Investigating and Comparing the Feasibility of Using Anaerobic Digesters in Wastewater Treatment Plants with SBR and MLE Processes

Document Type : Original Article/Regular article

Authors

1 Associate Professor, Shahrood University of Technology, Iran.

2 MSc. Graduate in Faculty of Mechanical Engineering, Shahrood University of Technology, Iran.

3 MSc. Graduate in Faculty of Civil Engineering, Shahrood University of Technology, Iran.

4 BSc. of Mechanical Engineering in Azad University of Mashhad, Mashhad Water and Wastewater Company, Mashhad, Iran

5 PhD student of Electrical Engineering in Ferdowsi University of Mashhad, Mashhad Water and Wastewater Company, Mashhad, Iran

Abstract

Nowadays, due to the decrease in fossil fuel resources, generating biogas from corruptible waste is getting attention. Anaerobic digesters are utilized in wastes management and produce renewable energy from it. Generally, the anaerobic digesters convert wastes to methane and carbon dioxide. Effective parameters on the anaerobic digestion process are reactor configuration, temperature range, mixing system, and waste type. In this paper, using of produced sludge in an anaerobic digester was investigated for municipal WWTP with SBR and MLE processes. For this means, Alteimour and Kheine-Arab wastewater treatment plants (WWTPs) have been considered as case studies. The applied processes in Kheine-Arab and Alteimour WWTPs are SBR and MLE, respectively. Results comparison shows that the produced sludge from the SBR process (Kheine-Arab WWTP) has no suitable potential for biogas production. However, there is potential for biogas production at the Alteimour treatment plant, and investment can be made in the future on Alteimour WWTP.

Keywords

References

Ali S.M.H., Lenzen M., Sack F. and Yousefzadeh M. 2020. Electricity generation and demand flexibility in wastewater treatment plants: Benefits for 100% renewable electricity grids. Applied Energy, 268: 114960.
Bresters A.R. 1998. Sludge treatment and disposal: management approaches and experiences, Office for official publications of the European communities.
Calli B., Mertoglu B., Inanc, B. and Yenigun, O. 2005. Effects of high free ammonia concentrations on the performances of anaerobic bioreactors. Process Biochemistry, 40(3-4): 1285-1292.
Dos Santos I.F.S., Barros R.M. and Tiago Filho G.L. 2016. Electricity generation from biogas of anaerobic wastewater treatment plants in Brazil: an assessment of feasibility and potential. Journal of cleaner production, 126: 504-514.    
Feng Q., Song Y.C., Kim D.H., Kim M.S. and Kim D.H. 2019. Influence of the temperature and hydraulic retention time in bioelectrochemical anaerobic digestion of sewage sludge. International Journal of Hydrogen Energy, 44(4): 2170-2179.
Gikas P. 2017. Towards energy positive wastewater treatment plants. Journal of environmental management, 203: 621-629.
Hernández-Sancho F., Molinos-Senante M. and Sala-Garrido R. 2011. Energy efficiency in Spanish wastewater treatment plants: A non-radial DEA approach. Science of the Total Environment, 409(14): 2693-2699.
Junior I.V., de Almeida R. and Cammarota M.C. 2020. A review of sludge pretreatment methods and co-digestion to boost biogas production and energy self-sufficiency in wastewater treatment plants. Journal of Water Process Engineering, 16: 101857.
Karim K., Hoffmann R., Klasson K.T., Al-Dahhan M.H. 2005. Anaerobic digestion of animal waste: effect of mode of mixing. Water Research, 39: 3597–3606.
Khalid A., Arshad M., Anjum M., Mahmood T. and Dawson L. 2011. The anaerobic digestion of solid organic waste.Waste Management, 31: 1737–1744.
Koupaie E.H., Johnson T. and Eskicioglu C. 2017. Advanced anaerobic digestion of municipal sludge using a novel and energy-efficient radio frequency pretreatment system. Water research, 118: 70-81.
Lafratta M., Thorpe R.B., Ouki S.K., Shana A., Germain E., Willcocks M. and Lee J. 2020. Dynamic biogas production from anaerobic digestion of sewage sludge for on-demand electricity generation. Bioresource technology, 310: 123415.
Meegoda J.N., Li B., Patel K. and Wang L.B. 2018. A review of the processes, parameters, and optimization of anaerobic digestion. International journal of environmental research and public health, 15(10): 2224.
Metcalf & Eddy, Inc., Burton F.L., Stensel H.D. and Tchobanoglous G. 2003. Wastewater engineering: treatment and reuse. McGraw Hill. New York, United States.
Mir M.A., Hussain A. and Verma C. 2016. Design considerations and operational performance of anaerobic digester: A review. Cogent Engineering, 3(1): 1181696.
Milieux Z.d., Sludge dewatering, S. FLOERGER, Editor. 2003, SNF FLOERGER.
Procházka J., Dolejš P., Máca J. and Dohányos M. 2012. Stability and inhibition of anaerobic processes caused by insufficiency or excess of ammonia nitrogen. Applied microbiology and biotechnology, 93(1): 439-447.
Romano RT. and Zhang R: 2011 Anaerobic digestion of onion residuals using a mesophilic Anaerobic Phased Solids Digester. Biomass Bioenerg, 35(10): 4174–4179.
Rulkens W. 2008. Sewage sludge as a biomass resource for the production of energy: overview and assessment of the various options. Energy & Fuels, 22(1): 9-15.
Singh A.D., Upadhyay A., Shrivastava S. and Vivekanand V. 2020. Life-cycle assessment of sewage sludge-based large-scale biogas plant. Bioresource technology, 309: 123373.
Skinner S.J., Studer L.J., Dixon D.R., Hillis P., Rees C. A., Wall R.C. and Scales P.J. 2015. Quantification of wastewater sludge dewatering. water research, 82: 2-13.
Wang S., Ma F., Ma W., Wang P., Zhao G. and Lu X. 2019. Influence of temperature on biogas production efficiency and microbial community in a two-phase anaerobic digestion system. Water, 11(1): 133.
Ward A. J., Hobbs P. J., Holliman P. J. and Jones D. L. 2008. Optimisation of the anaerobic digestion of agricultural resources. Bioresource technology, 99(17): 7928-7940.
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Journal of Water and Sustainable Development
Volume 8, Issue 3 - Serial Number 21
December 2021
Pages 63-72

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History

  • Receive Date: 28 February 2021
  • Revise Date: 13 May 2021
  • Accept Date: 17 May 2021

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