• @Windex007
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    2 months ago

    It all comes down to flow rate and initial temperature.

    It’s impractical, but even a typical garden hose at satp puts out enough mass to consume 16MJ/m of heat assuming it all vaporizes.

    For perspective, that’s like getting hit by a Toyota Camry at highway speed every 7.5 seconds.

    Massive practicality issues but from a thermodynamics perspective it passes an initial check at least

    • Not a replicant
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      72 months ago

      We’re in a bushfire zone, even had one get close, late last year. We looked into suppression systems, and there’s two types - one has a series of garden sprinklers positioned on your roof gutters or overhangs. They get turned on to create a large, extended fan-type spray of water. The idea is not to extinguish a fire, but to absorb the heat so it doesn’t get hot enough locally to ignite your house.

      The other type - which we chose - puts agricultural sprinkler heads on your roof peaks. Fed by a substantial pump from storage tanks ( 2 x 22,500 litre/5000 gallons), they throw in intersecting circles out to a distance of about 15 metres/50 feet. The idea is to saturate your roof and walls, and surrounding foliage sufficiently that it won’t ignite.

    • ivanafterall ☑️
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      72 months ago

      Cool info. TIL. What about your life causes you to know that off-hand?

      • @Windex007
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        2 months ago

        The real/fake answer is engineering school the real/real answer is playing “Oxygen Not Included” aka “Thermodynamics Simulator”.