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Remediation
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Performance of intermittent sand and coke filters for the removal of size-ranged microplastics
Journal of Hazardous Materials Advances2024
Score: 35
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0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.
Ana Pilar Martín-García,
Ana Pilar Martín-García,
Ágata Egea-Corbacho,
Ana Amelia Franco,
Ana Amelia Franco,
Ana Amelia Franco,
Ana Amelia Franco,
Ana Amelia Franco,
Ana Amelia Franco,
Rocío Rodríguez-Barroso,
Ágata Egea-Corbacho,
Ágata Egea-Corbacho,
Ágata Egea-Corbacho,
Ágata Egea-Corbacho,
Ágata Egea-Corbacho,
Ana Pilar Martín-García,
Ana Pilar Martín-García,
Ágata Egea-Corbacho,
Ana Pilar Martín-García,
Ana Pilar Martín-García,
Ana Pilar Martín-García,
Ana Pilar Martín-García,
Ana Pilar Martín-García,
Ana Pilar Martín-García,
María Dolores Coello Oviedo
María Dolores Coello Oviedo
Ana Amelia Franco,
María Dolores Coello Oviedo
Ana Pilar Martín-García,
Ágata Egea-Corbacho,
Ágata Egea-Corbacho,
Ágata Egea-Corbacho,
Ágata Egea-Corbacho,
Ágata Egea-Corbacho,
Ágata Egea-Corbacho,
Ana Amelia Franco,
Ágata Egea-Corbacho,
María Dolores Coello Oviedo
María Dolores Coello Oviedo
María Dolores Coello Oviedo
María Dolores Coello Oviedo
Ana Pilar Martín-García,
Ágata Egea-Corbacho,
Ágata Egea-Corbacho,
Ágata Egea-Corbacho,
María Dolores Coello Oviedo
Ana Amelia Franco,
Ana Amelia Franco,
Ana Amelia Franco,
Ana Amelia Franco,
Ana Amelia Franco,
Ana Amelia Franco,
Ana Amelia Franco,
Ana Amelia Franco,
María Dolores Coello Oviedo
Ana Pilar Martín-García,
María Dolores Coello Oviedo
Ágata Egea-Corbacho,
Ágata Egea-Corbacho,
José María Quiroga Alonso,
Rocío Rodríguez-Barroso,
Rocío Rodríguez-Barroso,
José María Quiroga Alonso,
Rocío Rodríguez-Barroso,
Ana Pilar Martín-García,
José María Quiroga Alonso,
Ana Pilar Martín-García,
José María Quiroga Alonso,
Rocío Rodríguez-Barroso,
Rocío Rodríguez-Barroso,
Rocío Rodríguez-Barroso,
Rocío Rodríguez-Barroso,
José María Quiroga Alonso,
Rocío Rodríguez-Barroso,
María Dolores Coello Oviedo
Ágata Egea-Corbacho,
María Dolores Coello Oviedo
María Dolores Coello Oviedo
Rocío Rodríguez-Barroso,
Ágata Egea-Corbacho,
José María Quiroga Alonso,
Rocío Rodríguez-Barroso,
María Dolores Coello Oviedo
José María Quiroga Alonso,
Rocío Rodríguez-Barroso,
Rocío Rodríguez-Barroso,
José María Quiroga Alonso,
José María Quiroga Alonso,
José María Quiroga Alonso,
José María Quiroga Alonso,
Rocío Rodríguez-Barroso,
Rocío Rodríguez-Barroso,
Rocío Rodríguez-Barroso,
Rocío Rodríguez-Barroso,
Rocío Rodríguez-Barroso,
Rocío Rodríguez-Barroso,
Ana Amelia Franco,
José María Quiroga Alonso,
María Dolores Coello Oviedo
José María Quiroga Alonso,
María Dolores Coello Oviedo
María Dolores Coello Oviedo
José María Quiroga Alonso,
María Dolores Coello Oviedo
Rocío Rodríguez-Barroso,
Ana Pilar Martín-García,
José María Quiroga Alonso,
José María Quiroga Alonso,
José María Quiroga Alonso,
María Dolores Coello Oviedo
José María Quiroga Alonso,
María Dolores Coello Oviedo
María Dolores Coello Oviedo
José María Quiroga Alonso,
María Dolores Coello Oviedo
María Dolores Coello Oviedo
María Dolores Coello Oviedo
José María Quiroga Alonso,
José María Quiroga Alonso,
María Dolores Coello Oviedo
José María Quiroga Alonso,
José María Quiroga Alonso,
Rocío Rodríguez-Barroso,
María Dolores Coello Oviedo
Summary
Researchers tested sand and coke filters at a laboratory scale to remove microplastics from water and found that coke-based filters achieved up to 92.79% removal efficiency, outperforming sand alone. These low-cost filtration systems could be added to wastewater treatment plants to significantly reduce the number of microplastics reaching rivers and oceans.
• Microplastic removal efficiency in three laboratory-scale filters was studied. • Microparticles of 32-63 µm were the most abundant in size (up to 55.25 %). • Fibres were most abundant in larger size ranges and fragments in smaller size ranges. • Reduction of microplastics in water up to 2.09 MPs/L. • Coke filter showed the best removal efficiency (up to 92.79 %). Microplastics (MPs) are a growing environmental problem that threaten living organisms, especially in water ecosystems. One of the main sources of MPs in water environments are wastewater treatment plants, which remove the majority of these micropollutants, but large amounts keep reaching the environment daily. To achieve a larger removal on MPs in wastewater, intermittent filtration sets as an efficient and cheap alternative. In this work, three laboratory-scale filters were tested, with different filtration media (sand, sand/coke and coke) to compare their performance with PP-spiked freshwater and real wastewater samples in removing MPs from different size ranges, from larger than 32 µm to 100 µm. Sand/coke and coke filters showed the best results, with a general microplastic removal efficiency of up to 92.79 ± 2.78 % for wastewater and 89.56 ± 2.19 % for PP-spiked water. This removal efficiency decreased with smaller MPs, reaching up to 90.87 ± 3.46 % for wastewater and 76.28 ± 8.54 % for PP-spiked water. Significant differences were found on efficiencies for PP-spiked water and wastewater, especially in the range from 32 to 63 µm, where biofilm formed on pores surface with wastewater filtration may play an important role for the removal of these MPs.