özkan, aysun anadolu üniversitesi - mühendislik fakültesi - çevre mühendisliği bölümü, turkey , banar, müfide anadolu üniversitesi - mühendislik fakültesi - çevre mühendisliği bölümü, turkey , günkaya, zerrin anadolu üniversitesi - mühendislik fakültesi - çevre mühendisliği bölümü, turkey , kulaç, alev anadolu üniversitesi - mühendislik fakültesi - çevre mühendisliği bölümü, turkey , yalçin, gülser geçit kuşağı tarımsal araştırma enstitüsü, turkey , taşpinar, kadriye geçit kuşağı tarımsal araştırma enstitüsü, turkey , altay, abdullah geçit kuşağı tarımsal araştırma enstitüsü, turkey

Cadmium stabilization via sequential application of phytoremediation and pyrolysis

40859

The objective of this study is the treatment of cadmium (Cd) contaminated soil and stabilization of cadmium (Cd) in a solid product. For this aim, phytoremediation and pyrolysis were sequentially applied. Phytoremediation was first applied to cadmium contaminated soil via different plants (sunflower, corn and rape). After harvesting, contaminated plants were pyrolyzed. Phytoremediation was realized with different chelate (EDTA) concentrations (0-5-10 mmol/kg). The phytoremediation results indicated that high phytoremediation efficiencies (89.6-93.5%) were observed. Then, contaminated plants were pyrolyzed at 500°C with the heating rate of 35 °C/min in a fixed bed 240 m³ stainless steel reactor (380 S). Beside the main property analyses, Cd content and eluate analysis were performed on the pyrolysis solid and liquid products. According to pyrolysis results, Cd content of the contaminated biomass species is fixed into the ash/char fraction.

497

Cadmium , Hazardous waste , Phytoremediation , Pyrolysis , Soil pollution

Pamukkale University Journal Of Engineering Sciences

502