Utilization of sludge from recirculation aquaculture systems
Norway is an ideal location for salmon farming due to its protected coastline and favorable water temperatures. Historically, salmon smolt production has been under flow-through (FT) systems utilizing the adequate freshwater bodies. Because of this, very few recirculation aquaculture systems (RAS) f...
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ftnofima:oai:nofima.brage.unit.no:11250/2559653 2023-05-15T15:32:56+02:00 Utilization of sludge from recirculation aquaculture systems del Campo, L. Matías Ibarra, Pablo Gutierrez, Xavier Takle, Harald Rune 2010 application/pdf http://hdl.handle.net/11250/2559653 eng eng Nofima AS Nofima rapportserie https://nofimaas.sharepoint.com/sites/public/_layouts/15/guestaccess.aspx?guestaccesstoken=CBdhruvbLTv8olPKARrMHkxxoTwp3lFCIOLEVPCV4EQ%3d&docid=0d4234970d146436ab3787d976966c4dd Nofima AS: 20871 urn:isbn:978-82-7251-755-6 http://hdl.handle.net/11250/2559653 cristin:1171669 63 9/2010 Research report 2010 ftnofima 2022-11-18T06:50:56Z Norway is an ideal location for salmon farming due to its protected coastline and favorable water temperatures. Historically, salmon smolt production has been under flow-through (FT) systems utilizing the adequate freshwater bodies. Because of this, very few recirculation aquaculture systems (RAS) for Atlantic salmon culture have been implemented in Norway. However, increasing interest in RAS-based production has been shown recently due to increased smolt demand and more limited water resources. We have projected that the installed capacity of RAS in Norway will reach 40 million smolts by the end of 2011. A challenge with RAS production systems is that it will produce rather high levels of sludge. Moreover, if the trends continue with the increased growth rate showed during the last 7 years, around 85 million smolts could be produced in RAS in 2015, with an estimated production of sludge of 1.600 ton/year. Importantly, the composition of the sludge makes it suitable for treatment through anaerobic digestion and composting. Considering this, we have evaluated the potential of using fish farming sludge produced at recirculation aquaculture systems facilities as an input factor in a commercial context. It was concluded that exploitation of the energy in the sludge by means of anaerobic treatment (Biogas) may be profitable when assuming it can be operated continuously without process failure. It was also concluded that a large number of fish hatcheries would be required to ensure the minimum supply of sludge needed to make an industrial biogas plant economically viable. Still, sludge production from RAS can contribute to supply rough material to any biogas plant and thus generate a value added to the solid waste generated by fish farming. Further, treated sludge may be disposed by land application on agricultural fields. In conclusion, there are two major options for the use of sludge generated at RAS facilities that are technically viable and must be explored further in order to achieve economic efficiencies: ... Report Atlantic salmon Nofima Knowledge Archive (Brage) Norway |
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English |
description |
Norway is an ideal location for salmon farming due to its protected coastline and favorable water temperatures. Historically, salmon smolt production has been under flow-through (FT) systems utilizing the adequate freshwater bodies. Because of this, very few recirculation aquaculture systems (RAS) for Atlantic salmon culture have been implemented in Norway. However, increasing interest in RAS-based production has been shown recently due to increased smolt demand and more limited water resources. We have projected that the installed capacity of RAS in Norway will reach 40 million smolts by the end of 2011. A challenge with RAS production systems is that it will produce rather high levels of sludge. Moreover, if the trends continue with the increased growth rate showed during the last 7 years, around 85 million smolts could be produced in RAS in 2015, with an estimated production of sludge of 1.600 ton/year. Importantly, the composition of the sludge makes it suitable for treatment through anaerobic digestion and composting. Considering this, we have evaluated the potential of using fish farming sludge produced at recirculation aquaculture systems facilities as an input factor in a commercial context. It was concluded that exploitation of the energy in the sludge by means of anaerobic treatment (Biogas) may be profitable when assuming it can be operated continuously without process failure. It was also concluded that a large number of fish hatcheries would be required to ensure the minimum supply of sludge needed to make an industrial biogas plant economically viable. Still, sludge production from RAS can contribute to supply rough material to any biogas plant and thus generate a value added to the solid waste generated by fish farming. Further, treated sludge may be disposed by land application on agricultural fields. In conclusion, there are two major options for the use of sludge generated at RAS facilities that are technically viable and must be explored further in order to achieve economic efficiencies: ... |
format |
Report |
author |
del Campo, L. Matías Ibarra, Pablo Gutierrez, Xavier Takle, Harald Rune |
spellingShingle |
del Campo, L. Matías Ibarra, Pablo Gutierrez, Xavier Takle, Harald Rune Utilization of sludge from recirculation aquaculture systems |
author_facet |
del Campo, L. Matías Ibarra, Pablo Gutierrez, Xavier Takle, Harald Rune |
author_sort |
del Campo, L. Matías |
title |
Utilization of sludge from recirculation aquaculture systems |
title_short |
Utilization of sludge from recirculation aquaculture systems |
title_full |
Utilization of sludge from recirculation aquaculture systems |
title_fullStr |
Utilization of sludge from recirculation aquaculture systems |
title_full_unstemmed |
Utilization of sludge from recirculation aquaculture systems |
title_sort |
utilization of sludge from recirculation aquaculture systems |
publisher |
Nofima AS |
publishDate |
2010 |
url |
http://hdl.handle.net/11250/2559653 |
geographic |
Norway |
geographic_facet |
Norway |
genre |
Atlantic salmon |
genre_facet |
Atlantic salmon |
op_source |
63 9/2010 |
op_relation |
Nofima rapportserie https://nofimaas.sharepoint.com/sites/public/_layouts/15/guestaccess.aspx?guestaccesstoken=CBdhruvbLTv8olPKARrMHkxxoTwp3lFCIOLEVPCV4EQ%3d&docid=0d4234970d146436ab3787d976966c4dd Nofima AS: 20871 urn:isbn:978-82-7251-755-6 http://hdl.handle.net/11250/2559653 cristin:1171669 |
_version_ |
1766363419963817984 |