References

  1. A.H. Sabeen, Z.Z. Noor, N. Ngadi, S. Almuraisy, A. B. Raheem, Quantification of environmental impacts of domestic wastewater treatment using life cycle assessment: a review, J. Cleaner Prod., 190 (2018) 221–233.
  2. E. Risch, O. Gutierrez, P. Roux, C. Boutin, L. Corominas, Life cycle assessment of urban wastewater systems: quantifying the relative contribution of sewer systems, Water Res., 77 (2015) 35–48.
  3. F. Hernández-Padilla, M. Margni, A. Noyola, L. Guereca-Hernandez, C. Bulle, Assessing wastewater treatment in Latin America and the Caribbean: enhancing life cycle assessment interpretation by regionalization and impact assessment sensibility, J. Cleaner Prod., 142 (2017) 2140–2153.
  4. M. Garfí, L. Flores, I. Ferrer, Life cycle assessment of wastewater treatment systems for small communities: activated sludge, constructed wetlands and high rate algal ponds, J. Cleaner Prod., 161 (2017) 211–219.
  5. L.T. Arashiro, N. Montero, I. Ferrer, F.G. Acién, C. Gómez, M. Garfí, Life cycle assessment of high rate algal ponds for wastewater treatment and resource recovery, Sci. Total Environ., 622–623 (2018) 1118–1130.
  6. L. Corominas, S. Morera, A. Hospido, H.F. Larsen, J. Foley, A. Shaw, J.S. Guest, Life cycle assessment applied to wastewater treatment: state of the art, Water Res., 47 (2013) 5480–5492.
  7. A. Gallego-Schmid, R.R.Z. Tarpani, Life cycle assessment of wastewater treatment in developing countries: a review, Water Res., 153 (2019) 63–79.
  8. T.A.S. Lopes, L.M. Queiroz, E.A. Torres, A. Kiperstok, Low complexity wastewater treatment process in developing countries: a LCA approach to evaluate environmental gains, Sci. Total Environ., 720 (2020) 137593, 1–8, doi: 10.1016/j. scitotenv.2020.137593.
  9. ISO, Environmental Management, Life Cycle Assessment, Principle and Framework, ISO14040:2006, International Organization for Standardisation, Geneva, 2006.
  10. V.J. Fuchs, J.R. Mihelcic, J.S. Gierke, Life cycle assessment of vertical and horizontal flow constructed wetlands for wastewater treatment considering nitrogen and carbon greenhouse gas emissions, Water Res., 45 (2011) 2073–2081.
  11. K. Lopsik, Life cycle assessment of small-scale constructed wetland and extended aeration activated sludge wastewater treatment system, Environ. Sci.Technol., 10 (2013) 1295–1308.
  12. L.C.S. Lobato, C.A.L. Chernicharo, C.L. Souza, Estimates of methane loss and energy recovery potential in anaerobic reactors treating domestic wastewater, Water Sci. Technol., 66 (2012) 2745–2753.
  13. IPCC, Adoption and Acceptance of the “2013 Supplement to the 2006 Guidelines: Wetlands”, Accepted Report, Thirty-Seventh Session of the IPCC, Intergovernmental Panel on Climate Change, Georgia, 2013.
  14. P. Larrey-Lassalle, L. Catel, P. Roux, R.K. Rosenbaum, G. Junqua, M. Lopez-Ferber, E. Loiseau, An innovative implementation of LCA within the EIA procedure: lessons learned from two wastewater treatment plant case studies, Environ. Impact Assess. Rev., 63 (2017) 95–106.
  15. A. Hospido, M.T. Moreira, G. Feijoo, A comparison of municipal wastewater treatment plants for big centres of population in Galicia (Spain), Int. J. Life Cycle Assess., 13 (2007) 57–64.
  16. D. Godin, C. Bouchard, P.A. Vanrolleghem, Net environmental benefit: introducing a new LCA approach on wastewater treatment systems, Water Sci. Technol., 65 (2012) 1624–1631.
  17. M. Niero, M. Pizzol, H.G. Bruun, M. Thomsen, Comparative life cycle assessment of wastewater treatment in Denmark including sensitivity and uncertainty analysis, J. Cleaner Prod., 68 (2014) 25–35.
  18. A. Takano, S. Winter, M. Hughes, L. Linkosalmi, Comparison of life cycle assessment databases: a case study on building assessment, Build. Environ., 79 (2014) 20–30.
  19. A. Gallego, A. Hospido, M.T. Moreira, G. Feijoo, Environmental performance of wastewater treatment plants for small populations, Resour. Conserv. Recycl., 52 (2008) 931–940.
  20. D. Souza, T. Braga, M.C.B. Figueirêdo, M.I.S.F. Matsuura, F.R.T. Dias, C.M.L. Ugaya, Life cycle thinking in Brazil: challenges and advances towards a more comprehensive practice, Int. J. Life Cycle Assess., 22 (2016) 462–465.
  21. D.L. Medeiros, L.M. Queiroz, E. Cohim, J.A. Almeida-Neto, A. Kiperstok, Human urine fertiliser in the Brazilian semi-arid: environmental assessment and water-energy-nutrient nexus, Sci. Total Environ., 713 (2020) 136145, 1–13, doi: 10.1016/j.scitotenv.2019.136145.