As I travel all over the United States and in other world areas, I often get asked if Phos-Chek (R) fire retardant is effective in protecting homes and other structures during wildfires. I have over forty years of experience in managing wildfires. During this time I have been involved in hundreds of wildland fire incidents. Many of these fire incidents occurred in the urban/wildland interface or intermix. Most of the more complex wildfire incidents require that actions be taken to protect homes, structures, and other items of value on both government and private lands.

• Suppressants, such as water and foam, both rely solely on their contained water as the active ingredient for their fire suppression effectiveness. Once the water evaporates, either by solar radiation or by the wildfire induced radiation and convection, they no longer impact the wildfire’s progress so the fire is quickly up-and-running again as it was prior to coming in contact with the water yielding suppressants. Depending on the weather and the fire behavior conditions, the evaporation time for water is very short – ranging at best from 10 to 30 +/- minutes.
  
  
• Phos-Chek long-term retardant, on the other hand, does not rely on contained water for its effectiveness. The only reason that Phos-Chek retardant is applied as a water containing solution is to allow it to be mixed and applied to the fuels-at-risk (in this case cellulose containing vegetation). The Phos-Chek retardants were developed, specifically, to retard fire in fuels that contain cellulose (grass, brush, trees, paper, lumber, etc.). Most structures, in the urban/wildland interface or intermix, have cellulosic fuels in close proximity and in most cases are constructed with forest products such as lumber, cedar/redwood shakes, and many have wooden decks, porches and foundation support structures. These are the fuel types that Phos-Chek retardant was designed to protect from fire.
  
  
• The chemical structure of a molecule of cellulose is C6H10O5. When cellulosic fuels decompose (burn) they emit many volatile gases (ethane, propane, methane, butane, etc, etc, etc.) and many flammable oils and tars that actually carry the flames and cause rapid wildfire rate-of-spread. The same decomposition process applies to most structural components made from wood.
  The components in Phos-Chek long-term retardants, when in contact with cellulosic fuels, actually change the decomposition process (burning) of these fuel types. When Phos-Chek retardant is present, the route of decomposition of cellulosic fuels is changed so that a highly temperature resistant graphite-like carbon ( C) char , and water (H2O) are formed rather than the flammable gases and tars that would otherwise result. Not only does the retardant alter the thermal decomposition to deprive it of fuel but the resultant water also cools adjacent fuels during this decomposition process. This reaction takes place if Phos-Chek retardant solution has been recently applied on the fuels or if it was applied weeks/months before and all of its contained water has already evaporated. Phos-Chek is effective as long as it physically remains on the fuels.

I have been very impressed with the effectiveness of Phos-Chek for many, many years. As I conduct my International consulting business around the Globe, I always recommend Phos-Chek retardants for the long-term fire protection in the urban/wildland interface and intermix, as well as on remote wildfire incidents, as it is the highest performing and most environmentally friendly product I have ever worked with.