Smoke alarm facts:

Smoke alarms DO save lives!

96% of all U.S. homes have smoke alarms, but 20% of those homes don't have working alarms.

The fatality rate due to fire in homes with no working smoke alarm is twice as high as those with working alarms.

75% of all smoke alarm failures is due to missing or discharged batteries.

NFPA smoke alarm fact sheet »

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Smoke Alarms

A smoke detector is a device which senses smoke in the air, typically associated with a fire, and sends out an alarm warning. Residential smoke detectors can be a stand-alone smoke alarm, interconnected with other smoke alarms throughout the home or connected to the house alarm system which may include offsite monitoring.

Smoke alarmSmoke detectors and smoke alarms are proven life savers. There are more than 300,000 residential fires every year.  When there are functional smoke alarms in the house, families gain valuable time to escape. The US Consumer Product Safety Commission (CPSC) reports that fire is the second leading cause of unintentional death in the home. Each year, more than 3,700 people die in residential fires, and there are more than 400,000 residential fires serious enough to be called into fire departments. About 90 percent of U.S. households have smoke detectors installed. However, a CPSC survey found that the smoke detectors in 20 percent of those households – about 16 million – were not working, mostly because the battery was dead or missing. Approximately two-thirds of reported home fire related deaths between 2003 and 2006 occurred in homes with no working smoke alarms. Having properly installed and maintained smoke alarms can mean the difference between property damage and devastating loss of life in a residential fire.

Operation

The two most common types of residential smoke alarm detectors are ionization and photoelectric. Each of which has its advantages and disadvantages. Some models employ dual sensors to capitalize on the advantages of both technologies.

Ionization type smoke detectors are typically more responsive to flaming type fires which produce smaller particles in greater amounts. Ionization type smoke alarms have a small amount of radioactive material (Americium) between two electrically charged plates, which will ionize the air and causes current to flow between the plates. When smoke enters the chamber, it reduces the flow of current and activates the alarm.

Photoelectric type smoke detectors are generally more responsive to smoldering fires, which tend to produce larger particles in smaller numbers. Photoelectric type smoke detectors work. Photoelectric-type alarms aim a light source into a sensing chamber at an angle that does not strike the sensor. When smoke enters the chamber, particles reflect light onto the sensor which activates the alarm.

Home fires can be smoldering, slow starting fires, such as many electrical fires or hot flaming type, such as a space heater catching a curtain on fire. It is impossible to determine which type of fire you might experience. Given that each alarm type has an advantage at detecting a specific type of fire, for the best overall protection, we recommended both detector technologies (ionization and photoelectric) be used in the home. This can be achieved through the use of individual ionization and photoelectric alarms or dual technology alarms that combine both technologies in a single device. Some alarms also include carbon monoxide sensors, providing additional protection.

Hard-wired smoke alarms operate on your 120v household electrical system. They can be stand-alone or interconnected so that every alarm sounds together, giving all occupants of the home an early warning, regardless of what part of the home a fire occurs. There are now wireless alarms which enable older homes to have an interconnected alarm system, without the expanse of having to wire the house. Hard wired alarms should also have battery backup.

Interconnected smoke alarms

Installation and Placement

Smoke alarm locationsThe number and location of smoke alarms is also important to provide maximum safety to home occupants. The National Fire Protection Association (NFPA) has established guidelines for smoke alarm placement. These are requirements for new homes, but should be considered as a safety upgrade for older homes as, well.

  • Smoke alarms should be on every level of the home, including the basement;
  •  There should be a smoke alarm outside of each sleeping area;
  • New homes are required to have a smoke alarm in every sleeping room and all smoke alarms must be interconnected (consider upgrading older homes);
  • Smoke alarm placement
  • Mount smoke alarms high on walls or ceilings (remember: smoke rises). Alarms should be mounted at least four inches from the wall to ceiling corner and no more than 12 inches away from the ceiling;
  • If ceilings are pitched, the alarm should be installed within 12 inches of the highest point;
  • Smoke alarms should not be installed near windows, doors, or ducts where drafts might interfere with their operation. Avoid installing alarms in kitchens to reduce nuisance alarms; Never paint smoke alarms. Paint, stickers, or other decorations could keep the alarms from working.

Testing & Maintenance

Ensure that your smoke alarms are providing your family the protection that they need by regularly performing a few simple maintenance activities.

Monthly – (how to remember: do this the day you pay your rent or mortgage each month)

  • Test all of your smoke alarms using the method defined by the manufacturer. Reference your owners’ manual or download it from their website for specifics;

Semi-annually - (how to remember: do this at the spring and fall daylight savings time changeover)

  • 9 volt batteryCheck your batteries. If your units use 9 volt batteries, change them once that have been in service for a year or at the interval specified by the manufacturer (whichever is sooner). Keep track of the age by marking the battery with the date you install it. If you have a different type of battery (some units come with up to 10 year batteries), change them at the manufacturer specified interval.
  • While you’re checking your battery, check the age of the smoke detector itself. SMOKE DETECTORS DO NOT LAST FOREVER. You may think it just sits there idle, but it has been working 24x7 since the day it was installed. The radioactive element in ionization type detectors deteriorate over time and photoelectric detectors are dependent on an internal light that operates constantly. Smoke alarms should be replaced by the time they are 10 years old or by their expiration date (whichever is earlier). The detector should be stamped with a build or expiration date. Don’t be fooled by the test button; just because the test button works, doesn’t mean that an old unit will still detect smoke as it should.

Special challenges

Inaccessible alarms – Many newer homes have family rooms that are open to the second story. Smoke alarms in these rooms are often mounted where they are virtually inaccessible without a tall ladder or lift (remember that the alarm needs to be within 12 inches of the ceiling). These units almost never get regular battery changes or tested because the owner cannot safely reach them. This can be addressed with a new breed of smoke alarms which have long life (up to 10 year) batteries and can be tested with a TV remote control. Some also have indicator lights so that you can see that the unit is operating. If you are buying a new home with a high ceiling mounted alarm, you should insist that one of these units be installed.

Hearing impaired – Alarms are available with bright strobe visual indicators for home that have hearing impaired persons.

Don't stop yet

Don’t forget that your family home safety plan should also include carbon monoxide alarms, fire extinguishers and a family escape plan. We’ll cover these topics in other articles.

Additional information

Additional information may be found at these and many other online resources.

www.cpsc.gov/cpscpub/pubs/559.pdf www.firesafety.gov/
www.usfa.dhs.gov/campaigns/smokealarms/alarms/index.shtm
wikipedia.org/wiki/Smoke detector
www.nfpa.org/Information/For consumers/Fire & safety equipment
http://www.nfpa.org/assets/files/pdf/installationsurvey.pdf

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