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High concentrations of ammonium, phosphate, and phenol are recognized as water pollutants that contribute to the degradation of soil acidity. In contrast, small quantities of these nutrients are essential for soil nutrient cycling and plant growth. Here, we reported composite materials comprising biochar, chitosan, ZrO, and FeO, which were employed to mitigate ammonium, phosphate, and phenol contamination in water and to lessen soil acidity. Batch adsorption experiments were conducted to assess the efficacy of the adsorbents. Initially, comparative studies on the simultaneous removal of NH, PO, and phenol using CB (biochar), CBC (biochar + chitosan), CBCZrO (biochar + chitosan + ZrO), and CBCZrOFeO (biochar + chitosan + ZrO + FeO) were conducted. The results discovered that CBCZrOFeO exhibited the highest removal percentage among the adsorbents ( < 0.05). Adsorption data for CBCZrOFeO were well fitted to the second-order kinetic and Freundlich isotherm models, with maximum adsorption capacities of 112.65 mg/g for NH, 94.68 mg/g for PO and 112.63 mg/g for phenol. Subsequently, the effect of CBCZrOFeO-loaded NH, PO, and phenol (CBCZrOFeO-APP) on soil acidity was studied over a 60-day incubation period. The findings showed no significant changes ( < 0.05) in soil exchangeable acidity, H, Mg, K, and Na. However, there was a substantial increase in the soil pH, EC, available P, CEC, N-NH, and N-NO. A significant reduction was also observed in the available soil exchangeable Al and Fe ( < 0.05). This technique demonstrated multi-functionality in remediating water pollutants and enhancing soil acidity.
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| http://dx.doi.org/10.1080/09593330.2024.2362993 | DOI Listing |
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Article Synopsis
- The anammox process is an efficient method for removing nitrogen from wastewater, but its application is limited due to slow bacteria growth and sludge flotation.
- This study explored two methods—Mg adsorption and magnesium ammonium phosphate (MAP) precipitation—to enhance anammox bacteria granulation, with Mg boosting specific anammox activity significantly more than MAP.
- While both methods showed similar nitrogen removal efficiency, MAP helped reduce sludge flotation, making it an effective option for practical applications despite some drawbacks in bacteria performance.
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