During the last two decades permeable reactive barriers (PRBs) established as robust alternatives to traditional pump & treat approaches for groundwater remediation. Zero-valent iron (ZVI) is currently the most frequently employed reactive media, especially for treating plumes polluted by chlorinated hydrocarbons. However PRB-ZVI technology is affected by some problems such as the long-term performance decrease, loss of porosity and no applicability to some important compounds, such as 1,2-dichloroetane (1,2-DCA). In this study we wanted to investigate whether the coupling of ZVI with a long-lasting slow-release substrate (i.e. poly-hydroxybutyrate, PHB) could be a strategy to enhance the degradation performance of ZVI barriers towards chlorinated ethanes especially stimulating biological reductive dechlorination downgradient the PRB. Results here presented clearly demonstrate the feasibility of the proposed approach and the possibility that a biodegradable polymer, usually produced for different commercial sectors, could be advantageously used in the groundwater remediation market. © 2013 Elsevier B.V. All rights reserved.
Polyhydroxyalkanoate (PHB) as a slow-release electron donor for advanced in situ bioremediation of chlorinated solvent-contaminated aquifers / Baric, Massimiliano; Pierro, Lucia; Biancamaria, Pietrangeli; PETRANGELI PAPINI, Marco. - In: NEW BIOTECHNOLOGY. - ISSN 1871-6784. - ELETTRONICO. - 31:4(2014), pp. 377-382. [10.1016/j.nbt.2013.10.008]
Polyhydroxyalkanoate (PHB) as a slow-release electron donor for advanced in situ bioremediation of chlorinated solvent-contaminated aquifers
BARIC, MASSIMILIANO;PIERRO, LUCIA;PETRANGELI PAPINI, Marco
2014
Abstract
During the last two decades permeable reactive barriers (PRBs) established as robust alternatives to traditional pump & treat approaches for groundwater remediation. Zero-valent iron (ZVI) is currently the most frequently employed reactive media, especially for treating plumes polluted by chlorinated hydrocarbons. However PRB-ZVI technology is affected by some problems such as the long-term performance decrease, loss of porosity and no applicability to some important compounds, such as 1,2-dichloroetane (1,2-DCA). In this study we wanted to investigate whether the coupling of ZVI with a long-lasting slow-release substrate (i.e. poly-hydroxybutyrate, PHB) could be a strategy to enhance the degradation performance of ZVI barriers towards chlorinated ethanes especially stimulating biological reductive dechlorination downgradient the PRB. Results here presented clearly demonstrate the feasibility of the proposed approach and the possibility that a biodegradable polymer, usually produced for different commercial sectors, could be advantageously used in the groundwater remediation market. © 2013 Elsevier B.V. All rights reserved.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
