This paper analyzes, through its technological framework, an innovative patented physics-biological remediation method for of environmental restoration sites or old uncontrolled landfill in relation with methane emissions risk. The shown technology is site-specific and based on tailored compost and vegetable enzymatic cocktail, which would afford to recover the area for planned agronomic use in a short time, thanks to sustainable execution and low management cost. It incorporates several technologies deriving from bioremediation and it can be applied also in other contexts or conditions as in mitigation of landfill impact.
Bonoli, A., Dall'Ara, A. (2014). ENVIRONMENTAL AND SAFETY BENEFITS DERIVING BY A SPECIFIC PHYSICS-BIOLOGICAL REMEDIATION METHOD. PROCEDIA ENVIRONMENTAL SCIENCE, ENGINEERING AND MANAGEMENT, 1(2), 99-102.
ENVIRONMENTAL AND SAFETY BENEFITS DERIVING BY A SPECIFIC PHYSICS-BIOLOGICAL REMEDIATION METHOD
BONOLI, ALESSANDRA;
2014
Abstract
This paper analyzes, through its technological framework, an innovative patented physics-biological remediation method for of environmental restoration sites or old uncontrolled landfill in relation with methane emissions risk. The shown technology is site-specific and based on tailored compost and vegetable enzymatic cocktail, which would afford to recover the area for planned agronomic use in a short time, thanks to sustainable execution and low management cost. It incorporates several technologies deriving from bioremediation and it can be applied also in other contexts or conditions as in mitigation of landfill impact.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
