We do everything on a shoestring budget, which is both good and bad. We cannot do all the amazing things that we would like to show you (yet) but this also means that anything we come up with can be reproduced simply and cost effectively.
We recycle a lot of materials because of limited raw materials. We also have the space and access to tools in Fablab which allows us to continue our work. However, for the last couple of years we have been building up our workshop, and in 2015 we moved to a new start-up incubator called Turbiini. This is where we have a space for our tools and access to a network of supporters and advisors.
We are also starting to collaborate with people around the world to bring Showerloop to where they need it, be it a boat, an RV, a house in the woods, a far off Pacific Island, a brand new hay bale house or a really old building. The possibilities are endless and together we can create them all.
We are currently looking for a suitable business model that would encourage a community around social and environmental ethics and the open source circular economy.
We are also looking for new team members, supporters or advisors to speed up our development process in technical, business, and community development terms.
Designers, makers, communicators and interested people are welcome.
PCB: While this is already underway it would be great to work on it together
Real time water quality monitoring: Currently, we monitor water quality subjectively (smell, color, looking) and somewhat with pH and conductivity. Proper surface tension, turbidity, microbiological equipment and liquid column chromatography would be needed but they are expensive . We currently have two options; use a small kit to test what we can and periodically send water samples to us or local bio-hacklabs / regular labs. The second option is to produce some inexpensive turbidity sensors.
With empirical data we can go quite far. The flow sensor also works as a measure of filter capacity, as the flow rate decreases it is because of particles in the filter increasing pressure and slowing down the flow rate of water. This can be measured somewhat accurately and should work for 95% of the cases we would see, but knowledge is empowering.
Communicator: We would like some help running our crowd funding campaign.
Email us at firstname.lastname@example.org
Keiran Holland, Anup Mishra, Patrizia Baffioni, Misa Bakajic, Hannes Jesar, Timm Wille & Marius, Mauricio Cordova, Hannes Jessar, Sebastian Selvarajan
Translation to French by Guillaume Schavann email@example.com (+33 6 31 43 13 40)
Need translation to German
Turbiini, Aalto Fablab, POC21 OuiShare, OpenState, OSCEdays, Autodesk Foundation & Fusion360, Stop Reset Go, Metropolia Helsinki University of Applied Science, Climate KIC - Pioneers into Practice, Peloton Summer Camp
Showerloop firstname.lastname@example.org Turbiini 2nd floor Teknobulevardi 3-5 01530 Vantaa, Finland VAT ID 2785651-1