evaporative cooling – ARCHITERIALS https://www.architerials.com Materials matter. Tue, 28 Feb 2012 18:12:44 +0000 en-US hourly 1 https://wordpress.org/?v=4.9.4 3D Printed Stabilized Sand: Air Hive Cooled by Evaporation https://www.architerials.com/2011/01/3d-printed-stabilized-sand-air-hive/ https://www.architerials.com/2011/01/3d-printed-stabilized-sand-air-hive/#respond Mon, 03 Jan 2011 22:47:07 +0000 http://www.architerials.com/?p=1392 You don’t dance on a bee hive and sprint headlong into the house chased by a swarm of angry bees without developing a healthy respect for the sanctity of apidae habitat.  I didn’t mean to dance on the hive; I was only four years old and I had no idea it was even there until eighteen million bees erupted out of what I had thought was an innocuous stone-ringed mound of dirt.  The fact that such a small earthen bump could house that many insects is a testament to the compact efficiency of a hive.

Image courtesy http://www.flickr.com/photos/kristenelyse/

When I found out that a multidisciplinary design firm out of London, PostlerFerguson, developed a 3D printed-stabilized sand-hive structure that uses evaporation to passively cool the air I assumed that they too must have interacted with swarms of ill-tempered bees.  I have no way to substantiate this assumption, but I will wax enthusiastic about the project because it involves an intriguing material: stabilized sand.

Image courtesy PFSK.com

Stabilized sand consists of concrete sand to which approximately 10% of cement is added to give the sand extra stability and hydraulic properties, and it can be mixed in a concrete plant under controlled conditions.  While more traditional stabilized sand has been used primarily in the construction of roads and as flat, load-bearing foundations for concrete retaining walls, it’s also showing up lately in more exciting applications such as “Better Brick,” a project wherein bacteria in solution cement particles of sand together to make bricks.  Stabilized sand is a good candidate for 3D printing – imagine if we could essentially print sandstone, layer by layer, in any form imaginable?

Image courtesy www.metropolis.com

The design of each Air Hive incorporates massive internal surface area, which allows the structure to cool the air by evaporating moisture in it as it passes through.  “The designers refer to the work as ‘not just an installation, but a building language that can be reused again and again to create new public spaces.’ Roads, piazzas, buildings, halls, rooms, architectural ornament—adding non-electrical air-cooling technology to the built environment on a huge variety of scales and conjuring up images of 3D-printed sandstone ornamental cornices on buildings being used to cool urban streetscapes” (Manaugh).  For some reason I keep imagining blocks of these springing up in the desert outside of Las Vegas.

Images courtesy PFSK.com

WU XING:

I’ve filed Air Hives under water because they are evaporative cooling systems and under earth because they are made of stabilized sand.

Cited:

Manaugh, Geoff. “Air Hive.” BLDGBLOG.com 12/09/10. Accessed 12/28/10.  URL.

“A New Kind of Sandcastle” PFSK.com 12/10/10.  Accessed 12/28/10. URL.

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