Numerical modeling of flow in a phosphogypsum stack. Case of saltmarshes, Huelva, SW Spain
Phosphogypsum is a waste that results when fertilizer is obtained from phosphate through a wet chemical process. Phosphogypsum waste can entail negative consequences for the environment and human health since it is enriched in radionuclides from U-decay series and metal impurities. Phosphogypsum wastes are commonly accumulated in large stockpiles that are exposed to weathering processes. These stockpiles are located near the plants where phosphate is processed, which are usually located in coastal areas. This is the case of a phosphogypsum stack on the western side of the Tinto River estuary (Huelva, SW Spain), where the piles were directly settled on the marshland without using any isolation from 1968 to 2010. Here, in addition to the potential environmental impacts, the effect of the phosphogypsum wastes on human health are a source of concern since the piles are located near the city of Huelva (Spain). In this context, it is of paramount importance to assess the phosphogypsum leachate percolation into underlaid aquifer systems and the release of pollutants to the Tinto River. This investigation aims at building a complex coupled hydro-chemical numerical model accounting with variable density to quantify how the pollutants are released to the environment. The first step has consisted in developing the flow numerical model that has been calibrated by fitting the piezometric head oscillations as a result of recharge processes and sea tide oscillations. The good fitting obtained during the calibration process (normalized RMS when comparing simulated and observed piezometric heads is less than the 10%) allows affirming that the estimated hydraulic parameters are accurate, and are consistent with the literature reviewed. Furthermore, the numerically calculated mass balance is consistent with the conceptually estimated one, the differences were as expected. Thus, the model allows simulating the flow processes and modelling predictive scenarios. The next steps will consist in implementing variable density and hydro-chemical, and possibly, hydromechanical processes. This study, which uses numerical modelling, is intended to be useful for future work related to restoration measures and provides new insights into the water balance along with the complex processes occurring at the site.
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| Format: | comunicación de congreso biblioteca |
| Language: | English |
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European Geosciences Union
2023
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| Subjects: | Phosphogypsum, Ensure access to affordable, reliable, sustainable and modern energy for all, |
| Online Access: | http://hdl.handle.net/10261/353371 |
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dig-idaea-es-10261-3533712024-05-14T15:20:20Z Numerical modeling of flow in a phosphogypsum stack. Case of saltmarshes, Huelva, SW Spain Coscia, Franco Vázquez-Suñé, Enric Pujades, Estanislao Phosphogypsum Ensure access to affordable, reliable, sustainable and modern energy for all Phosphogypsum is a waste that results when fertilizer is obtained from phosphate through a wet chemical process. Phosphogypsum waste can entail negative consequences for the environment and human health since it is enriched in radionuclides from U-decay series and metal impurities. Phosphogypsum wastes are commonly accumulated in large stockpiles that are exposed to weathering processes. These stockpiles are located near the plants where phosphate is processed, which are usually located in coastal areas. This is the case of a phosphogypsum stack on the western side of the Tinto River estuary (Huelva, SW Spain), where the piles were directly settled on the marshland without using any isolation from 1968 to 2010. Here, in addition to the potential environmental impacts, the effect of the phosphogypsum wastes on human health are a source of concern since the piles are located near the city of Huelva (Spain). In this context, it is of paramount importance to assess the phosphogypsum leachate percolation into underlaid aquifer systems and the release of pollutants to the Tinto River. This investigation aims at building a complex coupled hydro-chemical numerical model accounting with variable density to quantify how the pollutants are released to the environment. The first step has consisted in developing the flow numerical model that has been calibrated by fitting the piezometric head oscillations as a result of recharge processes and sea tide oscillations. The good fitting obtained during the calibration process (normalized RMS when comparing simulated and observed piezometric heads is less than the 10%) allows affirming that the estimated hydraulic parameters are accurate, and are consistent with the literature reviewed. Furthermore, the numerically calculated mass balance is consistent with the conceptually estimated one, the differences were as expected. Thus, the model allows simulating the flow processes and modelling predictive scenarios. The next steps will consist in implementing variable density and hydro-chemical, and possibly, hydromechanical processes. This study, which uses numerical modelling, is intended to be useful for future work related to restoration measures and provides new insights into the water balance along with the complex processes occurring at the site. Peer reviewed 2024-04-10T06:09:27Z 2024-04-10T06:09:27Z 2023 comunicación de congreso http://purl.org/coar/resource_type/c_5794 EGU General Assembly 2023, Vienna, Austria, 24–28 Apr 2023, EGU23-3082 http://hdl.handle.net/10261/353371 10.5194/egusphere-egu23-3082 en Publisher's version https://doi.org/10.5194/egusphere-egu23-3082, 2023 Sí open European Geosciences Union |
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Phosphogypsum Ensure access to affordable, reliable, sustainable and modern energy for all Phosphogypsum Ensure access to affordable, reliable, sustainable and modern energy for all |
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Phosphogypsum Ensure access to affordable, reliable, sustainable and modern energy for all Phosphogypsum Ensure access to affordable, reliable, sustainable and modern energy for all Coscia, Franco Vázquez-Suñé, Enric Pujades, Estanislao Numerical modeling of flow in a phosphogypsum stack. Case of saltmarshes, Huelva, SW Spain |
| description |
Phosphogypsum is a waste that results when fertilizer is obtained from phosphate through a wet chemical process. Phosphogypsum waste can entail negative consequences for the environment and human health since it is enriched in radionuclides from U-decay series and metal impurities. Phosphogypsum wastes are commonly accumulated in large stockpiles that are exposed to weathering processes. These stockpiles are located near the plants where phosphate is processed, which are usually located in coastal areas. This is the case of a phosphogypsum stack on the western side of the Tinto River estuary (Huelva, SW Spain), where the piles were directly settled on the marshland without using any isolation from 1968 to 2010. Here, in addition to the potential environmental impacts, the effect of the phosphogypsum wastes on human health are a source of concern since the piles are located near the city of Huelva (Spain). In this context, it is of paramount importance to assess the phosphogypsum leachate percolation into underlaid aquifer systems and the release of pollutants to the Tinto River.
This investigation aims at building a complex coupled hydro-chemical numerical model accounting with variable density to quantify how the pollutants are released to the environment. The first step has consisted in developing the flow numerical model that has been calibrated by fitting the piezometric head oscillations as a result of recharge processes and sea tide oscillations. The good fitting obtained during the calibration process (normalized RMS when comparing simulated and observed piezometric heads is less than the 10%) allows affirming that the estimated hydraulic parameters are accurate, and are consistent with the literature reviewed. Furthermore, the numerically calculated mass balance is consistent with the conceptually estimated one, the differences were as expected. Thus, the model allows simulating the flow processes and modelling predictive scenarios. The next steps will consist in implementing variable density and hydro-chemical, and possibly, hydromechanical processes.
This study, which uses numerical modelling, is intended to be useful for future work related to restoration measures and provides new insights into the water balance along with the complex processes occurring at the site. |
| format |
comunicación de congreso |
| topic_facet |
Phosphogypsum Ensure access to affordable, reliable, sustainable and modern energy for all |
| author |
Coscia, Franco Vázquez-Suñé, Enric Pujades, Estanislao |
| author_facet |
Coscia, Franco Vázquez-Suñé, Enric Pujades, Estanislao |
| author_sort |
Coscia, Franco |
| title |
Numerical modeling of flow in a phosphogypsum stack. Case of saltmarshes, Huelva, SW Spain |
| title_short |
Numerical modeling of flow in a phosphogypsum stack. Case of saltmarshes, Huelva, SW Spain |
| title_full |
Numerical modeling of flow in a phosphogypsum stack. Case of saltmarshes, Huelva, SW Spain |
| title_fullStr |
Numerical modeling of flow in a phosphogypsum stack. Case of saltmarshes, Huelva, SW Spain |
| title_full_unstemmed |
Numerical modeling of flow in a phosphogypsum stack. Case of saltmarshes, Huelva, SW Spain |
| title_sort |
numerical modeling of flow in a phosphogypsum stack. case of saltmarshes, huelva, sw spain |
| publisher |
European Geosciences Union |
| publishDate |
2023 |
| url |
http://hdl.handle.net/10261/353371 |
| work_keys_str_mv |
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| _version_ |
1802820457937764352 |