AguaClara

AguaClara Cornell is an engineering based project team within Cornell University's Civil and Environmental Engineering Department[2] that designs sustainable water treatment plants using open source technology. The program's mission is to uphold and protect “the fundamental human right to access safe drinking water. We are committed to the ongoing development of resilient, gravity-powered drinking water and wastewater treatment technologies.”[3] AguaClara plants are unique among municipal-scale facilities in that they have no electrical or complex mechanical components and instead operate through hydraulic processes driven by gravity.

AguaClara Cornell
Founded2005
FounderMonroe Weber-Shirk
TypeNonprofit organization
FocusSustainable Water Treatment
Location
MethodOpen Source Technology
Members
~80[1]
Key people
Monroe Weber-Shirk - Program Director
Websiteaguaclara.cornell.edu

The AguaClara Cornell program provides undergraduate and graduate students the opportunity to enhance their education through hands-on experience working on projects with real applications. In 2012, the National Academy of Engineering showcased AguaClara as one of the 29 engineering program at US colleges that effectively incorporates real world experiences in their curriculum.[4]

In 2017, a non-profit organization, AguaClara Reach, was formed with the continued mission of bringing clean drinking water on tap to communities around the world. AguaClara Reach works with AguaClara Cornell to pilot the latest open-source innovations developed in the lab, while sharing lessons learned from the field to drive further research.[5]

In Honduras, implementation partner Agua Para el Pueblo (Water for People), a NGO working in Honduras who manages the construction and technical support for AguaClara plants. AguaClara Reach partners with Gram Vikas in India to build Hydrodosers. The Hydrodoser, an AguaClara technology, is a modular, easy to install unit that, on its own, can be used to dose chlorine to disinfect water that has no more than 5 NTU of turbidity, which is typical of well water.[6]

History

AguaClara was formed in 2005 by Cornell University senior lecturer Monroe Weber-Shirk, who volunteered in Central American refugee camps during the 1980s. Weber-Shirk used the connections he developed through his volunteer work to partner with Jacabo Nuñez, the director of Agua para el Pueblo to find the answer to a crucial question: What can we do to treat the dirty water that we are providing to rural communities?[7]

In 2005, he founded the AguaClara program to address the need for sustainable municipal scale water treatment in resource poor communities. The first AguaClara plant was built in 2006 in Ojojona to serve a population of 2000 people.[8] Since 2005, Agua Para el Pueblo has commissioned eighteen drinking water treatment facilities implementing AguaClara technology across Honduras. Upon request of local communities in neighboring Nicaragua, an additional two facilities were commissioned in that country in 2017.[9]

In 2017 with the founding of AguaClara Reach, the project team appended Cornell to its name to distinguish it from its non-profit counterpart.

Design tool

AguaClara Cornell has developed an automated design tool that allows interested parties to input basic design parameters such as flow rate into a simple frontend and receive customized designs via email in five minutes or less. The user frontend communicates with the AguaClara server to populate MathCad scripts that calculate design parameters for input into AutoCAD scripts, which produce the final design. The design algorithms can be continuously improved and any changes will be immediately implemented the next time a design is requested.[10]

The AguaClara design tool applies an economy of scale to water treatment design, in that there are almost no marginal costs to produce an additional design. This is significant considering that the World Health Organization estimates the global unmet demand for improved water at approximately 844 million people,[11] including 100 million using surface water sources that would be viable for treatment with AguaClara technology. From the AguaClara website:

Thus 125 million people need AguaClara water treatment plants. If we further assume that our goal is to meet this demand in 10 years and that there are an average of 12,000 people per water treatment plant, we obtain an estimate of 1000 plants per year! This estimate does not include population growth or the need to replace aging infrastructure.[12]

Plants

AguaClara designs gravity-powered water treatment plants that require no electricity and are constructed by its implementation partners. The plants use hydraulic flocculators and high-flow vertical-flow sedimentation tanks to remove turbidity from surface waters.[13]

LocationPartnerConstruction StartInauguration DatePopulation ServedDesign flow (LPM)
Ojojona, HONAPP2006 June2007 July2000375
Tamara, HONAPP2008 January2008 June3500720
Marcala, HONIRWA[14]2007 October2008 July90001900
4 Comunidades, HONAPP2008 October2009 March2000375
Agalteca, HONAPP2009 October2010 June2200375
Marcala, HON ExpansionAPP/ACRA[15]2010 November2011 May60001300
Alauca, El Paraiso, HONAPPMay 2011February 20123600720
Atima, Santa Barbara, HONAPPDecember 2011May 20124000960
San Nicolás, Santa Barbara, HONAPPJune 2013April 201460001920
Morocelí, El Paraiso, HONAPPMarch 2014January 20165300960
Jesús de Otoro, Intibucá, HONAPPMarch 2014January 201550001200
San Matías, El Paraiso, HONAPPFebruary 2015March 20163500840

La 34, or "La treinta y quatro," once a numbered plantation run by United Fruit, is the first site of an AguaClara plant.[16] Construction on the La 34 plant began in December 2004 and was inaugurated in August 2005. The plant serves a population of 2000 with a design flow of 285 LPM.

Marcala The Marcala plant began in the Fall of 2007 and was completed in June 2008. The plant was upgraded in May 2011 to a flow rate of 3200 LPM.

Cuatro Comunidades In the Fall of 2008, the AguaClara team designed a water treatment plant with shallower tanks that doesn't need an elevated platform for the plant operator. The full scale pilot facility for this new design was built for the four communities of Los Bayos, Rio Frio, Aldea Bonito and Las Jaguas. Construction was completed in March 2009.

Sponsors

  • The Sanjuan Fund
  • Ken Brown '74 & Elizabeth Sanjuan
  • Rotary Clubs
  • Cornell University School of Civil & Environmental Engineering
  • Cornell University College of Engineering
  • Engineers for a Sustainable World
  • National Rural Water Association
  • EPA P3 Award Student design competition for sustainability
  • Kaplan Family Distinguished Faculty Fellowships (CU Public Service)

Awards and recognition

  • 2012 NAE "Infusing World Experiences into Engineering Education"[17]
  • 2011 Intel Environment Tech Award[18]

See also

Notes and references

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