Difference between revisions of "Project:Midomo test kit"
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quality cannot be guaranteed. | quality cannot be guaranteed. | ||
| − | + | I have built several prototypes that require testing in the UK before being deployed into field trials in Kenya. | |
This project aims to develop testing tools that can be used in a ‘lab’ setting in the UK to gather benchmark performance data before being modified to work in a field setting to gather ‘real world’ data. | This project aims to develop testing tools that can be used in a ‘lab’ setting in the UK to gather benchmark performance data before being modified to work in a field setting to gather ‘real world’ data. | ||
| Line 15: | Line 15: | ||
# Run equivalent tests during field trials to assess the impact of changing environment | # Run equivalent tests during field trials to assess the impact of changing environment | ||
| − | == | + | ==Progress== |
| + | ===26th April 2011=== | ||
| + | Work completed: | ||
| + | * Data logger shield built and tested, RTC and SD card both working | ||
| + | * Built 18-bit ADC breakout board | ||
| + | |||
| + | Next steps | ||
| + | * Figure out how to connect the 2 pressure sensors to the ADC | ||
| + | * Test the ADC/Data logger combination with a known analogue input (figure out how much noise there will be on the circuit - what resolution we should expect) | ||
| + | * Write Arduino program to run the test | ||
| + | * Hook up pump/filter and tubing to run first tests | ||
| + | |||
| + | |||
| + | ==Hardware== | ||
For the pressure sensing and data logging: | For the pressure sensing and data logging: | ||
* Arduino [[http://arduino.cc/en/Main/ArduinoBoardUno Uno]] | * Arduino [[http://arduino.cc/en/Main/ArduinoBoardUno Uno]] | ||
| Line 22: | Line 35: | ||
* Omega [[http://www.omega.co.uk/ppt/pptsc.asp?ref=PX26 Differential pressure sensor]] | * Omega [[http://www.omega.co.uk/ppt/pptsc.asp?ref=PX26 Differential pressure sensor]] | ||
| + | To drive the filtration system in a lab setting I’ll also need a heavy-duty motor, drive train and a frame to keep it all in place. | ||
| − | + | ==Expertise== | |
| + | I'm happy to work with other hackers on this project, especially those with an interest/expertise in: | ||
| + | * International development (specifically water and sanitation) | ||
| + | * Using any of the hardware listed above | ||
| + | * Running field trials/Lab based testing | ||
| + | ==Future Plans== | ||
| + | * Expand the data logger to accept other sensor modules, to enable open-source field data collection | ||
| + | * Development of an open-source water quality (physical/bacteriological) testing kit for field work [[Project:Water Quality Test Kit]] | ||
==Interested== | ==Interested== | ||
| − | * | + | * [[User:JamesBrown|JamesBrown]] |
| + | |||
| + | [[Category:Projects]] | ||
Latest revision as of 22:06, 28 May 2013
Background
[Midomo] is a 3 in 1 water transport, purification and storage device that has been designed to provide a potable water supply to low-income households. It is particularly applicable in rural and urban situations where people have to travel a significant distance to collect water from sources where microbiological water quality cannot be guaranteed.
I have built several prototypes that require testing in the UK before being deployed into field trials in Kenya.
This project aims to develop testing tools that can be used in a ‘lab’ setting in the UK to gather benchmark performance data before being modified to work in a field setting to gather ‘real world’ data.
The project is split into several phases:
- Develop accurate and reliable test equipment that can be used to measure and record pressure (and speed?) data from the running system
- Run tests to gather data to characterise product performance
- Modify the equipment built in (1) to allow it to be used off-grid in a field environment
- Run equivalent tests during field trials to assess the impact of changing environment
Progress
26th April 2011
Work completed:
- Data logger shield built and tested, RTC and SD card both working
- Built 18-bit ADC breakout board
Next steps
- Figure out how to connect the 2 pressure sensors to the ADC
- Test the ADC/Data logger combination with a known analogue input (figure out how much noise there will be on the circuit - what resolution we should expect)
- Write Arduino program to run the test
- Hook up pump/filter and tubing to run first tests
Hardware
For the pressure sensing and data logging:
- Arduino [Uno]
- Adafruit [Data Logging Shield]
- Microchip [18 bit ADC] [MCP3424]
- Omega [Differential pressure sensor]
To drive the filtration system in a lab setting I’ll also need a heavy-duty motor, drive train and a frame to keep it all in place.
Expertise
I'm happy to work with other hackers on this project, especially those with an interest/expertise in:
- International development (specifically water and sanitation)
- Using any of the hardware listed above
- Running field trials/Lab based testing
Future Plans
- Expand the data logger to accept other sensor modules, to enable open-source field data collection
- Development of an open-source water quality (physical/bacteriological) testing kit for field work Project:Water Quality Test Kit