2024-05-02T20:17:49-04:00 https://archinect.com/news/article/150047411/the-case-for-a-semi-permeable-architecture Alexander Walter 2018-01-29T20:18:00-05:00 >2018-01-29T20:19:59-05:00 <img src="https://archinect.gumlet.io/uploads/nq/nq0uz81y9zwjsh0g.jpg?fit=crop&auto=compress%2Cformat&enlarge=true&w=1200" border="0" /><em><p>Our current built environment squanders too much fresh water and other vital resources, and tips too many poisonous substances into our surroundings. To develop a more sustainable relationship with the natural world, we need to allow chemical exchanges that take place within our living spaces, and between the inside and the outside. We need to embrace permeability.</p></em><br /><br /><p>Professor of experimental architecture, Rachel Armstrong, endorses a renewed symbiotic relationship between the built and the natural worlds and explains the benefits of permeability with the help of recent technological developments in the field of biodesign, such as <a href="https://archinect.com/news/tag/350938/mushroom-material" rel="nofollow" target="_blank">mycotecture</a>, <a href="https://archinect.com/news/tag/103274/algae" rel="nofollow" target="_blank">algaetecture</a>, bioplastics, and a variety of <a href="https://archinect.com/news/tag/790405/bioreactor" rel="nofollow" target="_blank">bioreactors</a>.</p> https://archinect.com/news/article/149962094/scientists-are-developing-a-digestive-building-material-that-cleans-wastewater-and-produces-electricity Amelia Taylor-Hochberg 2016-08-08T13:28:00-04:00 >2018-01-30T06:16:04-05:00 <img src="https://archinect.gumlet.io/uploads/bj/bjic9a3mx0pomtqe.jpg?fit=crop&auto=compress%2Cformat&enlarge=true&w=1200" border="0" /><p>&ldquo;The best way to describe what we&rsquo;re trying to create is a &lsquo;biomechanical cow&rsquo;s stomach&rsquo;,&rdquo; said Rachel Armstrong, coordinator of the Living Architecture (LIAR) research project. LIAR's aim is to develop a building block material that uses living microorganisms to clean wastewater, glean useful resources from sunlight, and even generate electricity.</p><p>To do this, the researchers are programming synthetic microorganisms, and inserting them into a microbial fuel cell (MFC), which is then placed inside ceramic blocks. The MFCs are effectively alive, and produce positive and negative charges, which allows them to be programmed in such a way to emulate the different metabolic stages of a cow's stomach.</p><p>In combination, the blocks could be used to form 'bioreactor walls', which could then help offset a structure's carbon footprint by keeping waste processing and power generation in-house:&nbsp;"like a digestive system for your home or office," according to Armstrong. In one successful test case, res...</p>