PHWG Posted August 29, 2022 Share Posted August 29, 2022 Wondering if the new Element E100 fire extinguisher will be accepted to use with cars on the judging field? Link to comment Share on other sites More sharing options...
Mark Shaw Posted August 29, 2022 Share Posted August 29, 2022 I don't know of any judging manual that specifies what type is or isn't acceptable. Link to comment Share on other sites More sharing options...
mrspeedyt Posted August 29, 2022 Share Posted August 29, 2022 impressive demo! gonna get one! Link to comment Share on other sites More sharing options...
CChinn Posted August 29, 2022 Share Posted August 29, 2022 (edited) I just purchased 2. One for the car and one for the kitchen. Hope to never use them, but nice to have peace of mind just in case Edited August 29, 2022 by CChinn Grammar (see edit history) Link to comment Share on other sites More sharing options...
Guest Posted August 29, 2022 Share Posted August 29, 2022 element is a manual, portable aerosol fire extinguisher. It uses a Potassium powder jet (a unique method among fire extinguishers) that employs the vaporization of the powder in the environment followed by the condensation of its extinguishing substance. Element works by interrupting a fire’s chain of reaction (the “auto-catalyst” of the fire). Element is composed of stable, solid minerals; it does not contain gas and is not pressurized. The aerosol-like jet is only produced when the charger is struck with its base. The produced aerosol jet is free of thrust and is essentially an inert salt that emits gas already present in the atmosphere. This process allows Element to extinguish all types of fires through saturation, while its slow bio-degradation in the environment, furthers the prevention of subsequent fires. The extinguishing process involves two different reactions: one is physical and the other, chemical. The physical reaction relates to potassium’s tendency to oxidize rapidly in air. When in contact with air, alkaline salts consume great quantities of oxygen, thus depriving fires of oxygen. The chemical reaction is created through the stable link between potassium particles and the fire’s combustion particles. Through the two reactions, a quick oxidation process takes place, immediately transforming the jet from a solid state into a gaseous state freeing the potassium particles. These atoms are able to intercept and interrupt any other free particles produced by the fire’s natural chain reaction combustion process. Potassium has strong inhibitor qualities due to its weak ionization energies. The extinguishing agent being used is composed of Potassium Nitrate, organic oxidizer, and plasticizer resin. When Potassium Nitrate (KNO3) discharges from the extinguisher it vaporizes in the environment followed by the condensation of its extinguishing substance. When it reacts (inside the body of the extinguisher) it breaks down and the aerosol that is formed is made up primarily of free radicals of Potassium K+, of Nitrogen N (an inert gas), and water vapor. The aerosol that comes out of the unit reacts with the fire. Potassium radicals (K+) capture the Oxygen of the combustion thereby extinguishing it. At the end of the extinguishing process the following is discharged to the atmosphere: As a solid: particles of Potassium (that have reacted with the Oxygen of the fire) having a size between 3-4 microns. These particles are invisible at sight and heavier than air. They disperse in the atmosphere and tend to deposit on the ground in no appreciable amounts. As a gas: As Nitrogen; an inert gas already present in the air we breathe at more or less 78%. As water vapor (and lastly) extremely minimal toxic by-products that are a result of the combustion process. 1 1 Link to comment Share on other sites More sharing options...
bryankazmer Posted August 29, 2022 Share Posted August 29, 2022 Your basic description of how the extinguisher works is right, your chemistry description not quite. Both oxidation and the interruption of the combustion reaction are chemical reactions. K+ is a cation, the free radical has an electron added, not subtracted. Plasticizer and resin are different things, you add plasticizer to a resin to solvate and soften it. But, the point is that there is real chemistry behind these extinguishers. Has anyone actually used one yet? 2 Link to comment Share on other sites More sharing options...
Steve Moskowitz Posted August 29, 2022 Share Posted August 29, 2022 The current rule for AACA is that any UL Approved fire extinguisher is acceptable. The last I heard the Element does not fit the criteria to be UL approved but they were working on a solution. 1 2 Link to comment Share on other sites More sharing options...
Guest Posted August 29, 2022 Share Posted August 29, 2022 6 hours ago, bryankazmer said: Your basic description of how the extinguisher works is right, your chemistry description not quite. Both oxidation and the interruption of the combustion reaction are chemical reactions. K+ is a cation, the free radical has an electron added, not subtracted. Plasticizer and resin are different things, you add plasticizer to a resin to solvate and soften it. But, the point is that there is real chemistry behind these extinguishers. Has anyone actually used one yet? I did leave off page two as it was getting very technical. I was unable to copy the chemical symbols though. The aerosol that comes out of the unit reacts with the fire. Potassium radicals (K+) capture the Oxygen of the combustion thereby extinguishing it. At the end of the extinguishing process the following is discharged to the atmosphere: As a solid: particles of Potassium (that have reacted with the Oxygen of the fire) having a size between 3-4 microns. These particles are invisible at sight and heavier than air. They disperse in the atmosphere and tend to deposit on the ground in no appreciable amounts. As a gas: As Nitrogen; an inert gas already present in the air we breathe at more or less 78%. As water vapor (and lastly) extremely minimal toxic by-products that are a result of the combustion process. The chemical reaction is best illustrated by the following image: Stage 1: Fire is initiated by the flame chain carriers: O, H and OH Stage 2: The Element aerosol introduces Potassium radicals (K) into the flame chain reaction Stage 3: K radicals attach themselves to O, H and OH and remove them from the flame reaction without depleting surrounding Oxygen. 1 Link to comment Share on other sites More sharing options...
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