Team:Aachen/Collaborations/Braunschweig

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{{Team:Aachen/FigureDual|TU-BS_sensor_sensor-in-pot.jpg|TU-BS_sensor_measuringsystem.jpg|title1=MQ-4 sensor in the gas phase|title2=Online data on a laptop|subtitle1=For anaerobic cultivation, a wireless connection might be better.|subtitle2=The Arduino is connected to a laptop running our Serial Client software to plot and collect online data.|width=450px}}
{{Team:Aachen/FigureDual|TU-BS_sensor_sensor-in-pot.jpg|TU-BS_sensor_measuringsystem.jpg|title1=MQ-4 sensor in the gas phase|title2=Online data on a laptop|subtitle1=For anaerobic cultivation, a wireless connection might be better.|subtitle2=The Arduino is connected to a laptop running our Serial Client software to plot and collect online data.|width=450px}}
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The software used to monitor the online methane concentration data is the [[Team:Aachen/Notebook/Software/Serial_Client|Serial Client]] that was also developed by our team.
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= Serial Client - a WPF application to log data =
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Our serial client application can be used to read the data from the Arduino. To read more about this application go to our [https://2014.igem.org/Team:Aachen/Notebook/Software/Serial_Client software section].
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Revision as of 21:39, 17 October 2014

A low-cost DIY methane sensor for Team Braunschweig

Our colleagues from Braunschweig are cultivating microorganisms that grow on methane (CH4) which is supplied via the gas phase. To monitor the methane uptake by their E. co(w)li, they would like to measure the methane concentration in the gas phase. With the standard analytical methods in the lab, this is very difficult, but when they told us about their problem, we knew that we might be able to help them. We assembled an Arduino-based methane sensor and wrote a program to record the data.

The componentes for the methane sensor include:

  • [http://www.dx.com/p/arduino-nano-v3-0-81877 Arduino Nano V3 clone] Aachen ArduinoNano.jpg
  • [http://www.sainsmart.com/sainsmart-mq-4-methane-gas-sensor-natural-coal-co-detector-module-for-arduino.html SainSmart MQ-4 Gas Sensor] Aachen SainSmartMQ4.jpg
  • A [http://www.dx.com/p/syb-170-mini-breadboard-for-diy-project-red-140101#.U-ng9VLwC7Q Breadboard] and some wires Aachen Breadboard.jpg

To set up the electronics for a measurement, the sensor and the Arduino have to be connected according to the following scheme:

Aachen Collaboration-BS-Schematic.png
Connecting the MQ-4 module to the Arduino
Only three wires are required to connect the MQ-4 module to the Arduino Nano.


We sent all the components to Braunschweig and they assembled the Arduino and sensor module in an incubation chamer:

TU-BS sensor sensor-in-pot.jpg TU-BS sensor measuringsystem.jpg
MQ-4 sensor in the gas phase
For anaerobic cultivation, a wireless connection might be better.
Online data on a laptop
The Arduino is connected to a laptop running our Serial Client software to plot and collect online data.

The software used to monitor the online methane concentration data is the Serial Client that was also developed by our team.