly verify the alarm. A head count should be taken to
check that all persons are accounted for once outside in the fresh air. You
should not re-enter the home until it has been checked by the Fire Service and
aired out. Once the source of the problem has been identified the
appliance in question should be turned off and not used until the problem has
been corrected by a qualified technician or utility company.
Where To Install Carbon Monoxide
Detectors
Since oxygen and carbon monoxide are approximately the same density, they mix
equally well in air. Therefore most alarms measuring carbon monoxide can be
placed anywhere in a room. Carbon monoxide poisoning can happen anywhere
and at any time in your home. However, most carbon monoxide poisoning cases
occur while people are sleeping. For that reason it is recommended that
you install at least one carbon monoxide alarm with an audible alarm near the
sleeping areas. Install additional alarms on every level, especially where you
have appliances capable of producing carbon monoxide, to provide maximum protection.
REMEMBER - CARBON MONOXIDE IS
DEADLY
EARLY WARNING COULD SAVE YOUR LIFE
