Environmental engineering pioneers innovative clean water sources

Environmental engineering pioneers innovative clean water sources

Environmental enginnering is making clean drinking water more accessible and affordable to those who need it. Photo: <a href="http://www.flickr.com/photos/julien_harneis/589718393/sizes/n/in/photostream/">Julien Harneis (flickr)</a>
Environmental enginnering is making clean drinking water more accessible and affordable to those who need it. Photo: Julien Harneis (flickr)

This article was republished by The Christian Science Monitor

New engineering technologies look to quench the world’s thirst for clean drinking water through cheap, green self-powered purification mechanisms.

Cleaning dirty water generally requires high energy and capital, placing clean water out of reach for many of the world’s poor. But new innovations are making clean water more accessible by lowering the financial and environmental costs of purification.

Want energy with your water? Use bacteria. Engineer Bruce Logan of Penn State University is perfecting a process by which bacteria in wastewater generate the necessary electrical power to clean the water.

Most wastewater contains bacteria, and by altering the chemistry and physics of microbial fuel cell systems, Logan capitalized on the idea that bacteria can produce electric currents under anerobic conditions where electrons link up with oxygen molecules. “You and I eat food and generate energy,” Logan told GOOD. So do bacteria. And when those bacteria are deprived of oxygen in a microbial fuel cell, the electrons they produce flow to the other side of the cell to find oxygen protons, creating an electric current as they travel.

Over time, Logan has improved the technologies of the process, including by combining the microbial fuel cell system with reverse electrodialysis, which captures the energy of ions as they flow through membranes from salty to fresh water. The fuel cell gives the energy boost for the reverse electrodialysis system, allowing the process to operate with fewer membranes and making the system cheaper to produce. The result is purified water that is free of bacteria and safe to drink.

So far, the amount of energy Logan says he can generate “almost matches the amount needed to process it,” according to GOOD. That means Logan is closer to his goal of cost-effective clean energy wastewater treatment, and households, companies and farms are closer to having cheaper, cleaner, greener water.

Canadian engineers harness African sun: In Angola, solar cells are already producing cleaner water. Canadian technology company Quest Water Solutions has teamed up with the Angolan government to develop and install drinking stations called “AQUAtaps,” which use solar energy to purify drinking water inside used shipping containers.

Quest hopes that after a successful pilot program, the AQUAtaps will be manufactured locally throughout Angola.

The technology is “really quite simple and very low maintenance,” according to Quest’s John Balanko. The shipping containers, with solar panels on top, contain large batteries which store energy. That electricity pumps water from a nearby river through sand and filters, then sterilizes the water with the same UV rays that feed the panels.

The AQUAtap fits nicely with the Angolan government’s “Agua para Todas” (water for all) initiative. Quest sells the equipment, and a two year maintenance guarantee, to the government for a one-time fee, but it then belongs to the villagers. Once the program expands, Quest envisions local production jobs as well.

For Angolans, the AQUAtap project can bring clean water and local jobs with virtually no carbon emissions in the process. Now there’s a solution people can raise their glasses to.

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