Add to ORKGInjection of Nanoscale ZeroValent Iron (NZVI) is a promising technology for remediation of groundwater contamination and many successful reactivity studies have been reported using organic and inorganic pollutants. However, the efficiency of this process is significantly hindered by the rapid aggregation of the iron nanoparticles and their affinity with soil grains. The aim of this study is to enhance the colloidal stability of the nanoparticles by coating them with the "green" polymer guar gum, and assess the mobility of the stabilized suspensions in saturated porous media The study evaluated the properties of guar gum and its influence on the surface properties, particle size, aggregation, sedimentation and transport of the iron nanoparti...
In the context of groundwater remediation, the use of zero-valent metals has been shown promising fo...
In the present work column transport tests were performed in order to study the mobility of guar-gum...
In the framework of the research project AQUAREHAB (FP7 - G. A. Nr. 226565), a pilot injection test ...
Injection of Nanoscale ZeroValent Iron (NZVI) is a promising technology for remediation of groundwat...
Injection of nanoscale zero-valent iron (NZVI) is potentially a promising technology for remediation...
In order to ensure adequate mobility of zerovalent iron nanoparticles in natural aquifers, the use o...
In the field of pollution remediation, and in particular of aquifer systems decontamination, the use...
The use of Micro- and Nano-scale Zerovalent Iron (MZVI and NZVI, respectively) particles represents ...
The present work is the first part of a comprehensive study on the use of guar gum to improve delive...
Guar gum can be used to effectively improve stability and mobility of microscale zerovalent iron par...
A broad range of natural and anthropogenic colloids is found in natural subsurface systems. On the o...
In the context of groundwater remediation, the use of zero-valent metals is known to be successful f...
The aim of this study is the characterization of nanoscale zero-valent iron (NZVI), used for the rem...
The paper reports a pilot injection test of microsized zerovalent iron (mZVI) dispersed in a guar gu...
Iron micro- and nanoparticles used for groundwater remediation and medical applications are prone to...
In the context of groundwater remediation, the use of zero-valent metals has been shown promising fo...
In the present work column transport tests were performed in order to study the mobility of guar-gum...
In the framework of the research project AQUAREHAB (FP7 - G. A. Nr. 226565), a pilot injection test ...
Injection of Nanoscale ZeroValent Iron (NZVI) is a promising technology for remediation of groundwat...
Injection of nanoscale zero-valent iron (NZVI) is potentially a promising technology for remediation...
In order to ensure adequate mobility of zerovalent iron nanoparticles in natural aquifers, the use o...
In the field of pollution remediation, and in particular of aquifer systems decontamination, the use...
The use of Micro- and Nano-scale Zerovalent Iron (MZVI and NZVI, respectively) particles represents ...
The present work is the first part of a comprehensive study on the use of guar gum to improve delive...
Guar gum can be used to effectively improve stability and mobility of microscale zerovalent iron par...
A broad range of natural and anthropogenic colloids is found in natural subsurface systems. On the o...
In the context of groundwater remediation, the use of zero-valent metals is known to be successful f...
The aim of this study is the characterization of nanoscale zero-valent iron (NZVI), used for the rem...
The paper reports a pilot injection test of microsized zerovalent iron (mZVI) dispersed in a guar gu...
Iron micro- and nanoparticles used for groundwater remediation and medical applications are prone to...
In the context of groundwater remediation, the use of zero-valent metals has been shown promising fo...
In the present work column transport tests were performed in order to study the mobility of guar-gum...
In the framework of the research project AQUAREHAB (FP7 - G. A. Nr. 226565), a pilot injection test ...