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Manuscript ID : 11076 Visit : 144 Page: 159 - 171

10.22034/jest.2017.11076

Article Type: Original Research

Fabrication and Evaluation of anaerobic baffle reactor for leachate treatment of Sari province

Subject Areas : environmental management

Amin Arvin 1 , majid peyravi 2 , Mohsen Jahanshahi 3

1 - PhD of Biotechnology, Department of Chemical engineering, Babol Noshirvani University of Technology, Babol, Iran
2 - Assistand Professor, Faculty of Chemical Engineering, Babol University of Technology , Babol, Iran *(Corresponding Author)
3 - Full professor, Nanobiotech. Research Lab., Faculty of Chemical Engineering, Babol University of Technology, Babol, Iran

Received: 2015-01-19 Accepted : 2015-09-05 Published : 2017-09-23

Keywords: Biological treatment, Anaerobic baffle reactor, Sari landfill leachate, Hydraulic retention time, Chemical oxygen demand,

Abstract :

Background and Objective: Landfill leachate has been identified as a potential source of ground and surface waters contamination due to the generation of leachate. Further, landfill leachate may percolate through soils and cause the large pollution of streams, creeks and water. Hence, the aim of this study is to evaluate the performance of a laboratory-scale ABR in different COD concentrations and hydraulic retention time for COD removal. Method: In this research, an anaerobic baffle reactor (ABR) was used for biological landfill leachate treatment. The ABR was 10 cm wide, 60 cm long, and 10 cm depth and was constructed from Perspex with an effective volume of 6 L. The ABR was seeded with anaerobically digested sewage sludge taken from an anaerobic digester of a wastewater treatment plant in Qaemshahr city. Landfill leachate used in this study was collected from a landfill leachate waste municipal site located in Kiasar, Sari. The experiments used in this study were chemical oxygen demand (COD), pH, suspended solids (SS) and alkalinity. Findings: The anaerobic baffle reactor (ABR) has been have an appropriate performance for COD removal of landfill leachate. Also, the results showed that this reactor presented an acceptable capability of pH control and acidogenic microorganism separation from others. On the other hands, the results demonstrated that an alkalinity remained at the desirable level in the reactor and it is not necessary to add chemical materials to control it. Moreover, the suspended solids were significantly removed in this reactor. Discussion and Conclusion: The obtained results indicated that the highest COD removal (86%) was achieved at the HRT of 2 days where the COD concentration of 2700 mg/L was reduced to 380 mg/L. Furthermore, the system performance at lower hydraulic retention time was decreased. At the COD concentration of 2700 mg/L, 70% decrement of the reactor efficiency was observed by decreasing hydraulic retention time to 12 hr.

References:


  1. K.Y. Foo, B.H. Hameed, An overview of landfill leachate treatment via activated carbon adsorption process, Journal of Hazardous Materials (2009)54–60
    2.
  2. S. Renou, J.G. Givaudan, S. Poulain, F. Dirassouyan, P. Moulin, Landfill   leachate treatment: review and opportunity, J. Hazard. Mater. 150 (2008)  468–493
    3.
  3. Qasim, S.R., Walter, C., Sanitary Landfill Leachate. Technomic Publishing Company, Inc., Lancaster, Pennsylvania. 1994
    4.
  4. O. Aktas¸, F. Cecen, Addition of activated carbon to batch activated sludge reactors in the treatment of landfill leachate and domestic wastewater, J. Chem Technol. Biotechnol. 76 (2001) 793–802.
    5.
  5. S. Baig, I. Coulomb, P. Courant, P. Liechti, Treatment of landfill leachates: Lapeyrouse and Satrod case studies, Ozone Sci. Eng. 21 (1999) 1–22
    6.
  6. K.Y. Foo, B.H. Hameed, An overview of landfill leachate treatment via activated carbon adsorption process, J. Hazard. Mater. 171 (2009) 54–60.
    7.
  7. T.V.Nooten, L. Diels, L. Bastiaens, Design of amultifunctional permeable reactive barrier for the treatment of landfill leachate contamination: laboratory column evaluation, Environ. Sci. Technol. 42 (2008) 8890–8895.
    8.
  8. Jolanta Bohdziewicza, Ewa Neczajb, Anna Kwarciakb, Landfill leachate treatment by means of anaerobic membrane bioreactor, Desalination (2008) 559–565.
    9.
  9. S. Renoua, J, G. Givaudan a,  S. Poulain a, F. Dirassouyan b,  P. Moulin,   Landfill leachate treatment: Review and opportunity, Journal of Hazardous Materials 150 (2008) 468–493
    10.
  10. J.M. Lema, R. Mendez, R. Blazquez, Characteristics of landfill leachates and alternatives for their treatment: a review, Water Air Soil Pollut. 40 (1988) 223–250.
    11.
  11. R.H. Kettunen, T.H. Hoilijoki and J.A. Rintala, Anaerobic and sequential anaerobic–aerobic treatments of municipal landfill leachate at low temperature Bioresours. Technol., 58 (1996) 31–40.
    12.
  12. R. He, D.S. Shen and C.R. Fang, Study on the characteristics of the bioreactor–landfill system. Acta Scientiae Circumstrantiae, 21 (6) (2001) 753–757.
    13.
  13. Jianlong Wang, Yongheng Huang, Xuan Zhao, Performance and characteristics of an anaerobic baffled reactor, 93 (2004) 205–208Bioresource Technology,
    14.
  14. Barber WP, Stuckey D. The use of the anaerobic baffled reactor (ABR) for wastewater treatment: A review. Water Res.1999,33(7):1559-78
    15.
  15. Plumb J, Bell J, Stuckey DC. Microbial populations associated with treatment of an industrial dye effluent in an anaerobic baffled reactor. Appl Environ Microbiol 2001; 67(7):3226–35.
    16.
  16. William P. Barber M And David C. Stuckey M, The Use Of The Anaerobic Baffled Reactor ( ABR) For Wastewater Treatment: A Review.,Pergamon,1354(98)00371-6
    17.
  17. Olfa Ben Dhia Thabet,  Hassib Bouallaguia ,  Jean-luc Cayol Bernard Ollivier ,  Marie Laure Fardeau,  Moktar Hamdi,  Anaerobic  degradation  of  landfill   leachate   using  an   upflow anaerobic fixed-bed reactor with microbial sulfate reduction, Journal of Hazardous Materials 167 (2009) 1133–1140.     
    18.
  18. H. Timur1m and i. Oè zturk, anaerobic sequencing batch reactor treatment of landfill leachate, s0043-1354(99)00048-2.
    19.
  19. Jolanta Bohdziewicza, Ewa Neczajb, Anna Kwarciakb, 2008, Landfill  leachate  treatment by means of anaerobic membrane bioreactor, Desalination  559–565.
    20.
  20. K. J. KENNEDY  and  E. M. LENTZ, treatment  of   landfill    leachate using    sequencing    batch and   continuous    flow    upflow anaerobic  sludge  blanket (uasb) reactors, S0043-1354(00)00114-7.
    21.
  21. کریمی جشنی ایوب و همکاران، بررسی تصفیه‌پذیری شیرابه محل دفن زباله‌های شیراز به روش هضم بی‌هوازی دو مرحله‌ای، چهارمین کنگره ملی مهندسی عمران، 1387
    22.
  22. اویسی داود و همکاران، کارایی راکتور بی‌هوازی UASB در تصفیه شیرابه محل دفن زباله کهریزک تهران، نهمین همایش ملی بهداشت محیط، 1385
    23.
  23. APHA, AWWA, WEF. (1992). Standard Methods For The Examination Of Water And Wastewater, 18th Ed Washington DC., USA.
    24.
  24. Thanwised, Phatlapha, Wanpen Wirojanagud, and Alissara Reungsang. "Effect of hydraulic retention time on hydrogen production and chemical oxygen demand removal from tapioca wastewater using anaerobic mixed cultures in anaerobic baffled reactor (ABR)." international journal of hydrogen energy 37, no. 20 (2012): 15503-15510.
    25.
  25. Ji, G. D., T. H. Sun, J. R. Ni, and J. J. Tong. "Anaerobic baffled reactor (ABR) for treating heavy oil produced water with high concentrations of salt and poor nutrient." Bioresource Technology 100, no. 3 (2009): 1108-1114.
    26.
  26. Chen, Chin-Chao, Hong-Pin Chen, Jou-Hsien Wu, and Chiu-Yue Lin. "Fermentative hydrogen production at high sulfate concentration." International Journal of Hydrogen Energy 33, no. 5 (2008): 1573-1578.
    27.
  27. Ren, N.Q., Zhao, D., Chen, X.L., Li, J.Z. Mechanism and controlling strategy of the production and accumulation of propionic acid for anaerobic wastewater treatment. Sci China, 2002, 319–32.
    28.
  28. S.Y. Bodkhe, A modified anaerobic baffled reactor for municipal wastewater treatment, Journal of Environmental Management.2009. Volume (90): P. 2488–2493.
    29.
  29. Zhu, Ge-Fu, Jian-Zheng Li, Peng Wu, Hui-Zheng Jin, and Zheng Wang. "The performance and phase separated characteristics of an anaerobic baffled reactor treating soybean protein processing wastewater." Bioresource Technology 99, no. 17 (2008): 8027-8033.
    30.

 

 

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