石灰-SRB 联合修复铅镍污染建设用地的效果与多维度评价#br#

金属矿山 ›› 2026, Vol. 55 ›› Issue (2): 251-258.

石灰-SRB 联合修复铅镍污染建设用地的效果与多维度评价#br#

陈晓辉^1,2　傅开彬^1,2,3　查　威⁴　郭　帅^1,2　周　倩^1,2　李　贺^5,6　胡志波^1,2

1. 西南科技大学环境与资源学院,四川绵阳 621010;2. 固体废物处理与资源化教育部重点实验室,四川绵阳 621010;
3. 西南科技大学四川天府新区创新研究院,四川成都 610000;4. 宣城市水务有限公司,安徽宣城 242074;
5. 四川里伍铜业股份有限公司,四川甘孜 626000;6. 西南科技大学里伍铜业产业技术创新研究院,四川甘孜 62

出版日期:2026-02-15 发布日期:2026-03-04
通讯作者: 傅开彬(1975—),男,教授,博士,博士研究生导师。
作者简介:陈晓辉(1999—),男,硕士研究生。
基金资助:
“十四五”国家重点研发计划项目(编号:2023YFC3207300);四川省科技计划资助项目(编号:2023YFG0357)。

Remediation Effectiveness and Multi-dimensional Assessment of Lime-SRB Combined System for Lead-Nickel Contaminated Construction Site#br#

CHEN Xiaohui^1,2　FU Kaibin^1,2,3　ZHA Wei⁴　GUO Shuai^1,2　ZHOU Qian^1,2　LI He^5,6　HU Zhibo^1,2

1. School of Environment and Resources,Southwest University of Science and Technology,Mianyang 621010,China;
2. Key Laboratory of Solid Waste Treatment and Resource Recycle,Ministry of Education,Mianyang 621010,China;
3. Tianfu Institute of Research and Innovation,Southwest University of Science and Technology,Chengdu 610000,China;4. Xuancheng
Water Affairs Co. ,Ltd. ,Xuancheng 242074,China;5. Sichuan Liwu Copper Industry Co. ,Ltd. ,Ganzi 626000,China;6. Copper
Industry Technology Innovation Research Institute,Southwest University of Science and Technology,Ganzi 626000,China

Online:2026-02-15 Published:2026-03-04

摘要/Abstract

摘要： 为科学评价云南某建设用地铅镍复合污染土壤的固化修复效果,本研究通过室内固化试验、化学分析
及体内(in vivo)试验,探讨了石灰、硫酸盐还原菌(SRB)及其联合修复技术的作用效能,并综合运用有效态含量、相对
生物有效性(RBA)及非致癌风险商(HQ)进行效果评价。结果表明:采用11%的石灰修复30 d 后,低、中、高三种污染
程度土壤中铅和镍的生物有效性降低率分别为91%与90%、86%与87%、81%与79%。在此基础上,对中、高污染土壤
接种10%(体积比)SRB 菌液继续修复30 d,铅镍的降低率分别进一步提升至93. 57%与92. 34%、89. 77%与89. 79%。
体内试验显示,相较于原始高污染土壤(RBA_Pb:64. 82%,RBA_Ni:67. 47%),经石灰修复后铅镍RBA 降至32. 72%与
37. 63%,而石灰+SRB 联合修复后可进一步降至21. 44%与25. 84%。非致癌风险评价表明,联合修复后土壤中铅对成
人和儿童的风险商(HQ_CS)分别为0. 77 和0. 86(可接受水平),而镍的HQ_CS 分别为0. 95(成人)和1. 07(儿童),表明
其对儿童群体仍存在不可接受的健康风险。本研究证实,石灰与SRB 联合修复技术能有效钝化土壤铅镍并降低其生
物有效性,但修复后镍对儿童的潜在健康风险需引起重视。综合生物有效性与健康风险的评价体系,可为建设用地
污染土壤修复效果提供更科学的评判依据。

Abstract: To scientifically evaluate the solidification/ stabilization efficacy for lead (Pb) and nickel (Ni) co-contaminated
soil at a construction site in Yunnan,this study investigated the performance of lime,sulfate-reducing bacteria (SRB),and
their combined application through laboratory solidification experiments,chemical analysis,and in vivo tests. The remediation
effectiveness was comprehensively assessed using available content,relative bioavailability (RBA),and non-carcinogenic risk
quotient (HQ). The results showed that after 30 days of remediation with 11% lime,the reduction rates of Pb and Ni bioavailability
in low,medium,and high-level contaminated soils were 91% & 90%,86% & 87%,and 81% & 79%,respectively. Subsequent
inoculation with 10% (by valume) SRB for another 30 days further enhanced the reduction rates to 93. 57% &
92. 34% and 89. 77% & 89. 79% for the medium and high-level contaminated soils,respectively. In vivo tests revealed that
compared to the original highly contaminated soil (RBA:64. 82% for Pb,67. 47% for Ni),the RBA of Pb and Ni decreased to
32. 72% and 37. 63% after lime treatment,and further declined to 21. 44% and 25. 84% after the combined lime-SRB treat
ment. The non-carcinogenic risk assessment indicated that after combined remediation,the HQCS values of Pb for adults and
children were 0. 77 and 0. 86 (acceptable level),respectively,while those for Ni were 0. 95 (adults) and 1. 07 (children),
indicating an unacceptable health risk for children from residual Ni. This study confirms that the combined lime-SRB technology
effectively immobilizes Pb and Ni in soil and reduces their bioavailability. However,the potential health risk of Ni to children
after remediation requires attention. The integrated evaluation system combining bioavailability and health risk provides a
more scientific basis for assessing the remediation effectiveness of contaminated soils in construction sites.

中图分类号:

陈晓辉, 　傅开彬, 　查　威　郭　帅, 　周　倩, 　李　贺, 　胡志波, . 石灰-SRB 联合修复铅镍污染建设用地的效果与多维度评价#br#[J]. 金属矿山, 2026, 55(2): 251-258.

CHEN Xiaohui, 　FU Kaibin, 　ZHA Wei　GUO Shuai, 　ZHOU Qian, 　LI He, 　HU Zhibo, . Remediation Effectiveness and Multi-dimensional Assessment of Lime-SRB Combined System for Lead-Nickel Contaminated Construction Site#br#[J]. Metal Mine, 2026, 55(2): 251-258.

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