铋法去除垃圾渗滤液氯离子及其产物高值化利用机制

高浓度含氯有机废水在处理过程中不仅会消耗过多的化学药剂,还会产生大量的废弃产物.为实现废弃物氯离子和有机污染物的去除和高值利用,本文以垃圾渗滤液为研究对象,采用化学共沉淀与高温煅烧的方法制备了Er^(3+)和Yb^(3+)掺杂型上转换荧光粉.实验结果表明,当Bi_(2)O_(3)除氯剂和稀土投加量达到Bi^(3+)∶Cl−∶Yb^(3+)∶Er^(3+)物质的量比为1∶1∶0.2∶0.02时,渗滤液Cl−、COD和TOC的去除效率分别为52.7%、45.7%和36.6%.除氯产物在温度为600℃煅烧后,所得样品在980 nm激光激发下的上转换发光强度最高,发光光谱包括强烈的绿光和红光,绿光区域在523—553 nm和红光区域在655—670 nm.上转换荧光增强机制分析表明,相对于Bi_(2)O_(3)和BiOCl,基质材料Bi_(3)O_(4)Cl和Bi_(12)O_(17)C_(l2)为Er^(3+)和Yb^(3+)离子提供了更好的掺杂环境.因此,虽然除氯产物中还剩余Bi_(2)O_(3),但其可与BiOCl在高温煅烧下形成Bi_(3)O_(4)Cl和Bi12O17Cl2,为上转换发光强度的提高和光谱调节提供了便利,也为渗滤液中氯离子和有机污染物的去除和高值资源化利用提供了新的方法.

河道水体水质对底泥污染物释放的影响

底泥内源污染物的释放是河道污染的重要因素之一。本文通过模拟试验研究了河道水体水质对底泥污染物释放规律的影响。结果表明:上覆水体pH的升高可使底泥中COD_(Cr)和NH_4^+-N的释放受到抑制,但会促进底泥TN的释放,酸性或碱性条件都会促进底泥中TP的释放;上覆水体有机物浓度的增加可抑制底泥NH_4^+-N和TN的释放,促进TP的释放;溶解氧的增加对底泥COD_(Cr)、NH_4^+-N和TN的释放有促进作用,但会抑制底泥中TP的释放。对比分析表明,上覆水体溶解氧(<10 mg/L)对底泥COD_(Cr)、NH_4^+-N和TN的释放量影响最大,pH(4.0～10.0)对TP的释放量影响最为显著,累积释放量极差达5.89 mg/kg。

硝酸钙投加对受污染河道修复效果的影响

文章通过分析底泥和上覆水体中污染物含量的变化,探讨了硝酸钙投加对河道污染物控制效果的影响。结果表明:硝酸钙的投加明显改善了底泥的氧化还原电位,控制了底泥TP的释放,并有效削减底泥有机质含量,去除率可达到26.6%;硝酸钙的投加对上覆水体中的NH_4^+-N、COD、TP等都有明显的修复效果,DO含量明显提升,氨氮的去除率接近100%,COD去除率可达到50.1%,总磷去除率为72.0%。结合修复效果和经济成本,选择3.2 g/kg硝酸钙为最佳投加量。

渗滤液对碳钢腐蚀过程的影响研究

渗滤液腐蚀是降低垃圾收运/处置设施运行寿命的重要原因,据此研究了3种渗滤液(焚烧厂、堆肥厂和老龄渗滤液)对常用设备材料——碳钢的腐蚀性能,选用电化学阻抗谱(EIS)、腐蚀速率和渗滤液常规指标,探讨了不同渗滤液的腐蚀性能和腐蚀机理。结果表明,焚烧厂渗滤液腐蚀性能最强,对碳钢的初始腐蚀速率最大,为5.79mm/a,而堆肥厂和老龄渗滤液则分别为4.84、0.09mm/a。随时间的延长,渗滤液的EIS图中,焚烧厂渗滤液等效电路从R(Q(RW))向R(QR)周期性转换,扩散阻抗(W)从1.23×10^(-3) S·s0.5/cm^2先降为极小值,经过120h接触后又上升到369.00×10^(-3) S·s0.5/cm^2,说明其腐蚀过程由初始电化学步骤和扩散步骤共同控制向只受电化学步骤控制周期性变化;堆肥厂渗滤液的等效电路始终为R(Q(RW)),W最大值达到20.04×10^(-3)S·s0.5/cm^2。不同特性渗滤液的腐蚀机理有一定的差别,需采用不同的防腐措施以延长设备使用寿命。

Characterization of refuse landfill leachates of three different stages in landfill stabilization process

Landfill leachates with different ages （mature leachate, 11 years; semi-mature leachate, 5 years; fresh leachate, under operation） were collected from Laogang Refuse Landfill, Shanghai to characterize the colloid size distribution and variations of leachate. These leachates were separated using micro-filtration and ultra-filtration into specific size fractions, i.e., suspended particles （SP） （〉 1.2 μm）, coarse colloids （CC） （1.2-0.45 μm）, fine colloids （FC） （0.45 m, 5 kDa/1 kDa molecular weight （MW））, and dissolved organic matters （DM, 〈 5 kDa/1 kDa MW）. The specific colloids in each size fraction were quantified and characterized through chemical oxygen demands （COD）, total solid （TS）, pH, NH4^＋-N, total organic carbon （TOC） and fixed solid （FS）. It was found that COD, NH^4＋-N and TS in leachate decreased significantly over ages, while pH increased. The dissolved fractions （〈 5 kDa/1 kDa） dominated （over 50%） in three leachates in terms of COD, and the organic matter content in dissolved fraction of leachates decreased and the inorganic matter increased as the disposal time extended, with the TOC/COD ratio 30%-7%. Dissolved fractions decreased from 82% to 40% in terms of TOC as the disposal time extended, suggested that the organic matter remained in leachate would form into middle molecular weight substances during the degradation process.

生物炭和石墨的电化学性质对剩余污泥厌氧消化产甲烷的影响

以玉米秸秆为原料,分别在300、500和700℃的条件下热解制备生物炭(CS300、CS500、CS700),对其理化性质(pH、比表面积、灰分含量、元素组成)和电化学性质(电子供给能力(EDC)、电子接受能力(EAC)、导电率(EC))进行了表征,并将3种生物炭和导电型石墨分别加入消化反应器进行污泥中温厌氧消化批次实验。结果表明:CS300具有最高的EDC(0.598 mmol·g^-1),CS700具有最高的EAC(0.740 mmol·g^-1),石墨的导电性最强(2.0×10^4 S·m^-1);4种碳材料对污泥厌氧消化产甲烷均有促进作用,CS300、石墨、CS500和CS700实验组的甲烷累积总产量比对照组分别提高了42.4%、38.9%、28.9%和11.2%。微生物群落结构分析结果表明:甲烷生成的主要代谢途径是CO2还原代谢途径;3种生物炭材料均提高了Methanosarcina等氢营养型产甲烷古菌的相对丰度,CS300的富集能力最强,石墨的影响作用则不显著。冗余分析结果表明:4种碳材料的电化学性质对厌氧细菌群落组成变化的贡献度为52.7%,对厌氧古菌群落组成变化的贡献度为64.4%;具有氧化还原活性的生物炭通过反复供给、接受电子大幅增加体系中微生物可用电子数量来提高互养微生物种间电子传递效率;而导电性能优秀的石墨则主要通过促进微生物的直接电子传递来提高甲烷产率。研究为解析具有电化学活性的碳材料对厌氧微生物菌群代谢特征和电子传递的影响规律提供了一定的理论支撑,对提高污泥厌氧消化效率、实现能源高效回收具有重要理论价值和现实意义。

利用富乙酸剩余污泥厌氧发酵液产中链脂肪酸

为实现剩余污泥的资源化利用,探索了混菌体系中以剩余污泥为底物连续产中链脂肪酸(MCFAs)的可行性。本研究基于乙醇/乙酸人工配制废水,采用热碱水解污泥-短期厌氧发酵-微生物碳链延长(CE)反应的"两相发酵"技术合成MCFAs,并逐步优化水力停留时间(HRT)与底物醇酸比以驯化厌氧污泥微生物。结果表明:在为期135 d的连续模式CE过程中,在醇酸比为2∶1的条件下,驯化期(PhaseⅠ~Ⅲ)的HRT由20 d逐步缩减至5 d后,典型CE微生物Clostridium sensu stricto;2成为优势菌种,其相对丰度升至65.21%,但己酸产率仅为775 mg·(L·d)^(-1);当醇酸比提高至3∶1 (PhaseⅣ),己酸产率升至1 402 mg·(L·d)^(-1),MCFAs产物选择性明显提高。将实验期(PhaseⅤ)系统中的底物置换为污泥厌氧发酵液,己酸产率依然稳定保持在1 400 mg·(L·d)^(-1),表明功能微生物组的结构稳定。宏基因组分析结果显示,逆向β-氧化(RBO)和脂肪酸生物合成(FAB)代谢通路均参与了CE过程的MCFAs合成;另外,相较于乙醇/乙酸人工配制废水,污泥发酵液可提高这2种代谢通路的关键酶丰度。本研究证实了污泥连续发酵产MCFAs的可行性,并阐明了过程中微生物的生态功能机制,可为污泥资源化利用提供参考。

Bioleaching of spent Ni-Cd batteries and phylogenetic analysis of an acidophilic strain in acidified sludge

Biohydrometallurgy is a novel method to recycle discarded batteries,in which sewage sludge is used as microorganisms and culture due to the presence of indigenous Thiobacilli.A two-step continuous flow leaching system consisting of an acidifying reactor and a leaching reactor was introduced to achieve the bioleaching of spent nickel-cadmium(Ni-Cd)batteries.The acid supernatant produced in the acidifying reactor by the microorganisms with ferrous ions as the substrate was conducted into the leaching reactor to dissolve electrode materials.The efficiency of a batch treatment of batteries was examined.The results showed that the complete dissolution of two AA-sized Ni-Cd batteries with 0.6 L/d acid supernatant took about 30,20,and 35 days for Ni,Cd,and Co,respectively.But the dissolution ability of the three metals was different.Cd and Co can be leached mostly for pH below 4.0 while the complete dissolution of Ni can be achieved for pH below 2.5.Meanwhile,a strain(named Thiooxidans.WL)accounting for the reduction of pH in the acidified sludge was isolated and sequenced.It was identified to be 100%similar to Acidithiobacillus ferrooxidans strain Tf-49 based on 16S rDNA sequence analysis.The relevant phylogenetic tree constructed indicates that the strain should be classified into genus Acidithiobacillus ferrooxidans.