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Drying Technology
An International Journal
Volume 35, 2017 - Issue 5
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Articles

Stabilization and dewatering of wastewater treatment plant sludge using combined bio/Fenton-like oxidation process

Zahra MohammadiEnvironmental Health Engineering, Shiraz University of Medical Sciences, Shiraz, Iran
,
Abooalfazl AzhdarpoorDepartment of Environmental Health, School of Health, Shiraz University of Medical Sciences, Shiraz, IranCorrespondence[email protected]
&
Mansooreh DehghaniDepartment of Environmental Health, School of Health, Shiraz University of Medical Sciences, Shiraz, Iran
Pages 545-552 | Published online: 14 Feb 2017

References

  • Stylianou, M.A.; Kollia, D.; Haralambous, K.J.; Inglezakis, V.J.; Moustakas, K.G.; Loizidou, M.D. Effect of acid treatment on the removal of heavy metals from sewage sludge. Desalination 2007, 215(1), 73–81.
  • Nielsen, S.; Bruun, E.W. Sludge quality after 10–20 years of treatment in reed bed systems. Environmental Science and Pollution Research International 2015, 22(17), 12885–12891.
  • Ning, X.-A.; Chen, H.; Wu, J.; Wang, Y.; Liu, J.; Lin, M. Effects of ultrasound assisted Fenton treatment on textile dyeing sludge structure and dewaterability. Chemical Engineering Journal 2014, 242, 102–108.
  • Murugesan, K.; Ravindran, B.; Selvam, A.; Kurade, M.B.; Yu, S.M.; Wong, J.W. Enhanced dewaterability of anaerobically digested sewage sludge using Acidithiobacillus ferrooxidans culture as sludge conditioner. Bioresource Technology 2014, 169, 374–379.
  • Yuan, H.P.; Cheng, X.B.; Chen, S.P.; Zhu, N.W.; Zhou, Z.Y. New sludge pretreatment method to improve dewaterability of waste activated sludge. Bioresource Technology 2011, 102(10), 5659–5664.
  • Chen, W. Optimization of sludge dewatering through pretreatment, equipment selection, and testing. Drying Technology 2013, 31(2), 193–201.
  • Peeters, B. Mechanical dewatering and thermal drying of sludge in a single apparatus. Drying Technology 2010, 28(4), 454–459.
  • Vaxelaire, J.; Cézac, P. Moisture distribution in activated sludges: A review. Water Research 2004, 38(9), 2215–2230.
  • Zhang, W.; Yang, P.; Yang, X.; Chen, Z.; Wang, D. Insights into the respective role of acidification and oxidation for enhancing anaerobic digested sludge dewatering performance with Fenton process. Bioresource Technology 2015, 181, 247–253.
  • Buyukkamaci, N. Biological sludge conditioning by Fenton’s reagent. Process Biochemistry 2004, 39(11), 1503–1506.
  • Mo, R.; Huang, S.; Dai, W.; Liang, J.; Sun, S. A rapid Fenton treatment technique for sewage sludge dewatering. Chemical Engineering Journal 2015, 269, 391–398.
  • Tony, M.A.; Zhao, Y.Q.; Fu, J.F.; Tayeb, A.M. Conditioning of aluminium-based water treatment sludge with Fenton’s reagent: Effectiveness and optimising study to improve dewaterability. Chemosphere 2008, 72(4), 673–677.
  • Peng, G.; Ye, F.; Ye, Y. Effects of Microwave Irradiation on Dewaterability and Extracellular Polymeric Substances of Waste Activated Sludge. Water Environment Research 2013, 85(3), 278–285.
  • Yuan, H.; Zhu, N.; Song, L. Conditioning of sewage sludge with electrolysis: Effectiveness and optimizing study to improve dewaterability. Bioresource Technology 2010, 101(12), 4285–4290.
  • Ye, F.; Liu, X.; Li, Y. Effects of potassium ferrate on extracellular polymeric substances (EPS) and physicochemical properties of excess activated sludge. Journal of Hazardous Materials 2012, 199, 158–163.
  • Zhen, G.-Y.; Lu, X.Q.; Li, Y.Y.; Zhao, Y.C. Innovative combination of electrolysis and Fe(II)-activated persulfate oxidation for improving the dewaterability of waste activated sludge. Bioresource Technology 2013, 136, 654–663.
  • Güven, O.; Gözde, I.A.; Zorba, T.; Dilek Sanin, F. The dewaterability of disintegrated sludge samples before and after anaerobic digestion. Drying Technology 2010, 28(7), 901–909.
  • Miretzky, P.; Muñoz, C. Enhanced metal removal from aqueous solution by Fenton activated macrophyte biomass. Desalination 2011, 271(1), 20–28.
  • Argun, M.E.; Dursun, S. Cadmium removal using activated pine bark. Journal of International Environmental Application & Science 2008, 3(1), 37–42.
  • Pignatello, J.; Oliveros, E.; MacKay, A. Advanced oxidation processes for organic contaminant destruction based on the Fenton reaction and related chemistry. Critical Reviews in Environmental Science and Technology 2006, 36(1), 1–84.
  • Neyens, E.; Baeyens, J. A review of classic Fenton’s peroxidation as an advanced oxidation technique. Journal of Hazardous Materials 2003, 98(1), 33–50.
  • Pham, T.T.H.; Brar, S.K.; Tyagi, R.D.; Surampalli, R.Y. Influence of ultrasonication and Fenton oxidation pre-treatment on rheological characteristics of wastewater sludge. Ultrasonics Sonochemistry 2010, 17(1), 38–45.
  • Liu, C.; Zhang, P.; Zeng, C.; Zeng, G.; Xu, G.; Huang, Y. Feasibility of bioleaching combined with Fenton oxidation to improve sewage sludge dewaterability. Journal of Environmental Sciences 2015, 28, 37–42.
  • Zhang, P.; Zhu, Y.; Zhang, G.; Zou, S.; Zeng, G.; Wu, Z. Sewage sludge bioleaching by indigenous sulfur-oxidizing bacteria: Effects of ratio of substrate dosage to solid content. Bioresource Technology 2009, 100(3), 1394–1398.
  • Xiang, L.; Chan, L.; Wong, J. Removal of heavy metals from anaerobically digested sewage sludge by isolated indigenous iron-oxidizing bacteria. Chemosphere 2000, 41(1), 283–287.
  • Lu, M.-C.; Lin, C.J.; Liao, C.H.; Huang, R.Y.; Ting, W.P. Dewatering of activated sludge by Fenton’s reagent. Advances in Environmental Research 2003, 7(3), 667–670.
  • APHA. Standard Methods for the Examination of Water and Wastewater, 20th ed.; American Public Health Association Inc: Washington, DC, 1998.
  • Fontmorin, J.-M.; Sillanpää, M. Bioleaching and combined bioleaching/Fenton-like processes for the treatment of urban anaerobically digested sludge: Removal of heavy metals and improvement of the sludge dewaterability. Separation and Purification Technology 2015, 156, 655–664.
  • Pathak, A.; Dastidar, M.; Sreekrishnan, T. Bioleaching of heavy metals from sewage sludge by indigenous iron-oxidizing microorganisms using ammonium ferrous sulfate and ferrous sulfate as energy sources: A comparative study. Journal of Hazardous Materials 2009, 171(1), 273–278.
  • Mandal, T.; Dasgupta, D.; Mandal, S.; Datta, S. Treatment of leather industry wastewater by aerobic biological and Fenton oxidation process. Journal of Hazardous Materials 2010, 180(1), 204–211.
  • Pathak, A.; Dastidar, M.; Sreekrishnan, T. Bioleaching of heavy metals from sewage sludge: A review. Journal of Environmental Management 2009, 90(8), 2343–2353.
  • Wong, J.; Gu, X. Optimization of Fe2+/solids content ratio for a novel sludge heavy metal bioleaching process. Water Science and Technology 2008, 57(3), 445–450.
  • Yang, S.-F.; Li, X.-Y. Influences of extracellular polymeric substances (EPS) on the characteristics of activated sludge under non-steady-state conditions. Process Biochemistry 2009, 44(1), 91–96.
  • Liu, F.; Zhou, L.; Zhou, J.; Song, X.; Wang, D. Improvement of sludge dewaterability and removal of sludge-borne metals by bioleaching at optimum pH. Journal of Hazardous Materials 2012, 221, 170–177.
  • Gulkaya, I.; Surucu, G.A.; Dilek, F.B. Importance of H2O2/Fe2+ ratio in Fenton’s treatment of a carpet dyeing wastewater. Journal of Hazardous Materials 2006, 136(3), 763–769.
  • Erden, G.; Filibeli, A. Improving anaerobic biodegradability of biological sludges by Fenton pre-treatment: Effects on single stage and two-stage anaerobic digestion. Desalination 2010, 251(1), 58–63.
  • Azhdarpoor, A.; Mohammadi, Z.; Dehghani, M. Stabilization and dewatering of wastewater treatment plants sludge using the Fenton process. Iranian Journal of Health, Safety and Environment 2015, 2(4), 348–354.
  • Kaynak, G.E.; Filibeli, A. Assessment of Fenton process as a minimization technique for biological sludge: Effects on anaerobic sludge bioprocessing. Journal of Residuals Science & Technology 2008, 5(3), 151–160.
  • Zhu, Y.; Zeng, G.; Zhang, P.; Zhang, C.; Ren, M.; Zhang, J.; Chen, M. Feasibility of bioleaching combined with Fenton-like reaction to remove heavy metals from sewage sludge. Bioresource Technology 2013, 142, 530–534.
  • Zhen, G.; Lu, X.; Wang, B.; Zhao, Y.; Chai, X.; Niu, D.; Zhao, T. Enhanced dewatering characteristics of waste activated sludge with Fenton pretreatment: Effectiveness and statistical optimization. Frontiers of Environmental Science & Engineering 2014, 8(2), 267–276.
  • Tu, Y.; Tian, S.; Kong, L.; Xiong, Y. Co-catalytic effect of sewage sludge-derived char as the support of Fenton-like catalyst. Chemical Engineering Journal 2012, 185, 44–51.
  • Neyens, E.; Baeyens, J.; Dewil, R. Advanced sludge treatment affects extracellular polymeric substances to improve activated sludge dewatering. Journal of Hazardous Materials 2004, 106(2), 83–92.

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