Sharing this post from mildyinteresting Community because I think you’ll be interested in it over here in the solarpunk community

Sorry if I have accidentally reposted it

  • perestroika@slrpnk.net
    link
    fedilink
    arrow-up
    1
    ·
    edit-2
    1 year ago

    When a wind tower is integrated with a quanat system, it works even in humid.

    The key is drawing in air through underground passages - either irrigation channels or just cellars. The ground acts as a cold store (heat sink), cooling incoming air before it enters the house.

    The tower + wind catcher has no thermal role - it must simply create low pressure and keep the draft going.

    • Shurimal@kbin.social
      link
      fedilink
      arrow-up
      0
      ·
      1 year ago

      Then it’s not really a swamp cooler, but using the soil/rock as a giant heatsink to conduct heat from the air. That heat of course will warm up the rock over time reducing efficiency, but this could be countered by letting water flow through these channels. Giving a hybrid between evaporative/swamp cooling and heatsink. I’m sure some physicist who knows thermodynamics could elaborate further how well such a system would work.

      • StrayCatFrump@slrpnk.net
        link
        fedilink
        English
        arrow-up
        2
        arrow-down
        2
        ·
        edit-2
        1 year ago

        Correct. The ground is a MASSIVE heat sink, but can only absorb and transmit heat so quickly (how much thermal conductivity it has; just the mathematical reciprocal of insulation/resistance). Having a large contact area and/or water helps a lot. If you can get down to the ground’s natural/ambient water table, it’ll conduct a lot better than dry dirt and rock (not to mention that evaporation can help with sufficient air flow).

        If you make use of flowing water, probably it’s just going to be a matter of the temperature of the source of water, as it’ll likely eclipse (depending on rate and volume of flow) what gets absorbed by the ground. Unless it’s a closed loop, in which case you’re essentially just increasing the surface area of ground you’re transmitting to (and you’ll need to take advantage of convective flows like with the air, or you’ll have to actively pump to keep the flow going).