References

1. F.A. El-Gohary, The role of appropriate technologies for wastewater reclamation and reuse. International conference on Wastewater Management and its Effect on the Environment in Hot and Arid Countries, Muscat, Sultanate of Oman, 12–14 October 2002.
2. G. Lettinga, A.F.M. van Velseo, S.W. Hobma, W. de Zeeuw and A. Klapvvijk, Use of the upflow sludge blanket (UASB) reactor concept for biological wastewater treatment, especially for anaerobic treatment, Biotechnol. Bioeng., 22 (1980) 699–734.
3. J.C. Young and B.S. Yang, Design considerations for full-scale anaerobic filters, J. Water Poll. Control Fed., 61 (1989) 1576–1587.
4. N. Bq´yq´kkamaci and A. Filibeli, Concentrated wastewater treatment studies using an anaerobic hybrid reactor, Process Biochem., 38 (2002) 771–775.
5. T.A. Elmitwalli, M. Zandvoort, G. Zeeman, H. Bruning and G. Lettinga, Low temperature treatment of domestic sewage in upflow anaerobic sludge blanket and anaerobic hybrid reactors, Wat. Sci. Technol., 39 (1999) 177–185.
6. K.J. Kennedy, S.S. Gouru, C.A. Elliot, E. Andras and S.R. Guiot, Media effect on performance of anaerobic hybrid reactors, Wat. Res., 23 (1990) 1397–1405.
7. G. Lettinga and L.W. Hulshoff Pol, UASB-process design for various types of wastewaters, Wat. Sci. Technol., 24 (1991) 87–107.
8. M. Hutnian, M. Drtil, L. Mrafkovaa, J. Derco and J. Buday, Comparison of startup and anaerobic wastewater treatment in UASB, hybrid and baffled reactor, Biopro. Eng., 21 (1999) 439–445.
9. J.A. Oleszkiewicz and V.J. Thadani, Effect of biofilter media on the performance of anaerobic hybrid reactor, Environ. Technol. Lett., 9 (1988) 89–100.
10. Y.C. Chung and Y.S. Choi, Microbial activity and performance of an anaerobic reactor combining a filter and a sludge bed, Wat. Sci Technol., 27 (1993) 187–194.
11. M. Tandukar, I. Machdar, S. Uemura, A. Ohashi and H. Harada, Potential of a combination of UASB and DHS reactor as a novel sewage treatment system for developing countries: Long-term evaluation, J. Env. Eng. (ASCE), 132(2) (2006) 166–172.
12. Metcalf & Eddy, Inc. Wastewater Engineering: Treatment and Reuse, 4th ed., McGraw-Hill, New York, 2003.
13. C.A.L. Chernicharo and M.C.P. Nascimento, Feasibility of a pilot-scale UASB/trickling filter system for domestic sewage treatment, Wat. Sci. Technol., 44(4) (2001) 221–228.
14. I. Machdar, H. Harada, A. Ohashi, Y. Sekiguchi, H. Okui and K. Ueki, A novel and cost-effective sewage treatment system consisting of UASB pre-treatment and aerobic post-treatment unit for developing countries, Wat. Sci. Technol., 36(12) (1997) 189–197.
15. I. Machdar, Y. Sekiguchi, H. Sumino, A. Ohashi and H. Harada, Combination of a UASB reactor and a curtain type DHS (downflow hanging sponge) reactor as a cost effective sewage treatment system for developing countries, Wat. Sci. Technol., 42(3/4) (2000) 83–88.
16. M. Tandukar, A. Ohashi and H. Harada, Performance comparison of a pilot scale UASB and DHS system and activated sludge process for the treatment of municipal wastewater, Wat. Res., 41 (2007) 2697–2705.
17. A. Tawfik, A. Ohashi and H. Harada, Sewage treatment in a combined up-flow anaerobic sludge blanket (UASB)–down-flow hanging sponge (DHS) system, Biochem. Eng., 29 (2006) 210–219.
18. APHA, Standard Methods for the Examination of Water and Wastewater, 20th ed., Washington, USA, 1998.
19. J. Dolfing and W. Bloemen, Activity measurements as a tool to characterize the microbial composition of methanogenic environments, J. Microbiol. Methods, 4 (1985) 1–12.
20. M.H. Isa, I.H Farooqi and R.H Siddiqi, Methanogenic activity test for study of anaerobic process, Indian J. Environ. Health, 35 (1993) 1–8.
21. W.F. Owen, D.C. Stuckey, J.B. Healy, L.Y. Young and P.L. McCarty, Bioassay for monitoring biochemical methane potential and anaerobic toxicity, Wat. Res., 13 (1979) 485–492.
22. M. Soto, R.J. Mendez and M. Lema, Methanogenic and nonmethanogenic activity tests: Theoretical basis and experimental set up, Wat. Res., 27 (1993) 1361–1376.
23. J. Tay and Y. Yan, Influence of substrate concentration on microbial selection and granulation during start-up of upflow anaerobic sludge blanket reactors, Wat. Environ. Res., 68 (1996) 1140–1150.
24. S. Aiyuk, J. Amoako, L. Raskin, A. van Haandel and W. Verstraete, Removal of carbon and nutrients from domestic wastewater using a low investment, integrated treatment concept, Wat. Res., 38 (2004) 3031–3042.
25. M. Tandukar, S. Uemura, A. Ohashi and H. Harada, A low-cost municipal sewage treatment system with a combination of UASB and the “fourth generation” downflow hanging sponge (DHS) reactors, Wat. Sci. Technol., 52(1/2) (2005) 323–329.
26. M. Tandukar, A. Ohashi and H. Harada, Performance comparison of a pilot scale UASB and DHS system and activated sludge process for the treatment of municipal wastewater, Wat. Res., 41 (2007) 2697–2705.
27. N. Araki, A. Ohashi, I. Machdar and H. Harada, Behaviors of nitrifiers in a novel biofilm reactor employing hanging spongecubes as attachment site, Wat. Sci. Technol., 39(7) (1999) 23–31.
28. A. Tawfik, F. El-Gohary, A. Ohashi and H. Harada, The influence of physical-chemical and biological factors on the removal of faecal coliform through down-flow hanging sponge (DHS) system treating UASB reactor effluent, Wat. Res., 40 (2006) 1877–1883.
29. H.A. Hawkes, The Ecology of Wastewater Treatment. Pergamon Press, London, 1963.
30. R.L. Droste, Theory and Practice of Water and Wastewater Treatment. Wiley, New York, 1997.
31. A. James, C.A. Chenrincharo and C.M.M. Campos, The development of a new methodology for the assessment of specific methanogenic activity, Wat. Res., 24 (1990) 813–825.
32. N. Büyükkamaci and A. Filibeli, Volatile fatty acid formation in an anaerobic hybrid reactor, Process Biochem., 39 (2004) 1491–1494.
33. M.L. Shuler and F. Kargi, Bioprocess Engineering Basic Concepts. USA: Prentice Hall, International Ser. Phys. Chem. Eng. Sci., 1992.