Urine-Tricity to Improve Global Sanitation

Image: YouTube/

This affordable form of pee-power has the potential to light camps in disaster zones.
Image: YouTube/University of West England

Researchers, social scientists, and advocates are constantly examining the issue of the global lack of adequate sanitation in hopes to find an economic and sustainable solution. From Britain’s poo-powered bio-bus to the Gates Foundation’s effort to turn waste into drinking water – you can see the innovative answers popping up almost everywhere.

ECS has also joined the fight with our first Science for Solving Society’s Problems Challenge by awarding $210,000 of seed funding to innovative research projects addressing critical technology gaps in water and sanitation.

Now, researchers out of the University of West England are turning the focus from poop to pee with their new development in what they have termed urine-tricity.

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Professor Chunlei Guo has developed a technique that uses lasers to render materials hydrophobic, illustrated in this image of a water droplet bouncing off a treated sample.Photo: J. Adam Fenster / University of Rochester

Professor Chunlei Guo has developed a technique that uses lasers to render materials hydrophobic, illustrated in this image of a water droplet bouncing off a treated sample.
Photo: J. Adam Fenster / University of Rochester

New super-hydrophobic metals developed at the University of Rochester could mean big things for solar innovation and sanitation initiatives.

The researchers, led by Professor Chunlei Guo, have developed a technique that uses lasers to render materials extremely water repellant, thus resulting in rust-free metals.

Professor Guo’s research in novel not in the sense that he and his team are creating water resistant materials, instead they are creating a new way to develop these super-hydrophobic materials by taking away reliance on chemical coatings and shifting to laser technology.

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Making Poop Potable

The OmniProcessor is the ultimate example of that old expression: one man's trash is another man's treasure.Image: YouTube/Gates Notes

The OmniProcessor is the ultimate example of that old expression: one man’s trash is another man’s treasure.
Image: YouTube/Gates Notes

The Bill & Melinda Gates Foundation is working to turn poop into drinking water with this ingenious new machine.

As part of their effort to improve sanitation in poor countries, the Gates Foundation has helped give flight to an OmniProcessor that burns human waste to produce water and electricity.

How does it work? Check out the video to see the process.

But here’s the big question – why do we need to turn waste into drinking water and electricity?

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Everybody Poops

WorldToiletDayHere at The Electrochemical Society, we give a crap about sanitation. With our recent partnership with the Bill & Melinda Gates Foundation – which awarded $210,000 in seed funding to innovative research projects addressing critical gaps in water and sanitation – we’ve spent a great deal of time these past few months talking about poop.  We plan to keep that trend alive, which brings us to World Toilet Day.

Two and a half billion people – 36 percent of the world’s population – don’t have access to a toilet, according to UNICEF. Globally, more people have mobile phones than toilets. Most people in developed countries think of access to adequate sanitation as a right rather than a privilege.

For this reason, ECS hosted the Electrochemical Energy and Water Summit, where some of the brightest minds in electrochemical and solid state science came together to brainstorm innovative ways to address the global sanitation crisis. We’re not just flushing and forgetting, we’re attempting to make adequate sanitation a basic human right.

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Brainstorming

Over 100 researchers were guided through a brainstorming and working group session with the theme of improving access to clean water and sanitation in developing countries.

ECS is awarding $210,000 of seed funding to four innovative research projects addressing critical technology gaps in water, sanitation, and hygiene challenges being faced around the world.

Winners of the first Science for Solving Society’s Problems Challenge:

Artificial Biofilms for Sanitary/Hygienic Interface Technologies (A-Bio SHIT)
Plamen Atanassov, University of New Mexico, $70,000
Interfaces: Produce bio-catalytic septic cleaning materials that incorporate microorganisms removing organic and inorganic contaminants, while simultaneously creating electricity (or hydrocarbon fuel) for energy generation in support of a sustainable and portable system.

In-situ Electrochemical Generation of the Fenton Reagent for Wastewater Treatment
Luis Godinez, Centro de Investigacion y Desarrollo Tecnologico en Electroquimica SC, Mexico, $50,000
Disinfection: Study the electro-Fenton approach using activated carbon to efficiently oxidize most of the organic and biological materials present in sanitary wastewater so that recycling of the wastewater might be possible.

powerPAD
Neus Sabate, Institut de Microelectrónica de Barcelona (CSIC); Juan Pablo Esquivel, University of Washington; Erik Kjeang, Simon Fraser University, $50,000
Monitoring and Measurement: Develop a non-toxic portable source of power for water measuring and monitoring systems, which will not require recycling facilities. Using inexpensive materials such as paper, nanoporous carbon electrodes and organic redox species, the team will strive to create a biodegradable and even compostable power source.

More than MERe microbes: Microbial Electrochemical Reactors for water reuse in Africa
Gemma Reguera, Michigan State University, $40,000
Chemical Conversion: Develop microbial electrochemical reactors that harvest energy from human waste substrates using bioanodes engineered to process the waste into biofuels while simultaneously cleaning water for reuse. The microbial catalysts will be selected for their efficiency at processing the wastes, but also for their versatility to process other residential and agricultural waste substrates. This will provide an affordable, easy to operate system for the decentralized processing of a wide range of wastes for improved sanitation, water reuse, and energy independence.

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2014 ECS/SMEQ Meeting in the Books

Edison Theatre

“Pee to Energy” demo at the Edison Theatre in the exhibit hall in Cancun, Mexico. Rob Gerth, Gerri Botte, and Madhi Muthuvel getting ready to go.

I’m working on an official review of what happened at the meeting. In the meantime, I’ve been looking at some of the photos which got me thinking about the adventure that is an ECS meeting.

A couple of quick hits first:

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Gates Partnership funding review panel

Pictured is the funding review panel for the 2014 Electrochemical Energy and Water Summit grant proposals: Gerardo Arriaga, Centro de Investigación y Desarrollo Tecnologico en Electroquimica; Kathy Ayers, Proton OnSite; Ioannis Ieropoulos, University of the West of England – Bristol; Paul Kohl, Georgia Tech, President of ECS; Barry MacDougall, National Research Council of Canada, Past President of ECS; Paul Natishan, Naval Research Laboratory, Past President of ECS; Brian Stoner, RTI International; E. Jennings Taylor, Faraday Technology Inc. and Treasurer of ECS. Non-voting observers pictured: Dan Fatton, ECS Director of Development, Roque Calvo, ECS Executive Director, Carl Hensman, Bill & Melinda Gates Foundation.

The winners of the 2014 Electrochemical Energy and Water Summit funding challenge have been selected and notified. Once we get the signed agreements from each of their institutions, we will formally announce the results.

It was an incredible experience all around. Thank you to everyone who participated.

By the numbers:

  • 2,200+ attendees
  • 120 participants in the facilitated brainstorm
  • 47 proposals received
  • 30 applicants invited to present
  • 4 projects selected
  • $210,000 in funding and the projects will be announced soon!

See what else happened at the meeting.

Harvard students test the flow rate from one of the newly installed tap stands.Credit: Christopher Lombardo

Harvard students test the flow rate from one of the newly installed tap stands.
Credit: Christopher Lombardo

A group of students from Harvard have been working to help restore clean water to the rural town of Pinalito in the Dominican Republic. Now, for the first time in a long time, the water in Pinalito is clean again.

This from Harvard Gazette:

For the past 2½ years, students in the Harvard University chapter of Engineers Without Borders have been rehabilitating and improving a potable water system in the rural town in the Dominican Republic. After the most recent visit, the students returned to campus in late August having successfully worked with the community to upgrade the water quality and distribution system.

Read the full article here.

The residents now have clean water – something that wasn’t available prior due to the failed well built by a government contractor. The well installed by the Harvard students can produce 27 gallons a minute, according to Christopher Lombardo – assistant director for undergraduate studies in engineering sciences at the Harvard School of Engineering and Applied Sciences (SEAS).

During their time in Pinalito, the students made sure to integrate the community into the design and building of the well in order to combat skepticism and foster relationships.

Not only does this experience provide the rural town with clean water, but it also shows the students that there are many other perspective they’ll need to consider when they go further in the field of engineering, and they won’t always have access to a state-of-the-art lab.

At ECS, we’re also joining the fight to provide clean water though innovation and research to those in need. We are in Cancun right now working with the Bill & Melinda Gates Foundation to find and fund new research to combat some of the world’s most serious water and sanitation issues.

Stay connected with us to see the grant winners and their solutions to bridge the critical technology gaps in water, sanitation, and hygiene challenges being faced around the world.

Adequate Sanitation Is a Basic Human Right

The lack of adequate sanitation facilities accounts for 4,100 preventable deaths every day.Credit: Kofi Opoku, West Virginia University

The lack of adequate sanitation facilities accounts for 4,100 preventable deaths every day.
Credit: Kofi Opoku, West Virginia University

With our Energy and Water Summit right around the corner, we’ve only got one thing on our mind: poop.

Forty percent of the world’s population – 2.5 billion people – practice open defecation or lack adequate sanitation facilities, and the consequences can be devastating for human health as well as the environment.

The Electrochemical Society and the Bill & Melinda Gates Foundation know there is no easy solution to this problem, but we are dedicated to finding and funding innovative research to reinvent the sanitation infrastructure.

In Francis de los Reyes’ TEDTalk entitled, “Sanitation is a basic human right,” the environmental engineer and sanitation activist makes his case for the total reinvention of the sanitation landscape as we know it.

“For the past 14-years, I’ve been teaching crap,” Reyes says.

And that he has. Reyes has dedicated his time to studying and researching human waste. The problem is especially relevant in India, where open deification is putting citizens at major health risks.


This from Reuters:

Less than a third of India’s 1.2 billion people have access to sanitation and more than 186,000 children under five die every year from diarrheal diseases caused by unsafe water and poor sanitation, according to the charity WaterAid.

The United Nations said in May half of India’s people defecate outside – putting people at risk of cholera, diarrhea, dysentery, hepatitis A and typhoid.

Read the full article here.

With India accounting for 818 million of the 2.5 billion people who lack adequate sanitation, most of the country’s rivers and lakes are polluted with sewage and industrial effluents.

So why can’t we just build western style flush-toilets in countries such as India?

“It’s just not possible,” Reyes says.

In these developing worlds, there is often time not enough water or energy to take on such a feat. Also, laying out sewer lines would cost governments tens of trillions of dollars.

Through our partnership with the Bill & Melinda Gates Foundation, we hope to help solve these issues.

Introducing Mr. Toilet

Meet Mr. Toilet

“What you don’t talk about, you cannot improve.”
-Jack Sim

Everybody poops – but not everybody has a place to do so. Sanitation is a growing – and often times deadly – crisis in the developing world, and the silence on this issue must be broken.

Let sanitation superhero Jack Sim tell you why you should care about this issue. He is, after all, the one and only Mr. Toilet.

This from the Bill & Melinda Gates Foundation:

The need for better sanitation in the developing world is clear. Forty percent of the world’s population—2.5 billion people—practice open defecation or lack adequate sanitation facilities, and the consequences can be devastating for human health as well as the environment. Even in urban areas, where household and communal toilets are more prevalent, 2.1 billion people use toilets connected to septic tanks that are not safely emptied or use other systems that discharge raw sewage into open drains or surface waters.

ECS is partnering with the Bill & Melinda Gates Foundation to enable universal access to sustainable sanitation services with innovative solutions to funding research.

Join us in Cancun for the 2014 Electrochemical Energy and Water Summit, where more than $200,000 will be available as seed funding for projects that address critical technical gaps in global sanitation.

Find out how you could be a part of this brainstorming workshop and help solve some of the most challenging issues in the world today.

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