Phosphorus recovery from synthetic swine wastewater by chemical precipitation using response surface methodology

Optimum pH and coagulant dosage for chemical precipitation in wastewater treatment plants is conventionally obtained through repeated jar test. In this research, optimization of the performance of polyacrylamide in the treatment of industrial wastewater was carried out using response surface methodology. The individual linear and quadratic effect of coagulant dosage and pH on the degree of removals of nickel, total suspended solids, Chemical Oxygen Demand and turbidity were investigated. The optimum pH and polyacrylamide dosage were found to be 10.5 and 1.6 ml/L respectively and the optimum percentage nickel removal was 96.9%. The model used in predicting the precipitation process gave a good fit with the experimental variables and hence the suitability of response surface methodology for the optimization of polyacrylamide performance.

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Phosphorus recovery from sewage sludge hydrochar: process optimization by response surface methodology

Water Science & Technology ◽

10.2166/wst.2020.485 ◽

2020 ◽

Vol 82 (11) ◽

pp. 2331-2343

Author(s):

Andrea Luca Tasca ◽

Gemma Mannarino ◽

Riccardo Gori ◽

Sandra Vitolo ◽

Monica Puccini

Keyword(s):

Response Surface Methodology ◽

Sewage Sludge ◽

Response Surface ◽

Hydrothermal Carbonization ◽

Extraction Yield ◽

Ash Content ◽

Phosphorus Recovery ◽

3 Dimensional ◽

Solid Liquid ◽

Influence Of Ph

Abstract Hydrothermal carbonization can play an innovative role in sewage sludge (SS) treatment and valorization, as well as in phosphorus recovery. In this study, leaching tests using nitric acid were performed on hydrochar from SS and the influence of pH (1–3.5), leaching time (30–240 min), and solid/liquid (S/L) ratio (5–20 wt%) was analyzed and optimized according to the Design of Experiments method, under the Response Surface Methodology approach. The highest phosphorus extraction yield (59.57%) was achieved at the lowest pH and the lowest S/L ratio, while an increase in temperature from 20 to 60 °C negatively affected the phosphorus recovery. Quadratic models, with the addition of semi-cubic terms, were found to best represent both phosphorus yield and ash content of the hydrochar after leaching. As observed by 3-dimensional surface responses, phosphorus yield increases as the pH decreases. The pH is the factor that most influences this response, while time has little influence. At pH 1, the yield increases as the S/L ratio decreases, while the S/L ratio only slightly affects the response at pH 3.5. At an S/L ratio of 12.5%, multi-objective optimization indicates that pH 1 and a leaching time of 135 min are the parameters that allow both maximum phosphorus yield and minimum ash content.

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Phosphorus Recovery From Waste Activated Sludge by Sponge Iron Seeded Crystallization of Vivianite and Process Optimization With Response Surface Methodology

10.21203/rs.3.rs-230136/v1 ◽

2021 ◽

Author(s):

Guoding Wu ◽

Wei Zeng ◽

Shuaishuai Li ◽

Ziyue Jia ◽

Yongzhen Peng

Keyword(s):

Response Surface Methodology ◽

Activated Sludge ◽

Response Surface ◽

Economic Value ◽

Recovery Process ◽

Sponge Iron ◽

Seed Crystal ◽

Phosphorus Recovery ◽

Molar Ratio ◽

Waste Activated Sludge

Abstract As a novel phosphorus recovery product, vivianite (Fe3(PO4)2·8H2O) has attracted much attention due to its enormous recycling potential and foreseeable economic value. Taking sponge iron as seed material, the effect of different reaction conditions on the recovery of phosphorus in waste activated sludge by vivianite crystallization was studied. Through single factor test, the optimal conditions for vivianite formation were in the pH range of 5.5–6.0 with Fe/P molar ratio of 1.5. Scanning electron microscopy (SEM), powder X-ray diffraction (XRD) and energy dispersive spectroscopy (EDS) were used to analyze the components of the crystals. The results showed that the vivianite produced with sponge iron as the seed crystal were larger and thicker (300-700 μm) than other seed (200-300 μm) and without seed (50-100 μm). Moreover, vivianite, which was synthesized with sponge iron as seed, was obviously magnetic and could be separated from sludge by rubidium magnet. The Box-Behnken design of the response surface methodology was used to optimize the phosphorus-recovery process with sponge iron (maximum phosphorus recovery rate was 83.17%), and the interaction effect of parameters was also examined. PH had a significant effect on the formation of vivianite. In summary, this research verifies the feasibility of using sponge iron as seed crystal to recover phosphorus in the form of vivianite from waste activated sludge, which is conducive to the subsequent separation and utilization of vivianite.

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