Adsorption behaviors and reduction strategies of heavy metals in struvite recovered from swine wastewater

[1]  Yazhou Wang,et al.  A review on the incorporation and potential mechanism of heavy metals on the recovered struvite from wastewater. , 2021, Water research.

[2]  Xingwen Lu,et al.  Co-precipitation of Cu and Zn in precipitation of struvite. , 2020, The Science of the total environment.

[3]  B. Saerens,et al.  Phosphorus recovery as struvite from digested sludge - experience from the full scale. , 2020, Journal of environmental management.

[4]  R. Dong,et al.  New insights into interactions of organic substances in poultry slurry with struvite formation: An overestimated concern? , 2020, The Science of the total environment.

[5]  Jiaxin Li,et al.  Decontamination of heavy metal complexes by advanced oxidation processes: A review , 2020 .

[6]  B. Young,et al.  Minimizing heavy metals in recovered struvite from swine wastewater after anaerobic biochemical treatment: Reaction mechanisms and pilot test , 2020 .

[7]  D. Wyrzykowski,et al.  Coordination complexes of Mn(II), Co(II), Ni(II), Zn(II) and Cd(II) with histaminol – Crystal structures and formation constants in aqueous solution , 2020 .

[8]  A. P. Bayuseno,et al.  Crystallization of struvite in a hydrothermal solution with and without calcium and carbonate ions. , 2020, Chemosphere.

[9]  Jun Wang,et al.  Impact of calcium on struvite crystallization in the wastewater and its competition with magnesium , 2019 .

[10]  A. Ćirić,et al.  Response surface methodology and artificial neural network approach for the optimization of ultrasound-assisted extraction of polyphenols from garlic. , 2019, Food and chemical toxicology : an international journal published for the British Industrial Biological Research Association.

[11]  L. Chai,et al.  New insights into the interaction between heavy metals and struvite: Struvite as platform for heterogeneous nucleation of heavy metal hydroxide , 2019, Chemical Engineering Journal.

[12]  Tianhu Chen,et al.  New insights into the adsorption behavior and mechanism of alginic acid onto struvite crystals , 2019, Chemical Engineering Journal.

[13]  B. Young,et al.  Influence of process parameters on the heavy metal (Zn2+, Cu2+ and Cr3+) content of struvite obtained from synthetic swine wastewater. , 2019, Environmental pollution.

[14]  H. Arslanoğlu Adsorption of micronutrient metal ion onto struvite to prepare slow release multielement fertilizer: Copper(II) doped-struvite. , 2019, Chemosphere.

[15]  A. Wilkie,et al.  Struvite Phosphorus Recovery from Aerobically Digested Municipal Wastewater , 2019, Sustainability.

[16]  R. Dong,et al.  Nutrient recovery from anaerobically digested chicken slurry via struvite: Performance optimization and interactions with heavy metals and pathogens. , 2018, The Science of the total environment.

[17]  A. Finzi,et al.  Effect of Pig and Cattle Slurry Application on Heavy Metal Composition of Maize Grown on Different Soils , 2018, Sustainability.

[18]  Z. Jianxin,et al.  Thermodynamics of metal ion complex formation in the Zn2SiO4-NH3-(NH4)2SO4-H2O system (I): Analysis of the Zn(II) complex equilibrium , 2018, Hydrometallurgy.

[19]  Xiaobo Min,et al.  Thermodynamics, kinetics and mechanism analysis of Cu(II) adsorption by in-situ synthesized struvite crystal , 2018 .

[20]  Griffin M. Lunn,et al.  Struvite formation and decomposition characteristics for ammonia and phosphorus recovery: A review of magnesium-ammonia-phosphate interactions. , 2018, Chemosphere.

[21]  Xueling Wu,et al.  High-quality, ecologically sound remediation of acidic soil using bicarbonate-rich swine wastewater , 2017, Scientific Reports.

[22]  Liping Yang,et al.  A pilot-scale investigation on the recovery of zinc and phosphate from phosphating wastewater by step precipitation and crystallization , 2017 .

[23]  Xiaobo Min,et al.  Feasibility and enhancement of copper and ammonia removal from wastewater using struvite formation: a comparative research , 2017 .

[24]  Xiaobo Min,et al.  Study on the mechanism of copper-ammonia complex decomposition in struvite formation process and enhanced ammonia and copper removal. , 2017, Journal of environmental sciences.

[25]  Z. Pan,et al.  Phenotypic characteristics and genotypic correlation between Salmonella isolates from a slaughterhouse and retail markets in Yangzhou, China. , 2016, International journal of food microbiology.

[26]  Runliang Zhu,et al.  Co-adsorption of phosphate and zinc(II) on the surface of ferrihydrite. , 2016, Chemosphere.

[27]  A. Rabinovich,et al.  Synergistic Removal of Zinc and Copper in Greenhouse Waste Effluent by Struvite , 2016 .

[28]  M. Mclaughlin,et al.  Dissolution rate and agronomic effectiveness of struvite fertilizers – effect of soil pH, granulation and base excess , 2016, Plant and Soil.

[29]  C. Chou,et al.  Fabrication of nanostructured copper phosphate electrodes for the detection of α-amino acids , 2015 .

[30]  A. Rouff,et al.  Zinc interaction with struvite during and after mineral formation. , 2014, Environmental science & technology.

[31]  G. Toor,et al.  Changes in heavy metal contents in animal feeds and manures in an intensive animal production region of China. , 2013, Journal of environmental sciences.

[32]  A. Rouff,et al.  Sorption of chromium with struvite during phosphorus recovery. , 2012, Environmental science & technology.

[33]  N. Ma,et al.  Influence of pH and oxidation state on the interaction of arsenic with struvite during mineral formation. , 2012, Environmental science & technology.

[34]  H. Xiong,et al.  Mixotrophic cultivation of Chlorella pyrenoidosa with diluted primary piggery wastewater to produce lipids. , 2012, Bioresource technology.

[35]  Yong-Hui Song,et al.  Nutrients removal and recovery from anaerobically digested swine wastewater by struvite crystallization without chemical additions. , 2011, Journal of hazardous materials.

[36]  A. Moldes,et al.  Distribution and availability of trace elements in municipal solid waste composts. , 2011, Journal of environmental monitoring : JEM.

[37]  G. Demirer,et al.  The determination of fertilizer quality of the formed struvite from effluent of a sewage sludge anaerobic digester. , 2010, Journal of hazardous materials.

[38]  A. Seco,et al.  Phosphorus recovery by struvite crystallization in WWTPs: influence of the sludge treatment line operation. , 2010, Water research.

[39]  Natasha Gilbert,et al.  Environment: The disappearing nutrient , 2009, Nature.

[40]  S. A. Parsons,et al.  Phosphorus Recovery from Wastewater by Struvite Crystallization: A Review , 2009 .

[41]  Kazuyoshi Suzuki,et al.  Removal and recovery of phosphorous from swine wastewater by demonstration crystallization reactor and struvite accumulation device. , 2007, Bioresource technology.

[42]  V Jegatheesan,et al.  An economic evaluation of phosphorus recovery as struvite from digester supernatant. , 2006, Bioresource technology.

[43]  O. P. Agarwal,et al.  Electron paramagnetic resonance study of doped synthetic crystals of struvite and its zinc analogue , 1991 .