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Journal of Environmental Science and Health, Part A
Toxic/Hazardous Substances and Environmental Engineering
Volume 57, 2022 - Issue 10
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Research Article

Combined slaughterhouse wastewater treatment via pilot plant chemical coagulation followed by 4th generation downflow hanging sponge (DHS-4G)

Mohamed S. HellalWater Pollution Research Department, National Research Centre, Egypt, CairoCorrespondence[email protected]
ORCID Iconhttps://orcid.org/0000-0003-1887-6951
ORCID Icon &
Hala S. DomaWater Pollution Research Department, National Research Centre, Egypt, CairoORCID Iconhttps://orcid.org/0000-0002-0581-210X
ORCID Icon
Pages 891-901 | Received 10 Jun 2022, Accepted 23 Sep 2022, Published online: 03 Oct 2022

References

  • Özdemir, S.; Uzal, N.; Gökçek, Ö. B. Investigation of the Treatability of Pre‐Coagulated Slaughterhouse Wastewater Using Dead‐End Filtration. J. Chem. Technol. Biotechnol. 2021, 96, 1927–1935. DOI: 10.1002/jctb.6716.
  • Zamani, H.; Golestani, H. A.; Mousavi, S. M.; Zhiani, R.; Hosseini, M. S. Slaughterhouse Wastewater Treatment Using Biological Anaerobic and Coagulation-Flocculation Hybrid Process. DWT. 2019, 155, 64–71. DOI: 10.5004/dwt.2019.23914.
  • Gökçek, Ö. B.; Özdemir, S. Optimization of the Coagulation–Flocculation Process for Slaughterhouse Wastewater Using Response Surface Methodology. Clean - Soil, Air, Water. 2020, 48, 1–12.
  • Bustillo-Lecompte, C. F.; Mehrvar, M. Slaughterhouse Wastewater Characteristics, Treatment, and Management in the Meat Processing Industry: A Review on Trends and Advances. J. Environ. Manage. 2015, 161, 287–302.
  • Johns, M. R. Developments in Wastewater Treatment in the Meat Processing Industry: A Review. Bioresour. Technol. 1995, 54, 203–216. DOI: 10.1016/0960-8524(95)00140-9.
  • Basitere, M.; Njoya, M.; Ntwampe, S. K. O.; Sheldon, M. S. Up-Flow vs Downflow Anaerobic Digester Reactor Configurations for Treatment of Fats-Oil-Grease Laden Poultry Slaughterhouse Wastewater: A Review. Water Pract. Technol. 2020, 15, 248–260. DOI: 10.2166/wpt.2020.023.
  • Caixeta, C. E. T.; Cammarota, M. C.; Xavier, A. M. F. Slaughterhouse Wastewater Treatment: Evaluation of a New Three-Phase Separation System in a UASB Reactor. Bioresour. Technol. 2002, 81, 61–69. DOI: 10.1016/S0960-8524(01)00070-0.
  • Musa, M. A.; Idrus, S. Physical and Biological Treatment Technologies of Slaughterhouse Wastewater: A Review. Sustainability. 2021, 13, 1–20.
  • Hellal, M. S.; Al-Sayed, A.; El-Liethy, M. A.; Hassan, G. K. Technologies for Wastewater Treatment and Reuse in Egypt: Prospectives and Future Challenges. In Handbook of Advanced Approaches towards Pollution Prevention and Control; Elsevier: AE Amsterdam, Netherlands, 2021; 275–310.
  • Abou-Elela, S. I.; Abo-El-Enein, S. A.; Hellal, M. S. Utilization of Autoclaved Aerated Concrete Solid Waste as a Bio-Carrier in Immobilized Bioreactor for Municipal Wastewater Treatment. DWT. 2019, 168, 108–116. DOI: 10.5004/dwt.2019.24640.
  • Abou-Elela, S. I.; Hellal, M. S.; Aly, O. H.; Abo-Elenin, S. A. Decentralized Wastewater Treatment Using Passively Aerated Biological Filter. Environ. Technol. 2019, 40, 250–260.
  • Tandukar, M.; Machdar, I.; Uemura, S.; Ohashi, A.; Harada, H. Potential of a Combination of UASB and DHS Reactor as a Novel Sewage Treatment System for Developing Countries: Long-Term Evaluation. J. Environ. Eng. 2006, 132, 166–172. DOI: 10.1061/(ASCE)0733-9372(2006)132:2(166).
  • Okubo, T.; Onodera, T.; Uemura, S.; Harada, H. Development of a Cost-Effective Novel Sewage Treatment System by a Combination of UASB Reactor and the “Fourth Generation” Downflow Hanging Sponge (DHS) Reactor. Environ. Eng. Res. 2004, 41, 155–164. DOI: 10.11532/proes1992.41.155.
  • Mahmoud, M.; Tawfik, A.; El-Gohary, F. Use of down-Flow Hanging Sponge (DHS) Reactor as a Promising Post-Treatment System for Municipal Wastewater. Chem. Eng. J. 2011, 168, 535–543. DOI: 10.1016/j.cej.2011.01.019.
  • Tawfik, A.; Wahab, R. A.; Al-Asmer, A.; Matary, F. Effect of Hydraulic Retention Time on the Performance of Down-Flow Hanging Sponge System Treating Grey Wastewater. Bioprocess Biosyst. Eng. 2011, 34, 767–776.
  • Onodera, T.; Yoochatchaval, W.; Sumino, H.; Mizuochi, M.; Okadera, T.; Fujita, T.; Banjongproo, P.; Syutsubo, K. Pilot-Scale Experiment of Down-Flow Hanging Sponge for Direct Treatment of Low-Strength Municipal Wastewater in Bangkok, Thailand. Bioprocess Biosyst. Eng. 2014, 37, 2281–2287.
  • Tawfik, A.; Zaki, D. F.; Zahran, M. K. Degradation of Reactive Dyes Wastewater Supplemented with Cationic Polymer (Organo Pol.) in a Down Flow Hanging Sponge (DHS) System. J. Ind. Eng. Chem. 2014, 20, 2059–2065. DOI: 10.1016/j.jiec.2013.09.031.
  • Doma, H. S.; El-Kamah, H. M.; El-Qelish, M. Slaughterhouse Wastewater Treatment Using UASB Reactor Followed by Down Flow Hanging Sponge Unit. Res. J. Pharm. Biol. Chem. Sci. 2016, 568–576.
  • APHA. Standard Methods for the Examination of Water and Wastewater, 23th.; 2017; 1469p.
  • Onodera, T.; Tandukar, M.; Sugiyana, D.; Uemura, S.; Ohashi, A.; Harada, H. Development of a Sixth-Generation Down-Flow Hanging Sponge (DHS) Reactor Using Rigid Sponge Media for Post-Treatment of UASB Treating Municipal Sewage. Bioresour. Technol. 2014, 152, 93–100.
  • Metcalf & Eddy, Inc. Wastewater Engineering Teatment and Reuse, 4th.; McGraw-Hill: Boston, 2004.
  • Amuda, O. S.; Alade, A. Coagulation/Flocculation Process in the Treatment of Abattoir Wastewater. Desalination. 2006, 196, 22–31. DOI: 10.1016/j.desal.2005.10.039.
  • Tariq, M.; Ahmad, M.; Siddique, S.; Waheed, A.; Shafiq, T.; Khan, M. H. Optimization of Coagulation Process for the Treatment of the Characterized Slaughterhouse Wastewater. Pak. J. Sci. Ind. Res. Ser. A: Phys. Sci. 2012, 55, 43–48. DOI: 10.52763/PJSIR.PHYS.SCI.55.1.2012.43.48.
  • Satyanarayan, S.; Vanerkar, A. P. Conventional Approach for Abattoir Wastewater Treatment. Environ. Technol. 2005, 26, 441–7447.
  • Bazrafshan, E.; Kord Mostafapour, F.; Farzadkia, M.; Ownagh, K. A.; Mahvi, A. H. Slaughterhouse Wastewater Treatment by Combined Chemical Coagulation and Electrocoagulation Process. PLoS One. 2012, 7, e40108. DOI: 10.1371/journal.pone.0040108.
  • Tandukar, M.; Uemura, S.; Machdar, I.; Ohashi, A.; Harada, H. A Low-Cost Municipal Sewage Treatment System with a Combination of UASB and the “Fourth-Generation” Downflow Hanging Sponge Reactors. Water Sci. Technol. 2005, 52, 323–329.
  • Nurmiyanto, A.; Ohashi, A. Downflow Hanging Sponge (DHS) Reactor for Wastewater Treatment - A Short Review. MATEC Web Conf. 2019, 280, 05004. DOI: 10.1051/matecconf/201928005004.
  • Machdar, I.; Onodera, T.; Syutsubo, K.; Ohashi, A. Effects of Sponge Pore-Size on the Performance of a Down-Flow Hanging Sponge Reactor in Post-Treatment of Effluent from an Anaerobic Reactor Treating Domestic Wastewater. Sustain. Environ. Res. 2018, 28, 282–288. DOI: 10.1016/j.serj.2018.07.001.
  • Nguyen, H. T.; Le, H. T. T.; Dinh, N. T.; Phan, T. D. A Research on the Performance of Down-Flow Hanging Sponge (DHS) Reactor Treating Domestic Wastewater. JST. 2018, 56, 482. DOI: 10.15625/2525-2518/56/4/10878.
  • Machdar, I. Hydraulic Behavior in the Downflow Hanging Sponge Bioreactor. JLI Padang. 2016, 6, 83. DOI: 10.24960/jli.v6i2.1679.83-88.
  • Nga, D. T.; Hiep, N. T.; Hung, N. T. Q. Kinetic Modeling of Organic and Nitrogen Removal from Domestic Wastewater in a Down-Flow Hanging Sponge Bioreactor. Environ. Eng. Res. 2020, 25, 243–250. DOI: 10.4491/eer.2018.390.
  • Marquet, R.; Muhammad, N.; Vairavamoorthy, K.; Wheatley, A. Particle Size Distribution to Assess the Performance of Trickling Filters. Process Saf. Environ. Prot. 2007, 85, 99–103. DOI: 10.1205/psep.05194.
  • Watari, T.; Nakamura, Y.; Kotcharoen, W.; Hirakata, Y.; Satanwat, P.; Pungrasmi, W.; Powtongsook, S.; Takeuchi, Y.; Hatamoto, M.; Yamaguchi, T. Application of Down-Flow Hanging Sponge – Upflow Sludge Blanket System for Nitrogen Removal in Epinephelus Bruneus Closed Recirculating Aquaculture System. Aquaculture. 2021, 532, 735997. DOI: 10.1016/j.aquaculture.2020.735997.
  • Tandukar, M.; Uemura, S.; Ohashi, A.; Harada, H. Combining UASB and the “Fourth Generation” Down-Flow Hanging Sponge Reactor for Municipal Wastewater Treatment. Water Sci. Technol. 2006, 53, 209–218.
  • Blackburne, R.; Yuan, Z.; Keller, J. Demonstration of Nitrogen Removal via Nitrite in a Sequencing Batch Reactor Treating Domestic Wastewater. Water Res. 2008, 42, 2166–2176. DOI: 10.1016/j.watres.2007.11.029.
  • Tandukar, M.; Ohashi, A.; Harada, H. Performance Comparison of a Pilot-Scale UASB and DHS System and Activated Sludge Process for the Treatment of Municipal Wastewater. Water Res. 2007, 41, 2697–2705.

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