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2017 - 2018
Duke University
Technical validation and marketization of mobile septage treatment unit and pit life extender
Technical validation and marketization of two onsite septage treatment products
2016 - 2017
Duke University
Improved understanding and use of generated oxidizing species in liquid waste disinfection
To assess the feasibility of electrochemically inactivating Helminth eggs using a packed bed electrochemical reactor
2017 - 2019
Duke University
Non-critical path R&D portfolio management
Management and facilitation of a research and development portfolio of sanitation technology investments
2017 - 2020
Duke University
Developing sanitation solutions and in-country manufacturing partnerships - acceleration strategy (RTTC Phase 3)
To develop and test self-contained waste treatment systems in India and South Africa with a focus on transitioning these technologies to field-ready prototypes
2016 - 2017
Duke University
Acceleration of further field deployment of the RTI Beta 2.0 Reinvented Toilet system
to deliver prototype community toilet systems, which are designed to service the urban poor in developing countries, for third-party testing in both South Africa and India
2015 - 2017
Duke University
ADPL (Anaerobic Digestion Pasteurization Latrine) Duke Biogas toilet
A simple, energy neutral self-contained sanitation technology relying on anaerobic digestion and heat pasteurization of the treated effluent.
2014 - 2015
Duke University
Assessing odor issues and control strategies for the RTTC (Reinvent the Toilet Challenge)
Development of odor control and mitigation solutions for various Reinvented Toilet systems and fecal sludge management (FSM)
2011 - 2013
Duke University
Effective sewage sanitation with low CO2 footprint
Provide proof of concept of anaerobic digestion coupled with heat sterilization for a self-sanitizing system for developing communities.
2013 - 2015
Duke University
Neighborhood-scale treatment of fecal sludge by supercritical oxidation
The project seeks to demonstrate that both, supercritical water oxidation (SCWO) and supercritical water gasification (SCWG), a related technology, have prominent roles to play in solving the world’s sanitation challenges.
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