A portable water purifier solution for pure water, anywhere, anytime, saving many lives in times of need.​
Project Scope
This project aimed to create a portable water purification system for use in disaster relief scenarios. The system was designed to provide safe drinking water quickly and efficiently, ensuring the health and safety of affected populations.
Commercial Image of Puritee.
My Role
As the Project Leader and Prototype Designer, I managed the overall project, including design, development, and testing phases. My primary focus was on designing and constructing the purification system prototype.
The different angles of the purifier, as well as its components.
Rejected designs, final design of the purifier, and final design of logo.
Work Process
The project began with a thorough needs assessment, where I identified the requirements for a portable water purification system in disaster relief scenarios through consultations with relief organizations and field experts. This step helped define key features such as portability, filtration efficiency, and ease of use.
During the design and prototyping phase, I focused on creating a compact and easy-to-transport purification system. I developed a prototype using durable materials and advanced filtration technologies, such as UV light, activated carbon, and ceramic filters. Ensuring the filtration system met international water quality standards was essential during this phase.
Service Name
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The outcome and results
The project successfully resulted in a functional smart inhaler prototype tailored for children. The device improved medication adherence by 30% among test participants and reduced the frequency of asthma-related emergencies by 25%. The smart inhaler by Funhaler™ received positive feedback for its child-friendly design, ease of use, and effectiveness in managing asthma symptoms among young users.
Graph of water's pH level before and after using the purifier, as well as an impovement chart.
Field testing was conducted in simulated disaster scenarios to evaluate the system's effectiveness and durability. I collected water samples before and after purification to measure contaminant levels and ensure the system provided safe drinking water.
User feedback was gathered from field test participants, including relief workers and affected individuals. This feedback helped assess the system's usability, reliability, and overall performance in real-life conditions. Based on the testing results and feedback, I refined the design and functionality, improving filtration speed, durability, and ease of maintenance.
