Nutrients recovery from fresh liquid manure through an airlift reactor to mitigate the greenhouse gas emissions of open anaerobic lagoons.

Open anaerobic lagoons are widely used for liquid manure storage and treatment, with excess greenhouse gas (GHG) and odor emissions. In this study, liquid manure was valorized through hybrid nitrogen and phosphorous recovery as value-added products using an airlift reactor. Also, the organic load of liquid manure was reduced before discharging into anaerobic lagoons, which simultaneously mitigated GHG emissions. The results showed that 14.5% of total nitrogen (TN) was recovered as ammonium sulfate, while 38.8% of TN and 79.3% of total phosphorus (TP) were recovered as phosphorus-rich sludge. After the pre-treatment in the reactor, the odor could be controlled effectively due to a 94.2% decrease in total VFAs. In addition, 59.0% of COD was removed, which decreased the theoretical modeled GHG emissions by 51.7% compared to the traditional direct discharging. The application is promising for upgrading anaerobic lagoons of liquid manure. [Display omitted] • Anaerobic lagoon of animal liquid manure could be upgraded through airlift reactors. • 79.3% of TP and 38.8% of TN were recovered as Phosphorus-rich sludge. • 14.5% of TN was recovered as ammonium sulfate. • GHG emissions reduction from the suggested modification was estimated to be 51.7%. • COD and total VFAs were removed by 59.0% and 94.2%, respectively. [ABSTRACT FROM AUTHOR]