Formation of leadhillite and calcium lead silicate hydrate (C-Pb-S-H) in the solidification/stabilization of lead contaminants

In this study, we have investigated the structure of Pb-doped solidified waste forms (SWF) for assessment of lead fixation. A large quantity of lead precipitates produced during the S/S, based upon the results of cement-water solution analysis, X-ray diffraction and electron probe microanalysis/electron dispersive spectroscopy investigations, have been shown to be principally leadhillite (lead carbonate sulfate hydroxide, Pb(4)SO(4)(CO(3))(2)(OH)(2)), lead carbonate hydroxide hydrate (3PbCO(3).2Pb(OH)(2).H(2)O) and two other unidentified lead salts. In the long curing, the lead species dissolved from the lead precipitates are fixed into the cement matrix, forming a gelling calcium lead silicate hydrate during cement-based solidification. On leaching the lead precipitates such as leadhillite were markedly dissolved/released and some dissolved lead species were adsorbed to silicate-rich surface of leached SWF with the subsequent formation of mainly amorphous gel of calcium lead silicate hydrate.     

毛竹林各组分能量估算模型的研究

在建瓯设置40块毛竹林标准地,分别测定了毛竹单株各部分干重与能量,建立了各部分生物量模型,并在此基础上,运用人工神经网络方法对毛竹林各组分能量进行估测.结果表明毛竹林各组分秆、枝叶和地下部分的平均能量依次为4.23225×10     

硫自养反硝化过程中含硫副产物产生规律及微生物群落结构的空间分布

为探究硫自养反硝化过程中含硫副产物的产生规律,建立了上流式硫自养固定床生物反应器,考察HRT（水力停留时间）对水中NO₃--N去除的影响,运用零级和1/2级反应动力学模型对NO₃--N还原过程进行拟合,通过测定与理论计算分析含硫副产物的产生趋势及规律,利用高通量测序技术（high-throughput sequencing）测定微生物群落结构空间分布特征.结果表明:①当进水NO₃--N浓度为（30.45±0.38）mg/L,HRT为4和1 h时,NO₃--N去除率达到98%以上.硫自养反硝化过程符合1/2级反应动力学模型,1/2K_1/2V（1/2级反应动力学速率常数）为5.69 mg1/2/（L1/2·h）.②出水SO₄2-的产生量接近理论值,S2-在反应器中部出现微量的积累,在出水口处浓度进一步降低（< 0.5 mg/L）.③HRT的缩短改变了反应器内部微生物群落α多样性的变化规律;Proteobacteria成为了最主要的优势菌群,各阶段所占比例均大于59%,Sulfurimonas为最常见的反硝化菌,在HRT为1 h时,反应器中部其丰度达到36%,成为反应器中的优势菌属;Desulfurella为SRB（硫酸盐还原菌）,其丰度的增加与反应器内部S2-的积累一致.研究显示,硫自养反硝化过程中产生的SO₄2-与理论值接近,S2-产生量沿反应器高度方向呈现先增加后降低的趋势,微生物群落结构分布情况与反应器高度有关.      

Potential methane yield of food waste/food waste leachate from the biogasification facilities in South Korea

This study was to find out potential of methane yield on food waste and food waste leachate as biomass in Korea. The seven biogasification facilities were selected for comparison of theoretical methane yield and actual methane yield. The theoretical methane yield was calculated based on organic constituents (carbohydrate, protein, fat) and based on element analysis. The actual methane yield was investigated based on volatile solids and CODcr. Theoretical methane yields by organic constituents were 0.52 Sm³CH₄/kg VS and 0.35 Sm³CH₄/kg CODcr and these by element analysis were 0.53 Sm³CH₄/kg VS and 0.36 Sm³CH₄/kg CODcr. Actual methane yields were 0.36 Sm³CH₄/kg VS_in and 0.26 Sm³CH₄/kg CODcr_in. Considering the average removal efficiency of organic materials of seven FWL biogasification facilities, actual methane yields were 0.48 Sm³CH₄/kg VS_rem and 0.33 Sm³CH₄/kg CODcr_rem. Methane yield by organic constituents is very similar to that by element analysis and actual methane yields of volatile solids and CODcr were similar to theoretical value. The actual methane yield in this study showed approximated boundary values with previous other references which conducted in lab-scale or biochemical methane potential (BMP) tests. In conclusion, Korean food waste and food waste leachate have sufficient potential of methane yield in the ongoing biogasification facilities.     

Using a novel adsorbent macrocyclic compound cucurbit[8]uril for Pb removal from aqueous solution

In this study, cucurbit[8]uril (CB[8]) was utilized as a kind of new adsorbent to remove Pb^2 + ions from aqueous solution. With the solution pH increased from 2 to 6, the removal efficiency of adsorption increased from 55.6% to 74.5%correspondingly. The uptake of Pb^2 + increased rapidly in the initial 30 min, and then the adsorption rate became slower. The Pseudo-second order model could be used to interpret the adsorption kinetics satisfactorily; and the rate determining step in Pb^2 + adsorption onto CB[8] was the external mass transfer step. Equilibrium isotherm study reveals that the Langmuir model gave a better fitting result than Freundlich model. The maximum adsorption capacity calculated by the Langmuir model was 152.67 mg/g for 298 K, 149.70 mg/g for 313 K and 136.42 mg/g for 323 K, respectively. The adsorption is a spontaneous process of exothermic nature. The effect of the adsorbent dosage and the influences of solution pH and co-existing cations were also investigated. The CB[8] was synthesized and characterized by ¹H NMR, IR, ESI-MS spectra, SEM-EDAX, Zeta-potential and BET-analysis. The adsorption mechanism was due to the coordination between CB[8] molecule and Pb^2 + ions.     

磁性水滑石双金属催化剂吸附-催化氢还原去除水中高氯酸盐的研究

采用化学共沉淀法制备磁性钯钴水滑石催化剂（M-Pd/Co@CHT）,用于吸附催化还原去除水中的高氯酸盐.同时,研究了不同溶液pH值、催化剂投加量、温度、共存离子和氢气流量等因素的影响,考察了吸附动力学和等温吸附过程.最后对反应前后材料进行表征,以明确吸附催化氢还原反应机理.结果表明：在较宽的pH范围（5~10）内,M-Pd/Co@CHT显示出对高氯酸盐较高、较稳定的吸附效率;伪二阶动力学模型和Langmuir模型能很好地拟合催化剂对高氯酸盐的吸附规律,说明该吸附过程是近似单层的化学吸附,最大单层吸附容量为172.65 mg·g^-1;温度、投加量和供氢气量对M-Pd/Co@CHT加氢催化还原高氯酸盐有显著的影响,当高氯酸盐初始浓度为10 mg·L^-1时,在最优实验条件下30 min可以去除约54%的高氯酸盐;利用XRD、FTIR、BET、XPS及VSM等手段对M-Pd/Co@CHT进行表征,结果表明,介孔M-Pd/Co@CHT可以有效吸附或催化高氯酸盐;高氯酸盐首先被吸附至M-Pd/Co@CHT上从而恢复其层状结构,而后在Pd/Co二元金属催化剂的作用下被氢还原去除;利用外加磁场能够实现材料的固液分离,可以有效地避免二次污染.     

Characterization of the Songhua River sediments and evaluation of their adsorption behavior for nitrobenzene

The explosion at a plant of the Jilin Petrochemical Corporation on 13 November,2005,and the spill of an estimated 100 t of toxic substances (nitrobenzene as the main component) into the Songhua River received worldwide attention.This study has focused on the adsorption behavior of nitrobenzene that spilled onto sediments along the Songhua River,which was one of the efforts to evaluate the fate of nitrobenzene after the spillage event.The organic carbon contents of these sediments along the Songhua River ...     

Fenton试剂氧化降解水中的盐酸四环素

利用Fenton试剂对水中盐酸四环素（TC）氧化降解,考察H2O2/Fe2+（摩尔比）、Fenton试剂投加量、溶液pH值对盐酸四环素去除的影响,研究了盐酸四环素降解过程及动力学特征。研究结果表明：对于初始浓度为0.10 mmol·L-1的盐酸四环素,最优反应条件为pH值3.0,H2O2/Fe2+=10：1（物质的量之比）,H2O2施加量1.58 mmol·L-1。在该条件下反应60 min,盐酸四环素降解率达88.47%,对应TOC去除率为18.48%;紫外可见光谱扫描结果表明氧化过程中盐酸四环素的共轭结构被首先破坏;分别采用一级和二级动力学方程拟合降解过程,结果表明反应过程遵循二级动力学模型。     

硫自养填充床生物反应器去除水中的高氯酸盐

建立了硫自养填充床生物反应器用于水中ClO4-的去除,考察水力停留时间(HRT)、水温的影响及副产物产生规律。结果表明,当进水ClO4-浓度为22.40~21.07 mg/L时,逐步缩短HRT为12、8、4、2、1.5和1 h,经4~6 d的适应期,反应器对其去除率可达99%以上;低浓度的NO3--N(2.17 mg/L)的存在对ClO4-的降解不产生抑制,两者可同步去除;3℃以内的水温波动对其去除影响较小,较大的温度波动(-8℃)会造成去除率下降;Cl-作为惟一还原产物,其浓度增多符合化学计量比。同时,研究证实了硫歧化反应的发生,出水SO42-浓度的增加量大于理论值,S2-离子浓度较低(4-完全去除时,出水pH值比进水降低约1.1个单位。     

天宝岩国家级自然保护区4种类型泥炭藓沼泽植被组成及其与环境因子的关系

基于野外样地调查资料,运用主成分分析(PCA)与冗余分析(RDA)等方法,研究天宝岩国家级自然保护区4种类型泥炭藓沼泽(泥炭藓类型、水竹类型、垂穗石松类型和灯芯草类型)的植被组成、物种多样性特征及其与土壤层和苔藓枯落物层环境因子的相关性.结果表明:研究区内共有植物28科41属44种,4种类型泥炭藓沼泽的物种组成差异性较大,但科属种的分布比较均匀;植物区系分析发现,天宝岩泥炭沼泽植被区系主要由泛热带分布型和北温带分布型2类构成;PCA结果显示,同种类型泥炭藓沼泽各样地的分布较为集中,个别样地分布比较分散,但4种类型泥炭藓沼泽样地之间的差异较大,PCA二维排序图清晰显示了4种类型泥炭藓群落与环境因子之间的相关性;而RDA表明,土壤容重、木本层盖度、土壤自然含水量和苔藓枯落物层最大持水率成为影响其植被组成的主要环境因子,这些因子能够显著解释物种多样性变化的最小组合.本研究结果表明,不同类型泥炭藓沼泽物种组成对环境因子的响应有差异,而环境水分特征是影响其植物组成分异的主要驱动力.