Skip to content

Latest commit

 

History

History
73 lines (39 loc) · 5.17 KB

README.md

File metadata and controls

73 lines (39 loc) · 5.17 KB

About

Ler em Português

I used to live in front of a beautiful but polluted lake in Londrina city. Now I live in Curitiba city, some say the most ecological Brazilian city.

Urban socio-environmental problems identified in Curitiba includes air pollution, water pollution and environmental degradation (references).

This project is developed with the objective of creating low-cost water monitoring stations, enabling the creation of a dense monitoring network with the capacity to locate occurrences of water pollution and contamination.

With community and educational purposes in mind, information about suppliers, configurations, and software are all open-source.

Status

The current state of the project is hardware and software prototyping. A prototype was tested on the Atuba River, near a place known as Ecobarreira do Atuba. It was "on" for 36 hours, but the battery died at the end of the night and it didn't turned back "on" when the sun recharged the battery.

The software has been improved to use the microcontroller's "deep sleep" mode and on the desk the battery lasted over 100 hours sending data every 6 minutes. Unfortunately it has a bad performance in the rain. Probably the Micro USB connection do not work well with water. A new one was bought and it will be tested again.

The prototype is also being prepared for a kayak tour.

This is the prototype deployed:

IMG_20221220_165045

This is the prototype in greater detail:

Current Hardware

  • Atlas Scientific Wi-Fi Pool Kit (Legacy, with ESP8266). It has pH, ORP (Oxidation Reduction Potential) and Temperature probes and comes with Wi-Fi connectivity.

Atlas Scientific Wi-Fi Pool Kit

LILYGO® TTGO T-BAT Battery Holder

Future Work

Some locations where it would be good to have monitoring stations don't have Wi-Fi access point. So cellular or even satellite connectivity are necessary.

  • LILYGO® TTGO T-SIM7000G. For cellular connectivity this low-power, low-cost board comes with Espressif's ESP32 microcontroller, SIMCom's 7000G cellular modem, battery holder and solar power circuit at around 200 Brazilian Reais. ESP32 is more capable than Arduino and less expensive than Raspberry Pi.

LILYGO® TTGO T-SIM7000G

References

  • Danos Socioambientais Urbanos Em Curitiba: Uma Abordagem Geográfica (PDF)

Software

Suppliers

Real-Time Data

<iframe width="380" height="260" src="https://thingspeak.com/channels/1956479/charts/1?bgcolor=%23ffffff&color=%23d62020&dynamic=true&results=60&title=pH&type=line&width=380"></iframe> <iframe width="380" height="260" src="https://thingspeak.com/channels/1956479/charts/2?bgcolor=%23ffffff&color=%23d62020&dynamic=true&results=60&title=ORP&type=line&width=380"></iframe> <iframe width="380" height="260" src="https://thingspeak.com/channels/1956479/charts/3?bgcolor=%23ffffff&color=%23d62020&dynamic=true&results=60&title=Temp&type=line&width=380"></iframe>