Critical aspects related to Fe0 and Fe0/pumice PRB design

被引：19

作者：

Moraci, Nicola ^{[1
]}

Bilardi, Stefania ^{[2
]}

Calabro, Paolo S. ^{[3
]}

机构：

[1] Mediterranea Univ Reggio Calabria, Geotech Engn, Dept Civil Energy Environm & Mat Engn DICEAM, Reggio Di Calabria, Italy

[2] Mediterranea Univ Reggio Calabria, Dept Civil Energy Environm & Mat Engn DICEAM, Reggio Di Calabria, Italy

[3] Mediterranea Univ Reggio Calabria, Dept Civil Energy Environm & Mat Engn DICEAM, Sanit Environm Engn, Reggio Di Calabria, Italy

来源：

ENVIRONMENTAL GEOTECHNICS | 2016年 / 3卷 / 02期

关键词：

barriers (permeable reactive); heavy metals; remediation techniques; ZERO-VALENT IRON; INTERNAL STABILITY; THEORETICAL METHOD; GRANULAR IRON; METALLIC IRON; BARRIERS; EVALUATE; REMOVAL; SUSTAINABILITY; REMEDIATION;

D O I：

10.1680/envgeo.13.00120

中图分类号：

P5 [地质学];

学科分类号：

0709 ; 081803 ;

摘要：

A permeable reactive barrier (PRB) is a consolidated in situ technology for groundwater decontamination, but its long-term effectiveness, and thus the success of any remediation project, depends on the correct design in terms of geotechnical, chemical and hydraulic aspects. This paper examines the performance of a PRB and presents the results of an investigation into its long-term behaviour by using column tests. In particular, the geotechnical aspects involved in the design of a PRB and the effects of hydraulic conditions and contaminant concentration (nickel) are discussed. Moreover, the results of laboratory column tests carried out at various flow velocities and initial contaminant concentrations are discussed. The reactive media used in the tests are zero valent iron (ZVI) and a granular mixture of ZVI and pumice.

引用

页码：114 / 124

页数：11

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