Showing a Recirculating Aquaculture System in Action

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Thank you for asking, all of our systems are freshwater, but we work with partners at Institute of Marine and Environmental Technology that is doing research on salmonids in saltwater systems: www.umces.edu/imet We are collaborating on a national collaborative salmon project that involves research in both fresh and saltwater, more info here: salmononland.org/

Hello @YeeKhaiify we can do this several different ways. In our Atlantic salmon tanks, the tanks have been manufactured with water jets that are formed into the side of the fiberglass tank. The inflow water is supplied to these jets to create velocity in one direction. In addition, we can also create velocity using a capped PVC pipe with holes drilled down in a line for our inflow pipe. The size and amount of holes determines the velocity of flow (larger and more holes creates lower velocity, fewer and smaller holes creates greater velocity). I would be happy to discuss or send photos, email us at: ehauser@uwsp.edu

The effluent stream is sent to a settling basin where we collect the solids and can land apply as fertilizer, we donate this fertilizer to local farmers. The water that overflows the settling basin then is sent to a created wetland where nutrients are taken up by cattails and wild rice. Both the settling basins and wetland size was designed to handle a maximum feed load for our facility.

@@uw-stevenspointnorthernaqu8491 That is good to hear.

​@@uw-stevenspointnorthernaqu8491 ​ How many kilowatts of energy do you consume per month?

Depending on the project, system and densities, we do have some overflow or supplemental water that is coming into the system as makeup water. This gives us a bit of a buffer for water quality, cleaning, evaporation, etc. Yes, this water could be collected and used as irrigation or sent to a separate aquaponics set up. Please reach out to us and I can explain further: ehauser@uwsp.edu

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​ @uw-stevenspointnorthernaqu8491

Hello @gabimatei855 our facility is 8500 square-foot production barn (what you are seeing in the video) which has the two RAS along with incubation, larval and flow through systems. We also have four half acre ponds that utilize power for aeration throughout the summer months. It is difficult for us to give you an exact number for one of our RAS apart from everything else, but an estimate would be around 28600 kilowatt hours per month for one of the RAS systems. The salmon RAS has three, 4hp, 3-phase pumps running consistently, which is most of the systems energy consumption.

​@@uw-stevenspointnorthernaqu8491 Thanks for your response. I wanted to calculate roughly how much I would consume if I opened a 600 square meter facility. If I had two pumps, I still think that I would consume around 2000 kilowatts/per month.
I don't know much at the moment, I'm new to this topic but I'm documenting myself day by day. Thank you for your answer!

@@gabimatei855 if you are pursuing RAS, it is critical that you utilize a proven system and design. If you like we can share with you some further resources for this, feel free to contact us: ehauser@uwsp.edu

CO2 levels is of course dependent on the species, age, water temperature and more factors, we have make up air units in the facility that remove the CO2 from the facility and bring fresh air in. Yes RAS can be an expensive system but also enables optimal control over the fish environment while reusing water. Regardless, economic and biological planning is critical for these systems to be economically sustainable and successful.

We have done research on nano bubbles but in these two RAS in this video, we are not using nano bubble technology, we are using oxygen speece cones (for our warm water system) and low head oxygenation unit (four our cold water system).