Organic Acids for the In Situ Remediation of Soils Polluted by Heavy Metals: Soil Flushing in Columns   总被引：3，自引：0，他引：3  

Wasay  S. A.  Barrington  S.  Tokunaga  S. 《Water, air, and soil pollution》2001,127(1-4):301-314

To compare the soil remediation effectiveness of saltsof weak organic acids with strongchelating agents, three soils of different textures,all polluted by heavy metals, were washed in a column,at optimum pH, with salts of weak organic acids,namely, citrate, tartarate or oxalate + citrate orchelating agents (EDTA or DTPA). For the clay loam,Cr, Mn, Hg and Pb were removed by citrate andtartarate at levels of 43 to 45, 37 to 41, 91 to 92and 75%, respectively. EDTA and DTPA effectivelyleached only Pb after 20 pore volumes. For the loam,citrate leached 98 and 89% of Cd and Pb after 20 porevolumes, respectively, while tartarate leached out 91and 87% of Cd and Pb. EDTA and DTPA removed 93 to97% of these metals after 20 pore volumes. For thesandy clay loam, 84 to 91, 73 to 84, 56 to 70 and 72to 81% of Cd, Cu, Pb and Zn were removedrespectively, by citrate and tartarate. EDTA and DTPAremoved 93 to 97% of these metals after 20 porevolumes. An in situ soil remediation simulation wasalso tested using the sandy clay loam in a tub. After12 hr of retention, the citrate solution washed 81, 82,73 and 90%, of Cd, Cu, Pb and Zn, respectively, aftersix pore volumes. EDTA and DTPA effectively removedall heavy metals, except for Hg, but also extractedlarge quantities of soil nutrients and pollute thesoil by being adsorbed on the soil particles. Thesalts of citrate and tartarate effectively removed theheavy metals from the three polluted soils whileleaching little macro-nutrients and improving soilstructure. Each soil reached C and B levels ofsoil-clean-up criteria after 10 to 20 pore volumes andwithin 10 to 15 hr of flushing.  相似文献   

A comparative study of Cd,Cr(III), Cr(VI), Hg,and Pb uptake by minerals and soil materials     

P. Arnfalk  S. A. Wasay  S. Tokunaga 《Water, air, and soil pollution》1996,87(1-4):131-148

The pH dependency of Cd, Cr(III), Cr(VI), Hg, and Pb uptake by 14 different types of minerals and soil materials has been studied. The solids were interacted with metal solutions separately in a batch procedure, and the percentage of metal uptake of different metal-solid combinations was compared and evaluated. The results were quantified by the pH values at which 10, 50 and 90% of the metal uptake took place. Physical and chemical characteristics of the solids were correlated with metal uptake. The results verify the importance of geochemical parameters of soils such as organic content, type of clay mineral, presence of complexing ions, and redox-potential for controlling metal uptake. Retention of Cd, Cr(VI), Hg, and Pb was found to be strongly dependent on organic content of the materials studied. Montmorillonite (in bentonite and smectite) showed the highest uptake of Cd, Cr(III) and Pb among all minerals and soil materials, while illite and kaolinite showed lower uptake than the soils. At low pH, the uptake percentage of Cr(VI) by organic soils was higher than that of any of the other metal ions. The uptake of Hg was low in comparison to other cations, which may be explained by formation of soluble Hg(CI)₂° or Hg(CI)⁴ _2? complexes.  相似文献   

Efficiency of GAC for Treatment of Leachate from Soil Washing Process     

Wasay  S. A.  Barrington  S.  Tokunaga  S. 《Water, air, and soil pollution》1999,116(3-4):449-460

Granular activated carbon (GAC), granular activated alumina (GAA) and a ferric chloride solution (FCS) were tested for the treatment of leachate contaminated by heavy metals. The leachate was collected following the remedation of soils using weak organic acids and/or their salts, EDTA and DTPA. Only GAC was found to effectively remove heavy metals (Cd, Cu, Cr, Hg, Mn, Pb and Zn as chelates) from the leachate. At optimum pH ranging from 5.4 to 6.9, 97% of Hg was removed while at optimum pH ranging from 6.9 to 7.7, 78 to 96% of Cd, Cu, Mn, Pb and Zn were removed. Some 77% of the Cr was removed at optimum pH of 5.4. Adsorption rate constant and Langmuir adsorption capacity of GAC were found to be 0.01 min^?1 and 19 mg metal chelate g^?1 of GAC, respectively. Freundlich constants, k and n were found to be 21 mg g^?1 and 2.778, respectively. The brown color of the leachate turned colorless after GAC treatment.

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