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SUMMARY REFERENCIAS
owadays, the use of products Almasri, D.A.; Saleh, N.B.; Atieh, Eng. 5: 160–169. https://doi.
promotes the generation of M.A.; McKay, G.; Ahzi, S. (2019). org/https://doi.org/10.1016/j.
Nwaste. This structure is the Adsorption of phosphate on iron jece.2016.11.027.
conventional conception of the linear oxide doped halloysite nanotubes, Khan, F.; Ansari, A.A. (2005).
economy. However, at worldwide the Sci. Rep. 9: 3232. https://doi. Eutrophication: an ecological
circular economy is considered as org/10.1038/s41598-019- vision, Bot. Rev. 71: 449–482.
the solution to reconcile industrial 39035-2. van Dijk, K.C.; Lesschen, J.P.; Oenema,
development with environmental Álvarez, J.; Roca, M.; Valderrama, C.; O. (2016). Phosphorus flows and
sustainability. The United Nations in the Cortina, J.L. (2018). A phosphorous balances of the European Union
agenda until the year 2030 declared flow analysis in Spain, Sci. Total Member States, Sci. Total Environ.
some objectives that promote the Environ. 612: 995–1006. https:// 542: 1078–1093. https://doi.
the sustainable development. These doi.org/https://doi.org/10.1016/j. org/https://doi.org/10.1016/j.
objectives declare the importance of scitotenv.2017.08.299. scitotenv.2015.08.048.
conserving natural resources, including Egle, L.; Rechberger, H.; Krampe, J.; Yin, H.; Yang, C.; Jia, Y.; Chen, H.; Gu, X.
water, soil and air. Today, some Zessner, M. (2016). Phosphorus (2018). Dual removal of phosphate
researches are being developed for recovery from municipal and ammonium from high
the products obtaining from waste, as wastewater: an integrated concentrations of aquaculture
potential raw material. Some options comparative technological, wastewaters using an efficient
have been identified at industrial level, environmental and economic two-stage infiltration system,
the use of waste such as: wastewater assessment of P recovery Sci. Total Environ. 635: 936–
and activated sludge. In this context, technologies, Sci. Total Environ. 946. https://doi.org/10.1016/j.
this work aims to show the case 571: 522–542. https://doi. scitotenv.2018.04.218.
study of the adsorbent development org/https://doi.org/10.1016/j. Yuan, L.; Qiu, Z.; Yuan, L.; Tariq, M.; Lu,
to take advantage of residual water scitotenv.2016.07.019. Y.; Yang, J.; Li, Z.; Lyu, S. (2019).
for value-added products obtaining European Commission. (2017). Adsorption and mechanistic
for agriculture, as soil amendment Study on the review of the list of study for phosphate removal
with fertilizer properties. This study critical raw materials, Final Rep. by magnetic Fe3O4-doped
contributes with options about the Study: 93. https://op.europa. spent FCC catalysts adsorbent,
management and final disposal of waste eu/en/publication-detail/-/ Chemosphere. 219: 183–190.
in a friendly way for environment and publication/08fdab5f-9766- https://doi.org/10.1016/j.
transform them into products. Thus, it 11e7-b92d-01aa75ed71a1 chemosphere.2018.11.132.
can be seen how Chemical Engineering (accessed June 1, 2020). Yuan, G.; Wu, L. (2007). Allophane
is present in multiple potential areas to Hermassi, M.; Valderrama, C.; nanoclay for the removal of
generate research and development. Moreno, N.; Font, O.; Querol, X.; phosphorus in water and
Batis, N.H.; Cortina, J.L. (2017). wastewater, Sci. Technol. Adv.
Fly ash as reactive sorbent for Mater. 8: 60–62. https://doi.
phosphate removal from treated org/https://doi.org/10.1016/j.
waste water as a potential slow stam.2006.09.002
release fertilizer, J. Environ. Chem.
165