Extinguishing agent
A technology of fire extinguishing agent and particles, which is applied in the direction of fire prevention equipment, etc., can solve the problems of loss of fire extinguishing effect, secondary loss in the lower area, and reduction of fire extinguishing effect, so as to achieve high fire extinguishing efficiency, reduce consumption, and overcome secondary loss.
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Embodiment 1
[0017] 1 gram of strong hydrophobic magnesium hydroxide particles with a contact angle of 110° (magnesium hydroxide particles hydrophobically modified by a silane coupling agent) is added to 1 gram of a mass concentration of 0.1% sodium bicarbonate aqueous solution at 16000 rpm Stir and disperse at a rate of 1 minute for 1 minute to obtain a dry water fire extinguishing agent with a water-in-gas structure.
[0018] The fire extinguishing efficiency of the fire extinguishing agent of this embodiment is 4 times of GB15308-2006 standard water or film foam fire extinguishing agent.
Embodiment 2
[0020] This embodiment is the same as Example 1, except that the solid particles used are magnesium hydroxide particles, silicon dioxide particles, calcium carbonate particles, talc particles, aluminum oxide particles, aluminum hydroxide particles, zinc borate particles, oxide particles, etc. At least two of zinc particles, ferric oxide particles, titanium dioxide particles, montmorillonite particles, hydrotalcite particles, fly ash particles, diatomaceous earth particles, mica particles, attapulgite particles and zeolite particles, or Silicon particles, calcium carbonate particles, talc particles, alumina particles, aluminum hydroxide particles, zinc borate particles, zinc oxide particles, ferric oxide particles, titanium dioxide particles, montmorillonite particles, hydrotalcite particles, fly ash particles, Diatomite particles, mica particles, attapulgite particles or zeolite particles; the solute in the aqueous solution used is potassium bicarbonate, potassium chloride, sod...
Embodiment 3
[0023] 1 gram of strong hydrophobic montmorillonite particles with a contact angle of 120° (montmorillonite particles hydrophobically modified by long-chain fatty acids) was added into 20 grams of urea aqueous solution with a mass concentration of 40%, at a rate of 2000 rpm Stir and disperse for 40 minutes to obtain a dry water fire extinguishing agent with a water-in-gas structure.
[0024] The fire extinguishing efficiency of the fire extinguishing agent of this embodiment is 4.5 times of GB15308-2006 standard water or film foam fire extinguishing agent.
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