环境科学研究
環境科學研究
배경과학연구
RSEARCH OF ENUIRONMENTAL SCIENCES
2010年
1期
106-111
,共6页
关亮%郭观林%汪群慧%李发生
關亮%郭觀林%汪群慧%李髮生
관량%곽관림%왕군혜%리발생
硅酸盐%重金属%固化%污染土壤%浸出性能
硅痠鹽%重金屬%固化%汙染土壤%浸齣性能
규산염%중금속%고화%오염토양%침출성능
silicate%heavy metal%solidify%contaminated soil%leaching performance
利用不同胶结材料对广西某铅锌矿场重金属污染土壤[w(Pb),w(Cd)和w(Zn)分别为4 375,79.33和13 470 mg/kg)]进行固化处理.采用TCLP浸提液对固化体进行浸提,根据固化体的浸出性能,评价不同固化剂及辅助剂组合对重金属污染土壤的固化效果.结果表明:m(水泥):m(粉煤灰):m(生石灰)为2:1:1和1:1;2的固化剂组合具有很好的固化效果.水泥用量占固化体总量的30%时,3种重金属的固化率均达到99%;水泥+粉煤灰+生石灰固化体系的固化效果仅次于水泥,在m(水泥):m(粉煤灰):m(生石灰)为1:1:2和2:1:1时,30%的固化剂用量使3种重金属浸出质量浓度均满足危险废物填埋入场标准;水泥+粉煤灰和粉煤灰+生石灰固化体系的固化性能相对较差,粉煤灰参与固化反应表现出明显的滞后性,当用生石灰作为辅助剂参与反应时,粉煤灰中所含有的活性SiO_2和Al_2O_3在碱性条件下得到激发,从而进一步强化了粉煤灰的固化性能.
利用不同膠結材料對廣西某鉛鋅礦場重金屬汙染土壤[w(Pb),w(Cd)和w(Zn)分彆為4 375,79.33和13 470 mg/kg)]進行固化處理.採用TCLP浸提液對固化體進行浸提,根據固化體的浸齣性能,評價不同固化劑及輔助劑組閤對重金屬汙染土壤的固化效果.結果錶明:m(水泥):m(粉煤灰):m(生石灰)為2:1:1和1:1;2的固化劑組閤具有很好的固化效果.水泥用量佔固化體總量的30%時,3種重金屬的固化率均達到99%;水泥+粉煤灰+生石灰固化體繫的固化效果僅次于水泥,在m(水泥):m(粉煤灰):m(生石灰)為1:1:2和2:1:1時,30%的固化劑用量使3種重金屬浸齣質量濃度均滿足危險廢物填埋入場標準;水泥+粉煤灰和粉煤灰+生石灰固化體繫的固化性能相對較差,粉煤灰參與固化反應錶現齣明顯的滯後性,噹用生石灰作為輔助劑參與反應時,粉煤灰中所含有的活性SiO_2和Al_2O_3在堿性條件下得到激髮,從而進一步彊化瞭粉煤灰的固化性能.
이용불동효결재료대엄서모연자광장중금속오염토양[w(Pb),w(Cd)화w(Zn)분별위4 375,79.33화13 470 mg/kg)]진행고화처리.채용TCLP침제액대고화체진행침제,근거고화체적침출성능,평개불동고화제급보조제조합대중금속오염토양적고화효과.결과표명:m(수니):m(분매회):m(생석회)위2:1:1화1:1;2적고화제조합구유흔호적고화효과.수니용량점고화체총량적30%시,3충중금속적고화솔균체도99%;수니+분매회+생석회고화체계적고화효과부차우수니,재m(수니):m(분매회):m(생석회)위1:1:2화2:1:1시,30%적고화제용량사3충중금속침출질량농도균만족위험폐물전매입장표준;수니+분매회화분매회+생석회고화체계적고화성능상대교차,분매회삼여고화반응표현출명현적체후성,당용생석회작위보조제삼여반응시,분매회중소함유적활성SiO_2화Al_2O_3재감성조건하득도격발,종이진일보강화료분매회적고화성능.
A range of cementation materials were used to immobilize heavy metal contaminated soils sampled from a zinc-lead mine in Guangxi Province with contamination levels of 4,375 mg Pb/kg,79.33 mg Cd/kg and 13,470 mg Zn/kg.The solidified concretes were leached by extract liquid of TCLP,and the solidification efficiencies of different binders and adjuvant were evaluated based on the leaching performance of solidified products.Results indicated that the binders with the m(OPC):m(PFA):m(CaO)=2:1:1 and 1:1:2 were effective.With the treatment of 30% (w/w) OPC,the solidification efficiencies of each heavy metal were up to 99%.The combinations of cement (OPC),pulverized fuel ash (PFA) and quicklime (CaO) also showed good solidification performance,just inferior to OPC.The leached concentrations of three metals met the requirement of standard for security landfill site for hazardous wastes when 30% (w/w) binders in the ratio of m(OPC):m(PFA):m(CaO)=1:1:2 or 2:1:1 were used.OPC+PFA and PFA+CaO had lower solidification efficiencies with respect to the solidification reactions.The addition of PFA could result in hysteresis in the reaction.The reaction can be prompted with increasing mass ratio of CaO because alumina and silica can be activated in alkaline condition,therefore further intensifying the solidification efficiency of PFA.
