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11.
模拟土壤淋洗废液中重金属的选择性去除与淋洗液的回收研究 总被引:1,自引:0,他引:1
土壤淋洗废液中污染物的选择性去除是实现淋洗液回收的关键.本文以硫化钠(Na2S)、乙基黄原酸钾(PEX)、二甲基二硫代氨基甲酸钠(DTC)作为重金属沉淀剂处理电子垃圾污染土壤模拟淋洗废液,在筛选出Na2S作为理想重金属沉淀剂的基础上,研究初始pH值、反应温度、沉淀剂浓度等因素对Na2S分离络合态重金属的影响,并通过软件模拟和产物表征等方式推测反应机理.结果表明:Na2S对柠檬酸络合态重金属的分离顺序依次为Cu、Pb、Cd,符合硫化物溶度积原则;反应温度、初始pH值对Na2S处理络合态重金属无显著影响,重金属去除率均保持在90%以上,柠檬酸的回收率约为95%;Visual MINTEQ模拟结果显示,S2-投加前液相中重金属主要以H2CA-、HCA2-和CA3-结合形式存在,S2-投加后液相中重金属则以HS-和S2-结合形式存在;扫描电镜及能谱(SEM-EDS)表明,S2-与金属阳离子按物质的量比1:1生成硫化物沉淀物,沉淀主要呈团聚、成簇和圆片状存在;X射线衍射(XRD)分析结果表明,沉淀产物中存在CuS、CdS、PbS和CuPbS2.本研究结果可为化学沉淀法处理重金属污染土壤淋洗废液提供技术参考. 相似文献
12.
采用氧化亚铁硫杆菌催化合成铁硫酸盐次生矿物,研究不同L-色氨酸添加浓度对矿物合成体系pH、氧化还原电位(ORP)、Fe2+氧化率、总Fe沉淀率,以及次生矿物产量、化学组成及矿物相的影响.结果表明,随着体系色氨酸浓度的增加,pH降低幅度越小,ORP上升越不明显.色氨酸对铁硫酸盐次生矿物合成的影响依赖于其浓度,当色氨酸浓度低于1.67 g·L-1时,色氨酸对铁硫酸盐次生矿物的形成起促进作用,表现为总Fe沉淀率及矿物产量随着色氨酸浓度升高而增加.而当色氨酸浓度升高至6.67 g·L-1时,Fe2+氧化率、总Fe沉淀率和矿物产量远低于对照组,表明高浓度色氨酸会抑制铁硫酸盐次生矿物的形成.次生矿物内Fe/S比介于施氏矿物和黄钾铁矾的理论值之间,表明不同合成体系所得次生矿物均为黄钾铁矾和施氏矿物的混合物.矿物学特征分析表明,随着色氨酸浓度的升高,矿物的合成表现为黄钾铁矾向施氏矿物转移. 相似文献
13.
酸性紫色水稻土颗粒有机质对镉的吸附特性 总被引:1,自引:0,他引:1
采集典型的酸性紫色水稻土(APPS),从中分离出颗粒有机质(POM),通过批量试验研究POM及其来源土壤Cd2+的吸附动力学、等温吸附和热力学特征,通过扫描电镜-能谱仪、傅里叶红外光谱仪等手段及吸附前后镉的形态变化的测定,研究了POM对Cd2+的吸附机制.结果表明:POM对Cd2+的亲和力远高于其来源土壤.POM及土壤对Cd2+的吸附动力学最优模型均为准二级动力学.Langmuir、Freundlich方程均能较好地描述其等温吸附特征,其中对POM,以Freundlich方程更优,表明POM对Cd2+的吸附属于多分子层的非均质吸附.吸附热力学参数△Gθ均小于0、△Hθ和△Sθ均大于0,表明吸附属于自发吸热过程.根据△Hθ值及解吸试验判定POM对Cd2+的吸附以化学吸附为主,土壤对Cd2+的吸附过程以物理吸附为主.吸附平衡后,土壤中可交换态镉比例提高,而POM中交换态和络合态镉比例增加.综上及吸附前后POM的表征结果说明,POM对Cd2+的吸附机制包括含氧官能团的络合、离子交换、阳离子-π键、沉淀作用和静电吸附. 相似文献
14.
以华南稻田土壤为研究对象通过构建微宇宙体系,研究了淹水稻田自养硝酸盐还原耦合As(III)氧化过程及其微生物群落结构组成.结果表明,NO3-的添加促进了稻田土壤中As(III)的氧化,在未添加NO3-的处理(Soil+As(III))以及灭菌处理(Sterilized soil+As(III)+NO3-)中As(III)未发生明显的氧化;在Soil+As(III)+NO3-处理中,NO3-有少量被还原,而在Soil+NO3-处理中,NO3-没有被还原.通过16S rRNA高通量分析在NO3-还原耦合As(III)氧化体系中微生物群落结构特征,在Soil+As(III)+NO3-处理中shannon指数相对较低为8.19,土壤微生物群落多样性降低,其中在门水平上主要优势菌群为变形菌门Proteobacteria(33%)、绿弯菌门Chloroflexi(11%)、浮霉菌门Planctomycetes(12%);在属水平上主要的优势菌属为Gemmatimonas(7.4%)以及少量的Singulisphaera、Thermomonas、Bacillus.NO3-的添加能够促进稻田土壤中自养As(III)氧化,并且影响着稻田土壤中微生物群落组成. 相似文献
15.
Electrotrophs are microbes that can receive electrons directly from cathode in a microbial electrolysis cell (MEC). They not only participate in organic biosynthesis, but also be crucial in cathode-based bioremediation. However, little is known about the electrotrophic community in paddy soils. Here, the putative electrotrophs were enriched by cathodes of MECs constructed from five paddy soils with various properties using bicarbonate as an electron acceptor, and identified by 16S rRNA-gene based Illumina sequencing. The electrons were gradually consumed on the cathodes, and 25%–45% of which were recovered to reduce bicarbonate to acetic acid during MEC operation. Firmicutes was the dominant bacterial phylum on the cathodes, and Bacillus genus within this phylum was greatly enriched and was the most abundant population among the detected putative electrotrophs for almost all soils. Furthermore, several other members of Firmicutes and Proteobacteria may also participate in electrotrophic process in different soils. Soil pH, amorphous iron and electrical conductivity significantly influenced the putative electrotrophic bacterial community, which explained about 33.5% of the community structural variation. This study provides a basis for understanding the microbial diversity of putative electrotrophs in paddy soils, and highlights the importance of soil properties in shaping the community of putative electrotrophs. 相似文献
16.
Marzena Matejczyk Piotr Ofman Katarzyna Dąbrowsk Renata Świsłock Włodzimierz Lewandowski 《环境科学学报(英文版)》2020,32(5):128-141
In the present work we compared the biological activity of DCF, 4′-OHDCF and 5-OHDCF as molecules of most biodegradation pathways of DCF and selected transformation products (2-hydroxyphenylacetic acid; 2,5-dihydroxyphenylacetic acid and 2,6-dichloroaniline) which are produced during AOPs, such as ozonation and UV/H2O2. We also examined the interaction of DCF with chlorogenic acid (CGA). CGA is commonly used in human diet and entering the environment along with waste mainly from the processing and brewing of coffee and it can be toxic for microorganisms included in activated sludge. In the present experiment the evaluation of following parameters was performed: E. coli K-12 cells viability, growth inhibition of E. coli K-12 culture, LC50 and mortality of Chironomus aprilinus, genotoxicity, sodA promoter induction and ROS generation. In addition the reactivity of E. coli SM recA:luxCDABE biosensor strain in wastewater matrices was measured. The results showed the influence of DCF, 4′-OHDCF and 5-OHDCF on E. coli K-12 cells viability and bacteria growth, comparable to AOPs by-products. The highest toxicity was observed for selected, tested AOPs by-products, in comparison to the DCF, 4′-OHDCF and 5-OHDCF. Genotoxicity assay indicated that 2,6-dichloroaniline (AOPs by-product) had the highest toxic effect. The oxidative stress assays revealed that the highest level of ROS generation and sodA promoter induction were obtained for DCF, 4′-OHDCF and 5-OHDCF, compared to other tested compounds. We have also found that there is an interaction between chlorogenic acid and DCF, which resulted in increased toxicity of the mixture of the both compounds to E. coli K-12, comparable to parent chemicals. The strongest response of E. coli SM biosensor strain with recA:luxCDABE genetic construct in filtered treated wastewaters, comparable to control sample was noticed. It indicates, that E. coli SM recA:luxCDABE biosensor strains is a good tool for bacteria monitoring in wastewater environment. Due to toxicity and biological activity of tested DCF transformation products, there is a need to use additional wastewater treatment systems for wastewater contaminated with pharmaceutical residues. 相似文献
17.
Few studies have been carried out to connect nutrient recovery as struvite from wastewater and sustainable utilization of the recovered struvite for copper and zinc immobilization in contaminated soil. This study revealed the effect of struvite on Cu and Zn immobilization in contaminated bio-retention soil in the presence of commonly exuded plant organic acids. The research hypothesis was that the presence of both struvite and organic acids may influence the immobilization of Cu and Zn in soil. The outcome of this research confirmed that more than 99% of Cu and Zn was immobilized in bio-retention filter media by struvite application. Water-soluble Cu and Zn concentrations of struvite treated soil were less than 1.83 and 0.86 mg/kg respectively, and these concentrations were significantly lower compared to the total Cu and Zn content of 747.05 mg/kg in the contaminated soil. Application of struvite to Cu- and Zn-contaminated soil resulted in formation of compounds similar to zinc phosphate tetrahydrate (Zn3(PO4)2?4H2O) and amorphous Cu and Zn phases. Struvite was effective in heavy metal remediation in acidic soil regardless of the presence of Ca impurities in struvite and the presence of plant organic acids in soil. Overall, this study revealed that struvite recovered from wastewater treatment plants has potential for use as an amendment for heavy metal remediation in contaminated bio-retention soil. 相似文献
18.
为研究垃圾焚烧厂运行对周边土壤二 英类化合物(PCDD/Fs)含量的影响,采集了珠三角地区某垃圾焚烧厂投产前和投产后周边土壤样品,分析研究了该垃圾焚烧厂运行对周边土壤中PCDD/Fs含量和组分的变化.结果表明:①2012年(投产前)珠三角地区某垃圾焚烧厂周边土壤PCDD/Fs含量较低,范围为163~591 ng/kg(毒性当量范围为0.198~0.863 ng I-TEQ/kg,I-TEQ为国际毒性当量因子折算的毒性当量值);2017—2019年(投产后)周边土壤PCDD/Fs含量范围为151~1.75×103 ng/kg(毒性当量范围为0.812~3.88 ng I-TEQ/kg),与其他研究相比处于较低的水平.②投产后,距该垃圾焚烧厂较近(1.5 km)的采样点(S1)土壤PCDD/Fs含量逐年增长,在较远(5.2 km)但人口较密集的采样点(S3)土壤PCDD/Fs含量整体较高,但呈逐年下降趋势.③投产后,土壤中的17种PCDD/Fs单体组分中,毒性当量贡献率最高的单体为八氯二苯并二 英(OCDD)和2,3,4,7,8-五氯二苯并呋喃(2,3,4,7,8-PeCDF),二者毒性当量贡献率范围为15.7%~45.4%.④在同一采样点土壤PCDD/Fs单体组分年间差异不明显,但同一年份不同采样点差异明显.研究显示,目前该垃圾焚烧厂周边土壤PCDD/Fs含量较低,但仍需要长期监测其可能带来的风险. 相似文献
19.
尕海湿地植被退化过程中有机碳及相关土壤酶活性变化特征 总被引:5,自引:0,他引:5
以青藏高原东缘尕海湿地不同植被退化程度样地为研究对象,采用定位研究与室内试验相结合的方法,研究植被退化过程对土壤有机碳和土壤酶活性的影响。结果表明:植被退化显著影响土壤有机碳含量和土壤酶活性,降低了土壤有机碳的含量和酶促反应效率,且这种影响随土层深度变化有所不同。四种植被退化阶段有机碳含量和酶活性均值总体上(0~100 cm)表现为未退化>轻度退化>中度退化>重度退化。不同土层中,20~40 cm土层的有机碳含量中度退化>轻度退化;0~10 cm土层中淀粉酶和纤二糖酶中度退化阶段活性值较高;20~100 cm土层中蔗糖酶重度退化阶段活性值最高,纤二糖酶活性重度退化>中度退化。同一退化程度土壤有机碳含量、蔗糖酶和纤二糖酶活性随土层深度增加显著降低(P<0.05);淀粉酶和纤维素酶活性在>40 cm土层中活性值有所上升,整体呈波动下降趋势。 相似文献
20.
为查明河北省坝上与坝下不同土地利用类型土壤入渗能力,选择张北县(坝上风蚀区)和阳原县(坝下水蚀区)作为典型研究区,采用微型圆盘入渗仪测量土壤入渗特性,并分析其主要影响因素。研究结果表明:(1)阳原县不同土地利用类型土壤渗透性能表现为:高盖度草地>低盖度草地>耕地>林地,张北县表现为:草地>耕地>灌木林地>防护林地;(2)不同入渗模型拟合度之间存在显著差异,其中Philip模型拟合效果最佳;(3)土壤初始入渗速率、稳定入渗速率、稳定入渗时间与容重呈极显著负相关关系,而与总孔隙度均呈极显著正相关关系。结果表明,该区草地土壤入渗能力最强,后期开展生态工程建设时应更加重视草地涵养水源的作用。 相似文献