Change your smoke alarm battery!

• [h=2]Save a Home: Save a Life: April 1st: Change your smoke alarm battery[/h]
  This is really important!
  
  
   
  
  
  As it was April 1st yesterday it's a good policy to change the battery in your smoke alarm. Many fire departments throughout Australia promote the changing of batteries on April 1st. Other promote it during the changing of the clocks for daylight saving time which is 5th of April.
  
  
   
  
  
  Working smoke alarms save lives.
  
  
  If you don't have hardwired smoke alarms a 10 year lithium battery alarm is a good idea. Legislation may require them, depending upon the age and use of your property.
  
  
   
  
  
  We have a combination of hardwired, lithium battery and photo electric smoke alarms throughout our own home, and in our rentals. Smoke alarms are there to wake you up, and we have an alarm in EVERY bedroom in EVERY home as well as in passage and living areas.
  
  
   
  
  
  Your local hardware stores have basic alarms for a few Dollars, but they also have the 10 lithium ones for around $40 and hardwired ones (sparkie required!) for the same price. I was in Bunnings yesterday and they have triple packs of Duracell batteries at the payment registers.
  
  
   
  
  
  The following is taken from the South Australian Municipal Fire Services web site:
  
  
  If you have any questions about smoke alarms please feel free to ask as my OH was a fire safety officer and he's the one who asked me to post this..
  
  
   
  
  
   
  
  
  Domestic Smoke Alarms
  
  
   
  
  
  General information
  
  
   
  
  
  Legislative requirements
  
  
   
  
  
  In South Australia, legislation is in place to make smoke alarms compulsory for all residential buildings.
  
  
  Home owners are required, by Regulation 76B under the Development Act, 1993, to install battery powered or hard-wired (240 volt mains powered) smoke alarms*.
  
  
  * Houses built since 1 January 1995 must be equipped with hard-wired smoke alarms. All other houses must be equipped with at least 9 volt battery powered smoke alarms. When a house with 9 volt battery powered smoke alarms is sold the new owner has six months to install alarms which are hard-wired to the 240 volt power supply or powered by 10 year life, non-replaceable, non-removable batteries.
  
  
  Penalties apply for non-compliance.
  
  
  Why Do You Need a Smoke Alarm?
  
  
   
  
  
  Smoke obscures vision and causes intense irritation to the eyes. This, combined with the effects of the poisons in the smoke, can cause disorientation, impaired judgement and panic reducing the victim's ability to find an exit.
  
  
  Most fire-related deaths result from the inhalation of toxic fire gases rather than from direct contact with flame or exposure to heat.
  
  
  Correctly located smoke alarms in your home give early warning of fire, providing you with the precious time which may be vital to your survival.
  
  
  Home Fire Escape Plan
  
  
   
  
  
  The installation of smoke alarms forms one part of a Home Fire Escape Plan. It is vitally important that every family has a complete Home Fire Escape Plan which is practised and understood by all occupants. Advice on the development of a Home Fire Escape Plan is available from the South Australian Metropolitan Fire Service (MFS) by telephoning 8204 3611 or visiting our website
  http://www.mfs.sa.gov.au
  .
  
  
  Types of Smoke Alarms
  
  
   
  
  
  Ionisation Smoke Alarms
  
  
   
  
  
  Ionisation Smoke Alarms detect small diameter smoke particles, the invisible products of combustion, and are most effective in the case of flaming fires. They are not suitable for locations affected by cooking, combustion heating appliances or open fires.
  
  
  Photo-Electric Smoke Alarms
  
  
   
  
  
  Photo-Electric Smoke Alarms detect larger smoke particles, the visible products of combustion, and are most effective in the case of smouldering fires. They are suitable for installation near kitchens or in areas containing combustion heaters or open fires.
  
  
  Best Protection
  
  
   
  
  
  Recent research indicates that photo-electric alarms provide the best detection across a range of fires.
  
  
  For homes which already have ionisation alarms, we recommend that they be supplemented with additional, interconnected photo-electric alarms. When existing ionisation alarms reach 10 years of age, they should be replaced with photo-electric alarms.
  
  
  The MFS recommends that the best protection is provided by photo-electric smoke alarms which are hard-wired to the 240 volt power supply and interconnected to give the earliest warning possible
  .
  
  
  Interconnectable Alarms
  
  
   
  
  
  Both the ionisation and the photo-electric types of smoke alarm are available as interconnectable alarms.
  Where two or more alarms are installed, the MFS recommends that they be interconnected
  .
  
  
  
  The interconnection of alarms ensures that, if one alarm detects smoke, all interconnected alarms will activate to sound the warning. Ensure that the alarms you purchase are capable of this function.
  
  
  Quality Assurance
  
  
   
  
  
  For assurance of quality in manufacture, the MFS recommends that you buy smoke alarms which comply with Australian Standard 3786. Look for 'AS 3786' and/or the Standards Australia 'five ticks' symbol on the packaging.
  
  
  Fire Detection Systems
  
  
   
  
  
  In a large domestic dwelling, it is advantageous to have the domestic fire alarms interfaced to a Residential Fire Alarm Indicator Panel. The occupants, and the Fire Service on their arrival, will then know exactly where the fire has been detected in the house.
  
  
  Residential Fire Alarm Indicator Panels are also an advantage in lodging houses, blocks of flats or apartments.
  
  
  Note: Residential alarms may only be used where the Building Code of Australia does not call for an Australian Standard 1670 system.
  
  
  Smoke Alarms for Impaired Persons
  
  
   
  
  
  For those who are deaf or hard of hearing, there are smoke alarm systems available that incorporate strobe lights and vibrating elements in addition to the audible alert signal.
  
  
  If you are dependent on others for movement (eg paraplegic), a smoke alarm system may be interfaced with equipment that will send a pre-recorded message or signal to the service provider so that the fire service and a designated carer can be immediately notified to respond.
  
  
  Power Supply Options
  
  
   
  
  
  Hard wired
  - 240 volt power supply with 9 volt battery backup
  
  
  Battery Operated
  - 9 volt battery with low power warning signal
  
  
  Lithium Battery
  - an alternative 9 volt, non replaceable, non removable battery system with extended life (typically 5-10 yrs)
  
  
  Interfaced with Domestic Security
  - 12 volt with battery backup to meet AS3786 Standards
  
  
  Installation
  
  
   
  
  
  Legislation requires that a qualified electrician install hard-wired (240 volt) smoke alarms.
  
  
  Battery-powered alarms may be installed by the householder, carefully following the manufacturer's instructions.
  
  
  Changing the Battery
  
  
   
  
  
  Change the battery once a year or if a 'battery low' warning 'beep' is emitted. Ensure that the appropriate battery is used for the smoke alarm you have installed. (Refer to the manufacturer's instructions.)
  
  
  It is strongly recommended that batteries are changed each year. An ideal time to do this is when you change your clocks back at the end of daylight saving.
  
  
  Change your clock; change your smoke alarm batteries
  .
  
  
  Mark it on your kitchen calendar.
  
  
  Remember
  : Hard-wired (240 volt) smoke alarms may also have backup batteries which must be changed regularly.
  
  
  Testing Smoke Alarms
  
  
   
  
  
  Press the test button once a month, and when you return from an extended absence, to ensure that the smoke alarm is working. Test the backup battery of a hard-wired (240 volt) alarm by isolating the power supply (main switch or circuit breaker) before pushing the test button.
  
  
  To test the alarms which are connected to a security system, refer to the owner instruction manual or follow the testing advice which is displayed on the control panel.
  
  
  Cleaning Smoke Alarms
  
  
   
  
  
  At least every six months, remove dust, lint or cobwebs from the outside of the alarm using the soft brush attachment of your vacuum cleaner or a soft bristle brush.
  
  
  Any other cleaning should be done in accordance with the manufacturer's instructions.
  
  
  Test the alarm after cleaning.
  
  
  Life Expectancy
  
  
   
  
  
  All smoke alarms have a recommended service life of 10 years under normal operating conditions (AS 3786) after which time the MFS strongly recommends they should be replaced with a hard wired (240v) photo-electric smoke alarm.
  
  
  Ionisation smoke alarms contain a minute particle of radioactive material. (Ionisation type smoke alarms can be identified by the black and yellow radiation symbol which appears on the smoke alarm casing.) An exemption under the Act permits up to two domestic ionisation smoke alarms to be disposed into domestic waste during any period of seven days. For more information go to the EPA website at:
  http://epa.dev.deh.sa.gov.au/smoke_alarm.html
  
  
  Old photo-electric smoke alarms (no radiation symbol) can be discarded with normal domestic rubbish.
  
  
  Location of Smoke Alarms
  
  
   
  
  
  If you have a passageway leading to the bedrooms
  , install the alarm at the end closer to the living area.
  
  
  If you sleep with your bedroom doors closed
  the MFS recommends additional alarms in the bedrooms, interconnected with those located in passageways and other parts of the dwelling, to ensure that you are alerted by the activation of any alarm.
  
  
  
  
   
  
  
  If there is no passageway
  but the bedrooms are accessed directly from the living area, install the alarm outside each bedroom 900mm from the doorway. For additional protection, also install alarms in each bedroom. Install them as close as practicable to the centre of the room and interconnect them with the alarms located in other parts of the dwelling. Consider the installation of photo-electric alarms in the living area to reduce the incidence of nuisance alarms.
  
  
  
  
   
  
  
  If there are bedrooms at both ends of the house
  install interconnected alarms in the passageway to each of these areas.
  
  
  
  
   
  
  
  In passageways, the installation point should be at the end closest to the living area and certainly before the first bedroom is reached so that when the alarm sounds, there will be sufficient time to allow evacuation by normal exit routes eg doors.
  
  
  If you have two or more storeys,
  smoke alarms should be installed on each level and the MFS recommends that they be interconnected.
  
  
  Upper Level:
  
  
  
  Lower Level:
  
  
  
  
  Dead Air Spaces
  
  
  Corners between walls, between a wall and ceiling and at the apex of a sloping ceiling contain dead air space which smoke may not readily penetrate.
  
  
  Alarms placed in these spaces may not activate.
  
  
  On a sloping ceiling
  the alarm should be installed between 500 and 1500mm down the slope from the apex.
  
  
  
  If a flat or sloping ceiling has closely spaced exposed beams
  the areas in between the beams should be considered as dead air space and the alarm should be attached to the bottom of a beam.
  
  
  
  Note:
  The MFS
  does not
  recommend side wall installation.
  
  
  Always Ensure That Smoke Alarms
  
  
  • Are not painted over - this may restrict the airflow into the alarm.
  • Are located where there are no continual drafts - dust or lint may cause the alarm to activate.
    
    
  • Are located away from the bathroom and laundry - steam may activate the alarm.
    
    
  • Are not disconnected from the electrical supply to overcome nuisance alarms from cooking or smoke from an open fire. Instead, seek advice from the MFS and install the appropriate type of alarm in the right place.
    
    
  • Are replaced within 10 years of installation. Check the manufacturer's instructions.
    
    

   

   
  Ducted Air Conditioning Systems
   
  The MFS recommends that factors such as ducted air conditioning systems may require additional interconnected smoke alarms to be installed.

   

   

   

   

   

   

I've moved this thread to a more popular section so it gets seen, as the OP has said April 1st here is 'Smoke Alarm Day', and as the TV ad says ''don't be a fool ,change your battery's''.

Cal x

Mine are mainly wired in - but they should still be tested.

Apart from anything else, if you don't change them they make horrible little chirping noises and 90% of the time it is 3am. Who wants to change them then?

Watch out I've seen most of the ones they sell at the supermarket contain radioactive materials. I bought these family friendly smoke alarms non radioactive ones from Bunnings.

Watch out I've seen most of the ones they sell at the supermarket contain radioactive materials. I bought these family friendly smoke alarms non radioactive ones from Bunnings.

The radioactive ones are harmless.

The small amount of radioactivity is required by ionisation smoke alarms for their operation. Ionisation smoke alarms respond to flaming fires quicker than photoelectric ones but photoelectric respond quicker to smouldering fires.

Here's some more info about the radioactive ones...

[h=1]Do Ionisation Smoke Detectors pose radiation danger?[/h]

Smoke detectors or Smoke alarms are important safety devices, because of their obvious potential to save lives and property. There are two types of smoke detector commonly available in many countries.

One type uses the radiation from a small amount of radioactive material to assist in the detection or presence of smoke particles. These "ion chamber smoke detectors" are popular, because they are low power, inexpensive and are sensitive to a wide range of fire conditions.

The other type of detector does not contain radioactive material; it uses a photoelectric sensor to detect the changes inside a sensing chamber, caused by smoke particles.

[h=2]Americium[/h]

The vital ingredient of ionisation smoke detectors or smoke alarms is a very small quantity (<35 kBq) of americium-241 (Am-241). This element was discovered in 1945 during the Manhattan Project in USA. The first sample of americium was produced by bombarding plutonium with neutrons in a nuclear reactor at the University of Chicago. Americium is a silvery metal, which tarnishes slowly in air and is soluble in acid. Its atomic number is 95. Its most stable isotope, Am-243, has a half-life of over 7500 years, although Am-241, with a half-life of 432 years, was the first isotope to be isolated.

Americium oxide, AmO2, was first offered for sale by the US Atomic Energy Commission in 1962 and the price of US$ 1500 per gram has remained virtually unchanged since. One gram of americium oxide provides enough active material for more than 5000 household smoke detectors.

Americium (in combination with beryllium) is also used as a neutron source in non-destructive testing of machinery and equipment, and as a thickness gauge in the glass industry. However, its most common application is as an ionisation source in smoke detectors, and most of the several kilograms of americium made each year is used in this way.

[h=2]Operation of Smoke Detectors[/h]Americium-241 emits alpha particles and low energy gamma rays. The alpha particles are absorbed within the detector, while most of the gamma rays escape harmlessly. The americium is present in oxide form in the detector.

• 60 keV, giving a dose at 1 metre of 0.0011 mSv/yr

The alpha particles emitted by the Am-241 collide with the oxygen and nitrogen in air in the detector's ionisation chamber to produce charged particles called ions. A low-level electric voltage applied across the chamber is used to collect these ions, causing a steady small electric current to flow between two electrodes. When smoke enters the space between the electrodes, the alpha radiation is absorbed by smoke particles. This causes the rate of ionisation of the air and therefore the electric current to fall, which sets off an alarm.

The alpha particles from the smoke detector do not themselves pose a health hazard, as they are absorbed in a few centimetres of air or by the structure of the detector.

The radiation dose to the occupants of a house from a domestic smoke detector is essentially zero, and in any case very much less than that from natural background radiation. The small amount of radioactive material that is used in these detectors is not a health hazard. On the other hand, the ability of domestic smoke detectors to save life and property has been demonstrated in many house fires.

Even swallowing the radioactive material from a smoke detector would not lead to significant internal absorption of Am-241, since the dioxide is insoluble. It will pass through the digestive tract, without delivering a significant radiation dose. (Americium-241 is however a potentially dangerous isotope if it is taken into the body in soluble form. It decays by both alpha activity and gamma emissions and it would concentrate in the skeleton.)