References

  1. MOE, Basic plan of energy self-sufficiency, Report of Ministry of Environment, 2010.
  2. K-ECO, Study on Development of technology diagnosis technique through analysis of energy consumption pattern of sewage treatment facility, Report of Korea Environment Corporation, 2015.
  3. KEI, A Study on the Improvement of Energy Management for Wastewater Utilities, Report of Korea Environment Institute, 2011.
  4. EPRI, Water & Sustainability (Volume 4): U.S. Electricity Consumption for Water Supply & Treatment – the next half century, Report of Electric Power Research Institute, 2002.
  5. S. Longo, B. Mirko d`Antoni, M. Bongards, A. Chaparro, A. Cronrath, F. Fatone, J.M. Lema, M. Mauricio-lglesias, A. Soares, A. Hospido, Monitoring and diagnosis of energy consumption in wastewater treatment plants. A state of the art and proposals for improvement, Appl. Energy, 179 (2016) 1251–1268.
  6. S.S. Ashlynn, C.H. David, E.W. Michael, Energy recovery from wastewater treatment plants in the United States: a case study of the energy-water nexus, Sustainability, 2 (2010) 945–962.
  7. C. Matos, S. Pereira, E. Amorim, I. Bentes, A. Briga-Sá, Wastewater and greywater reuse on irrigation in centralized and decentralized systems—an integrated approach on water quality, energy consumption and CO2 emissions, Sci. Total Environ., 493 (2014) 463–471.
  8. P. Foladori, M. Vaccari, F. Vitali, Energy audit in small wastewater treatment plants: methodology, energy consumption indicators, and lessons learned, Water Sci. Technol., 72 (2015) 1007–1015.
  9. O.W. Awe, R. Liu, Y. Zhao, Analysis of energy consumption and saving in wastewater treatment plant: case study from Ireland, J. Water Sustain., 6 (2016) 63–76.
  10. Mo Chalabi, CH2M Beca, Artificial intelligence in the water industry: myth or reality? Online, Available at: https://www.waternz.org.nz/Article?Action=View&Article_id=1377 (accessed 11 December 2018)
  11. B.S. Renan, S.M. Marina, P.R. Regiane, F.G. Ricardo, Comparative analysis of the energy consumption of different wastewater treatment plants, Int. J. Architect. Arts Applic., 3 (2017) 79–86.
  12. Y. Gu, Y. Li, X. Li, P. Luo, H. Wang, Z.P. Robinson, X. Wang, J. Wu, F. Li, The feasibility and challenges of energy selfsufficient wastewater treatment plants, Appl. Energy, 204 (2017) 1463–1475.
  13. K.S. Song, Energy auditing for a wastewater treatment plant: case study for a S-treatment plant, Master's thesis, University of Chung-Ang, Republic of Korea, 2015.
  14. K-ECO, Study on Improvement of Operation Management of Integrated Management Sewage Facilities, Report of Korea Environment Corporation, 2017.
  15. GWRC, Energy Efficiency in the Water Industry: A Compendium of Best Practices and Case Studies - Global Report, Report of Global Water Research Coalition, 2010.
  16. A.K. Sharma, T. Guildal, H.R. Thomsen, B.N. Jacobsen, Energy savings by reduced mixing in aeration tanks: results from a fullscale investigation and long-term implementation at Avedoere wastewater treatment plant, Water Sci. Technol., 64 (2011) 1080–1095.
  17. R. Gori, L.M. Jiang, R. Sobhani, D. Rosso, Effects of soluble and particulate substrate on the carbon and energy footprint of wastewater treatment processes, Water Res., 45 (2011) 5858–5872.
  18. D. Panepinto, S. Fiore, M. Zappone, G. Genon, L. Meucci, Evaluation of the energy efficiency of a large wastewater treatment plant in Italy, Appl. Energy, 161 (2016) 404–411.
  19. P. Póvoa, A. Oehmen, P. Inocêncio, J.S. Matos, A. Frazão, Modelling energy costs for different operational strategies of a large water resource recovery facility, Water Sci. Technol., 75 (2017) 2139–2148.
  20. S. Sid, A. Volant, G. Lesage, M. Heran, Cost minimization in a full-scale conventional wastewater treatment plant: associated costs of biological energy consumption versus sludge production, Water Sci. Technol., 76 (2017) 2473–2481.
  21. N.A. Ramli, Md. F.A. Hamid, Analysis of energy efficiency and energy consumption costs: a case study for regional wastewater treatment plant in Malaysia, J. Water Reuse Desal., 07 (2017) 103–110.
  22. O. Nowak, S. Keil, C. Fimml, Examples of energy self-sufficient municipal nutrient removal plants, Water Sci. Technol., 64 (2011) 1–6.
  23. L. Åmand, G. Olsson, B. Carlsson, Aeration control – a review, Water Sci. Technol., 67 (2013) 2374–2398.
  24. M.H. Kim, S.H. Ji, Jung H. Jang, A study on energy saving effect from automatic control of air flowrate and estimation of optimal DO concentration in oxic reactor of wastewater treatment plant, J. Energy Eng., 23 (2014) 49–56.
  25. A. Zadorojniy, S. Wasserkrug, S. Zeltyn, V. Lipets, IBM cognitive technology helps aqualia to reduce costs and save resources in wastewater treatment, Informs, 47 (2017) 411–424.
  26. J.J. Zhu, P.R. Anderson, Exploring aeration-associated energy savings at a conventional water reclamation plant, Water Sci. Technol., 76 (2017) 2222–2231.
  27. K. Füreder, K. Svardal, W. Frey, H. Kroiss, J. Krampe, Energy consumption of agitators in activated sludge tanks – actual state and optimization potential, Water Sci. Technol., 77 (2018) 800–808.
  28. KEA, Lighting System Technical Information Collection - Replacement with High Efficiency Lighting Equipment, Korea Energy Agency, 2017.
  29. P.E. Ely Greenberg, CEM, Energy Audits for Water and Wastewater Treatment Plants and Pump Stations, Online, Available at: https://www.cedengineering.com/search?wmq=%20M02-04 (accessed 19 July 2018)
  30. Ohio RACP, Salineville Wastewater Treatment Facility - Energy Audit, Level II, Report of Ohio Rural Community Assistance Program, 2009.
  31. EPA, EPA’s Energy Use Assessment Tool User’s Guide Version 2.0. United States Environmental Protection Agency, 2012.
  32. D. Mamais, C. Noutsopoulos, A. Dimopoulou, A. Stasinakis, T.D. Lekkas, Wastewater treatment process impact on energy savings and greenhouse gas emissions, Water Sci. Technol., 71 (2015) 303–308.
  33. AIZ, Strass WWTP, Achental-Inntal-Zillertal, 2015.