Below you will find links to information and documents that may assist you in the conduct of your inspections. If you have documentary or other resources that you believe may assist your fellow FPOs, please send them to us at firstname.lastname@example.org.
Recently, I have been looking more and more towards inspection practises in other Provinces and Countries to assist me in evaluating buildings. Although many do not have a direct relationship to our activities here in Ontario, many do have well defined practises or assessment tools that I have found helpful in evaluating fire safety in buildings.
Quebec’s Public Security Ministry has many documents related to their fire safety practises, including assessment documents for dealing with homes for aged. The documents are for the most part in French only. Website
In the UK, the Ministry that supports the fire services has prepared a number of documents detailling how to conduct risk assessments for a variety of occupancy types, residential care facilities being one of them. What I like about these documents is that in Part 2 of the document, they provide a clear definition with diagrams for a lot of commonly misunderstood terms, such as horizontal evacuation, areas of refuge, travel distance and how to measure it, what consitutes an alternative exit, etc. I recommend it as an excellent primer for anyone in fire protection. Website
Asia Pacific Fire Magazine has a great number of public access articles available on the subject of fire protection. Website
BLUE MOUNTAINS FSC DECISION
Fire Safety Commission Decision – 2011A012-177
The attached decision is one that was recently awarded and relates to the appropriate and fire safe use of a residential property. The names and locations have been removed, but the process and assessment may be of some value to other Fire Prevention Officers and owners encountering similar circumstances. It and other Decisions we recieve will be made accessible to you in the Fire Inspections area of the site.
To read the full decision, please click here.
Chimney Fire Safety – If you have a fireplace in your home, you should read this article. Remember, clean chimneys don’t catch fire.
The following tips are designed to help keep you aware of the potential danger of chimney fires, and how to detect and avoid them.
As you snuggle in front of a cozy fire or bask in the warmth of your wood stove, you are taking part in a ritual of comfort and enjoyment handed down through the centuries. The last thing you are likely to be thinking about is the condition of your chimney. However, if you don’t give some thought to it before you light those winter fires, your enjoyment may be very short-lived. Why? Dirty chimneys can cause chimney fires, which damage structures, destroy homes and injure or kill people.
Chimney fires can burn explosively – noisy and dramatic enough to be detected by neighbours or passers-by. Flames or dense smoke may shoot from the top of the chimney. Homeowners report being startled by a low rumbling sound that reminds them of a freight train or a low flying airplane. However, those are only the chimney fires you know about. Some are less obvious. Slow-burning chimney fires don’t get enough air or have enough fuel to be as dramatic or visible. But, the temperatures they reach are very high and can cause as much damage to the chimney structure – and nearby combustible parts of the house – as their more spectacular cousins. With proper chimney system care, chimney fires are entirely preventable.
Creosote / Chimney Fires: What You Must Know
Fireplaces and wood stoves are designed to safely contain wood-fuelled fires, while providing heat for a home. The chimneys that serve them have the job of expelling the by-products of combustion – the substances given off when wood burns.
As these substances exit the fireplace or wood stove, and flow up into the relatively cooler chimney, condensation occurs. The resulting residue that sticks to the inner walls of the chimney is called creosote. Creosote is black or brown in appearance. It can be crusty and flaky … tar-like, drippy and sticky … or shiny and hardened. Often, all forms will occur in one chimney system.
Whatever form it takes, creosote is highly combustible. If it builds up in sufficient quantities – and catches fire inside the chimney flue – the result will be a chimney fire. Although any amount of creosote can burn, there is cause for concern when creosote builds up in sufficient quantities to sustain a long, hot, destructive chimney fire.
Certain conditions encourage the build-up of creosote: restricted air supply, unseasoned wood, and cooler-than-normal chimney temperatures are all factors that can accelerate the build-up of creosote on chimney flue walls.
Air supply: The air supply on fireplaces may be restricted by closed glass doors or by failure to open the damper wide enough to move heated smoke up the chimney rapidly (the longer the smoke’s “residence time” in the flue, the more likely is it that creosote will form). A wood stove’s air supply can be limited by closing down the stove damper or air inlets too soon and too much, and by improperly using the stovepipe damper to restrict air movement.
Burning unseasoned firewood: Because so much energy is used initially just to drive off the water trapped in the cells of the logs – burning green wood keeps the resulting smoke cooler, as it moves through the system than if dried, seasoned wood is used.
Cool flue temperatures: In the case of wood stoves, fully-packed loads of wood (that give large cool fires and eight or 10 hour burn times) contribute to creosote build-up. Condensation of the unburned by-products of combustion also occurs more rapidly in an exterior chimney, for example, than in a chimney that runs through the centre of a house and exposes only the upper reaches of the flue to the elements.
How Chimney Fires Damage Chimneys
When chimney fires occur in masonry chimneys – whether the flues are an older, unlined type or are tile lined to meet current safety codes – the high temperatures at which they burn (around 2000 F) can “melt” mortar, crack tiles, cause liners to collapse and damage the outer masonry material. Most often, tiles crack and mortar is displaced, which provides a pathway for flames to reach the combustible wood frame of the house. One chimney fire may not harm a home. A second can burn it down. Enough heat can also conduct through a perfectly sound chimney to ignite nearby combustibles.
Pre-fabricated, factory-built, metal chimneys. To be installed in most jurisdictions in Canada, factory-built, metal chimneys that are designed to vent wood burning stoves or pre-fabricated metal fireplaces must pass special tests determined by Underwriter’s Laboratories of Canada (ULC). Under chimney fire conditions, damage to these systems still may occur, usually in the form of buckled or warped seams and joints on the inner liner. When pre-fabricated, factory-built metal chimneys a re damaged by a chimney fire, they should no longer be used and must be replaced.
Ways To Keep The Fire You Do Want…From Starting One You Don’t!
Chimney fires don’t have to happen. Here are some ways to avoid them:
- Use seasoned woods only (dryness is more important than hard wood versus soft wood considerations)
- Build smaller, hotter fires that bum more completely and produce less smoke
- Never burn cardboard boxes, wrapping paper, trash or Christmas trees; these can spark a chimney fire
- Install stovepipe thermometers to help monitor flue temperatures where wood stoves are in use, so you can adjust burning practices as needed
- Have the chimney inspected and cleaned on a regular basis
- Proper Maintenance
Clean chimneys don’t catch fire. Make sure a Certified Chimney Sweep inspects your solid fuel venting system annually, and cleans and repairs it whenever needed.
Your sweep may have other maintenance recommendations depending on how you use your fireplace or stove.
Wood Energy Technology Transfer Inc.(WETT Inc.), a non-profit training and education association, recommends that you call on certified chimney sweeps, since they are regularly tested on their understanding of the complexities of chimney and venting systems.
Signs That You’ve Had a Chimney Fire
Since chimney fires can occur without anyone being aware of them … and since damage from such fires can endanger a home and its occupants, how do you tell if you’ve experienced a chimney fire?
Here are the signs a professional chimney sweep looks for:
- “Puffy” creosote, with rainbow coloured streaks, that has expanded beyond creosote’s normal form
- Warped metal of the damper, metal smoke chamber, connector pipe or factory-built metal chimney
- Cracked or collapsed flue tiles, or tiles with large chunks missing
- Discoloured and distorted rain cap
- Creosote flakes and pieces found on the roof or ground
- Roofing material damaged from hot creosote
- Cracks in exterior masonry
- Evidence of smoke escaping through mortar joints of masonry or tile liners
If you think a chimney fire has occurred, call a WETT Certified Chimney Sweep for a professional evaluation. If your suspicions are confirmed, a certified sweep will be able to make recommendations about how to bring the system back into compliance with safety standards. Depending on the situation, you might need a few flue tiles replaced, a relining system installed or an entire chimney rebuilt. Each situation is unique and will dictate its own solution.
What To Do If You Have a Chimney Fire
If you realize a chimney fire is occurring, follow these steps:
1) Get everyone out of the house, including yourself
2) Call the fire department
If you can do so without risk to yourself, these additional steps may help save your home. Remember, however, that homes are replaceable, but lives are not:
1) Put a flare type chimney fire extinguisher into the fireplace or wood stove
2) Close the glass doors on the fireplace
3) Close the air inlets on the wood stove
4) Use a garden hose to spray down the roof (not the chimney) so the fire won’t spread to the rest of the structure
Monitor the exterior chimney temperature throughout the house for at least 2 or 3 hours after the fire is out.