References

  1. G. Zhu, R. Zou, A.K. Jha, X. Huang, L. Liu, C. Liu, Recent developments and future perspectives of anaerobic baffled bioreactor for wastewater treatment and energy recovery, Crit. Rev. Env. Sci. Tec., 45 ( 2015) 1243–1276.
  2. A. Bachmann, V.L. Beard, P.L. McCarty, Performance characteristics of the anaerobic baffled reactor, Water. Res., 19 (1985) 99–106.
  3. Y. Sarathai, T. Koottatep, A. Morel, Hydraulic characteristics of an anaerobic baffled reactor as on site wastewater treatment system, J. Environ. Sci. China, 22 (2010) 1319–1326.
  4. S. Li, J. Nan, H. Li, M. Yao, Comparative analyses of hydraulic characteristics between the different structures of two anaerobic baffled reactors (ABRs), Ecol. Eng., 82 (2015) 138–144.
  5. S. Li, J. Nan, F. Gao, Hydraulic characteristics and performance modeling of a modified anaerobic baffled reactor (MABR), Chem. Eng. J., 284 (2016) 85–92.
  6. A. Arvin, M. Peyravi, M. Jahanshahi, H. Salmani, Hydrodynamic evaluation of an anaerobic baffled reactor for landfill leachate treatment, Desal. Water Treat., 57 (2016) 19596–19608. [7.] M. Xu, L. Ding, K. Xu, J. Geng, H. Ren, Flow patterns and optimization of compartments for the anaerobic baffled reactor, Desal. Water Treat., 57 (2016) 345–352.
  7. W.P. Barber, D.C. Stuckey, The use of the anaerobic baffled reactor (ABR) for wastewater treatment: a review, Water Res., 33 (1999) 1559–1578.
  8. R. Liu, Q. Tian, J. Chen, The developments of anaerobic baffled reactor for wastewater treatment: A review, Afr. J. Biotechnol., 9 (2010) 1535–1542.
  9. P. Dama, J. Bell, C.J. Brouckaert, C.A. Buckley, D.C. Stuckey, Computational fluid dynamics: application to the design of the anaerobic baffled reactor, Proc. WISA Biennial Conference, 2000, Sun City, South Africa.
  10. Metcalf & Eddy Inc., G. Tchobanoglous, H.D. Stensel, R. Tsuchihashi, F. Burton, Wastewater Engineering: Treatment and Resource Recovery, McGraw-Hill, New York, 2013.
  11. O. Levenspiel, Chemical Reaction Engineering, John Wiley & Sons. Inc, New York, 1999.
  12. X. Chen, P. Zheng, Y. Guo, Q. Mahmood, C. Tang, S. Ding, Flow patterns of super-high-rate anaerobic bioreactor, Bioresour. Technol., 101 (2010) 7731–7735.
  13. Y.K. Ahn, A diffusion model of an isothermal tubular flow reactor, Master’s Thesis. Kansas State University, USA. 1962.
  14. T.T. Ren, Y. Mu, H.Q. Yu, H. Harada, Y.Y. Li, Dispersion analysis of an acidogenic UASB reactor, Chem. Eng. J., 142 (2008) 182–189.
  15. J. Persson, N.L.G. Somes, T.HF. Wong, Hydraulics efficiency of constructed wetlands and ponds, Water Sci. Technol., 40(1999) 291–300.
  16. A. Grobicki, D.C. Stuckey, Hydrodynamic characteristics of the anaerobic baffled reactor, Water. Res., 26 (1992) 371–378.
  17. R. Renuka, S. Mariraj Mohan, S. Amal Raj, Hydrodynamic behaviour and its effects on the treatment performance of panelled anaerobic baffle-cum filter reactor, Int. J. Environ. Sci. Technol., 13 (2016) 307–318.
  18. X. Liu, N. Ren, C. Wan, Hydrodynamic characteristics of a four-compartment periodic anaerobic baffled reactor, J. Environ. Sci. China, 19 (2007) 1159–1165.
  19. H.W. Young, J.C. Young, Hydraulic characteristics of upflow anaerobic filters, J. Environ. Eng., 114 (1988) 621–928.
  20. F.E. Dierberg, J.J. Juston, T.A. DeBusk, K. Pietro, B. Gu, Relationship between hydraulic efficiency and phosphorus removal in a submerged aquatic vegetation-dominated treatment wetland, Ecol. Eng., 25 (2005) 9–23.
  21. S. Singh, R. Haberl, O. Moog, R.R. Shrestha, P. Shrestha, R. Shrestha, Performance of an anaerobic baffled reactor and hybrid constructed wetland treating high-strength wastewater in Nepal—A model for DEWATS, Ecol. Eng., 35 (2009) 654–660.
  22. A.A.M. Langenhoff, D.C. Stuckey, Treatment of dilute wastewater using an anaerobic baffled reactor: effect of low temperature, Water Res., 34 (2000) 3867–3875.
  23. J. Ji, K. Zheng, Y. Xing, P. Zheng, Hydraulic characteristics and their effects on working performance of compartmentalized anaerobic reactor, Bioresource Technol., 116 (2012) 47–52.