Author(s): Giorgi Tavadze | Garegin Zakharov Giorgi Oniashvili | Zurab Aslamazishvili | Guranda Jishkariani | Gigo Jandieri | David Sakhvadze
Journal: Journal of Biophysical Chemistry
ISSN 2153-036X
Volume: 04;
Issue: 02;
Start page: 83;
Date: 2012;
Original page
Keywords: Ecology | Industrial Wastes | Phytoremediation | Metallothermic Recovery | Green Metallurgy
ABSTRACT
The below stated work scrutinizes ecological risks that are related to mining and metallurgical industries. It analyzes problems caused by pollution of air, soil and water and suggests new possible ways of resolving those problems. Namely, such innovative and energy-efficient technologies are argued as phytoremediation and exothermic self-propagating high-temperature synthesis of solid-phase recovery of metals (SHS). Visual arguments in support of the efficiency of the selected methods are provided.
Journal: Journal of Biophysical Chemistry
ISSN 2153-036X
Volume: 04;
Issue: 02;
Start page: 83;
Date: 2012;
Original page
Keywords: Ecology | Industrial Wastes | Phytoremediation | Metallothermic Recovery | Green Metallurgy
ABSTRACT
The below stated work scrutinizes ecological risks that are related to mining and metallurgical industries. It analyzes problems caused by pollution of air, soil and water and suggests new possible ways of resolving those problems. Namely, such innovative and energy-efficient technologies are argued as phytoremediation and exothermic self-propagating high-temperature synthesis of solid-phase recovery of metals (SHS). Visual arguments in support of the efficiency of the selected methods are provided.
