Working with the interaction design team, a bunch of us at Teague have been tinkering with measuring water, analyzing usage data in realtime to affect behaviors, and storing it to see patterns over time.
At the heart of the exploration was a need to cheaply measure water from the tap. Water meters vary quite drastically in price (from $250+ for industrial grade sensors to $6 for garden hose attachments that limit total usage based on rough estimates). We settled on a $20 water meter used for PC cooling systems (the INS-FM17N by Koolance) due to its accuracy, low price, small size, and electronic sensing method that could be easily measured by a microcontroller (such as an Arduino).
The meter comes with an electronic control box, but we found that integrating directly with the sensor was simple enough and saved us some additional wiring and space. As water passes through the flow meter, an impeller rotates and toggles an output line which can be used to calculate the amount of water used. In addition to measuring the quantity, we also included a thermister (thermally-controlled resistor) to sense temperature.
Since we wanted to have an internet connected data-stream of our water usage, we decided to try out the YellowJacket Arduino with built-in WiFi. Data was then sent to the server at regular intervals when the water source was in use (from 1-15 seconds depending on the wireless setup and resolution desired). Using a GET request with ID and usage information, the server was then able to store and retrieve sensor data. The complete circuitry and code (see download link below) were both conceptually straight-forward and easy to implement.
Over a quick 2-hour build session with the team, we created 4 working units. Each consisted of the WiFi Arduino, temperature sensor (shown on the right connected to the yellow wire), the flow meter, and two fitting adapters (for use in the shower). We also hooked one up to our kitchen faucet, which ended up providing the most interesting data due to its frequent usage throughout the day.
Read more: DIY Arduino Board Water Meter