AI Article Synopsis
- Untreated swine wastewater causes serious environmental issues, including reduced water quality and harmful algae growth that can pose health risks to humans.
- Biological treatments for this wastewater have low efficiencies and require large spaces, making them less practical for certain compounds.
- Four low-cost materials (two natural volcanic rocks and two industrial byproducts) were tested, and while iron filings proved effective as a catalyst, the natural rocks and red mud were good at removing organic compounds, especially when combined with Fenton's process, resulting in water suitable for discharge and reuse.
Article Abstract
Untreated swine wastewater (SW) discharge leads to serious consequences such as water quality decreasing related to eutrophication and proliferation of harmful algae containing cyanotoxins, which can cause acute intoxication in humans. The use of untreated pig farming effluent as fertilizer can lead to the accumulation of polluting compounds. Biological treatments can degrade organic matter but have the disadvantage of requiring large areas and high retention times and demonstrating low efficiencies in the degradation of refractory compounds such as pharmaceutical compounds. In this ambit, the performance of four low-cost materials was evaluated for treatment of a swine wastewater using physical-chemical processes such as adsorption and Fenton's process. The tested materials are two natural resources, red volcanic rock from Canary (RVR) Islands and black volcanic rock (BVR) from Azores, and two industry residues, red mud (RM) and iron filings (IF). Among the tested materials, only IFs are catalytically active for Fenton's peroxidation. Still, RVR, BVR, and RM were efficient adsorbents removing up to 67% of COD. The combination between adsorption followed by Fenton's process using IF as catalyst showed interesting results. When RM is applied as adsorbent in the diluted effluent, it was able to remove 67% and 90% of COD for adsorption and adsorption followed by IF Fenton, respectively. At those conditions, the resultant treated effluent accomplishes the requirements for direct discharge in the natural water courses as well as the parameters for water reusing.
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| http://dx.doi.org/10.1007/s11356-023-29677-1 | DOI Listing |
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