Tag Archives: water quality

Autosampler deployment

The sampler has now been used in the field for a study in nitrate concentrations. Part of the deployment process included placing the collection bottles in a chilled container, such as a insulated lunch box with ice packs. This adds to the complexity and cost of deployment. However, we needed to be sure that this was required. We then conducted 12 and 24 hour experiments to see if nitrate concentrations deteriorated without being chilled. The 12 hour experiment revealed that we did not need to chill the samples while the sampler was deployed. We are still waiting on the 24 hour experiment results. Nitrate seems to be pretty stable. That is, it is not changing over to N2 or something else too quickly. This would not be the case for studies of other nutrients such as phosphate.

The unit has run as expected. The filter over the pump housing was easily cleaned. The 4,000 mAh battery from Voltaic systems easily ran the system over 24 hours, dropping about 1/4 power during that time. The system could be deployed for up to about 3-4 days at this rate.


Deployment in small brook.


Deployment in an even smaller brook.


Screen over pump housing before cleaning.


Autosampler final cut

Well almost. I realized a useful feature would be a button that, when pressed, would run each pump for 10 seconds. This would allow for cleaning with deionized or distilled water and also to check that all pumps are functioning. ¬†From the time a current is applied to the pump to the time water makes it out of the end of the ~3′ tube (1/4″ inner diameter) is about 1-2 seconds.

Check out these photos of the complete system after its first successful run in the bathroom sink.

The complete system.

Detail of the pump-head. You can see the the screws and nuts used that perfectly hold on to the pump’s housing. Click on the photo for a bigger view.

The bottom of the pump head. To help keep the pumps running, a drain sleeve will be cut and placed over the bottom and maybe top openings of the housing to prevent sediment from potentially clogging up the pump.

The pump-head housing is a 4″ PVC pipe cut in half. This allows for easier drilling of the pump retainer screw holes and getting the tubing into place.