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Falciglia, Pietro P.; Gagliano, Erica; Brancato, Vincenza; Finocchiaro, Guglielmo; Catalfo, Alfio; De Guidi, Guido; Romano, Stefano; Roccaro, Paolo; Vagliasindi, Federico G.A.
Journal of environmental management, 04/2020, Letnik: 260Journal Article
The present study tests the potentiality of a novel microwave based regenerating permeable reactive barrier (MW-PRB) system as combined treatment for Cs-contaminated groundwater. Granular activated carbon (GAC) was selected as adsorptive materials in batch and column MW-regeneration experiments. Experimental and modeling data were elaborated for technical and economic considerations in order to assess the MW-PRB feasibility jointly with essential information regarding its real field applicability. Batch experiments investigated the effects of 10 adsorption-MW regeneration cycles under different MW irradiation conditions (applied electric field = 200–460 V m−1; irradiation times = 1–15 min) by assessing GAC variation properties in term of regeneration yield (δ), specific area and weight loss (WL) variation. Column tests were carried using a dedicated setup essentially including a column filled with GAC implanted in a MW oven cavity (MW electric field of 385 V m−1, irradiation times 5–15 min). Lab-scale results shown the ability of MW in Cs removal from GAC as demonstrated by regeneration yield (δ = 79–110%) and WL (6.78% for 10 cycles) values. This was confirmed in dynamic conditions by data from MW-column tests highlighting the highest Cs removal of ~80% when the maximum regeneration time was applied. Residual Cs concentration in breakthrough curves fitted well with the proposed Yoon and Nelson model (R2 = ~0.97). Results from techno-economic analysis revealed the MW-PRB viability and its advantages also in comparison with conventional PRB systems, demonstrating the concept of combined MW-PRB treatment. Saved cost obtained demonstrated in fact the potential cost effectiveness of MW-PRB system and, consequently, the implementation of novel approach is encouraged. Calculated PRB longevity vs groundwater velocity curves are useful in order to predict long-term PRB performance and the response of the remediation activities, as well as for guiding the design and the scaling-up of MW-PRB treatment. Display omitted •A novel permeable reactive barrier coupled with microwave (MW-PRB) is evaluated.•MW-PRB is assessed for the treatment of simulated Cs-impacted groundwater.•MW regeneration of granular activated carbon is investigated at laboratory scale.•Techno-economic analysis of MW-PRB system was compared with conventional PRB.•Saved costs encourage the implementation of proposed MW-PRB system.
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JCR | SNIP | JCR | SNIP | JCR | SNIP | JCR | SNIP |
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in: SICRIS
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