PO4^3-和柠檬酸对稀土元素在小麦体内积累和分异的影响

基于营养液培养,添加外源稀土和ICP-MS分析技术,研究了无机配体PO43-(Pi)及有机配体柠檬酸(Cit)对小麦器官中稀土元素积累和分异的影响.结果表明,不同Pi水平对小麦根中的稀土总含量(∑REE)影响较小,但显著降低叶中∑REE含量;而不同Cit水平对小麦根、叶中∑REE含量都有明显降低作用.对照植物(无Pi、Cit添加)中,稀土元素在小麦根中具有中稀土(MREE)富集及M-型四重效应分布特征,叶中有重稀土(HREE)富集及W-型四重效应分布特征.不同Pi处理对四重效应无明显作用,但进一步加强HREE在小麦叶片中的富集.添加柠檬酸使对照植物根和叶中的分异有逐渐减弱的趋势,在高浓度处理时(Cit≥150μmol.L-1),小麦根和叶中出现轻稀土(LREE)富集.     

旋转填料床/柠檬酸盐法吸收-解吸SO2

提出采用旋转填料床结合柠檬酸盐法脱除烟气中SO2的方法,考察了旋转填料床转子转速、液气比、初始柠檬酸根浓度和初始pH值等因素对脱硫效率的影响。结果表明,采用超重力法超重机转子转速为1 000 r/min、液气比为7L/m3、初始柠檬酸根浓度为1.5 mol/L、吸收液的初始pH值为5.0,脱硫效率稳定在99%左右。研究了水蒸气汽提法解吸SO2时初始柠檬酸根浓度、初始pH值、SO2浓度、富液流量和水蒸气流量对解吸效率的影响,得出了影响SO2解吸率的基本规律,并进行了分析。通过实验证明该方法在技术上是可行的,具有良好的应用前景。     

光照下铜离子对水中氢氧自由基生成量的影响

研究了水溶液中铜离子与抗坏血酸、柠檬酸盐及藻等配合体系在高压汞灯光照下产生氢氧自由基的情况,其中铜与抗坏血酸系统反应最强,高压汞灯光照增强了铜与抗坏血酸反应产生氢氧自由基的过程,高压汞灯光照时所产生的自由基量为不光照时的6～7倍。同时铜(或抗坏血酸)单一的水溶液在光照条件下也能产生氢氧自由基。铜离子与柠檬酸钠溶液混合在光照下能产生氢氧自由基;铜离子与藻液混合能加倍藻液中氢氧自由基的产生。     

药物合成废水处理工程

针对氯唑沙宗、枸橼酸莫沙必利化学原料药合成过程中产生的有机废水浓度高、成分复杂及处理难度大等特点（COD高达80 000 mg/L左右）,采用催化氧化-生物化学方法,试验研究了药物合成废水处理.试验结果表明,该技术对合成废水的COD去除率可达98%,SS去除率可达96%,色度降到50倍左右,其去除率约为98%.该系统运行费用为0.4～0.5元/m^3废水.经过3个月的工程运行,表明催化氧化-生物化学处理药物合成废水系统是一种高效率、低能耗、运行管理方便、经济可行的处理方法.处理类似制药废水这样的高浓度有机废液,上述废水处理工艺具有广阔的应用前景.     

The role of root organic acids in the tolerance of Festuca rubra to zinc,lead and cadmium

Abstract

Festuca rubra L. plants are pseudometallophytes colonizing abandoned Pb/Zn mine areas, successfully employed in phytostabilization. To study the contribution of low-molecular weight organic acids to metal tolerance, F. rubra plants were grown for three months in hydroponics with Cd (1.8, 18 and 36 µmol?L^?1), Pb (50, 250 and 500?µmol?L^?1) and Zn (0.3, 3 and 6?mmol?L^?1), separately, and in ternary combination (18?µmol?L^?1 Cd + 250?µmol?L^?1 Pb + 0.3?mmol?L^?1 Zn). The roots retained most of the metals but their distribution from shoot to root was altered when the plants were treated with the ternary combination. The main organic acids in roots were citrate and malate. At the lowest concentrations, the metals caused small reductions in biomass, had no effects on photosynthetic pigments nor on malondialdehyde, but led to increases in root organic acids. At higher concentrations, phytotoxic responses were observed, associated with a decline of citrate and malate in the roots.     

柠檬酸钠强化剩余污泥酶水解和酸化的研究

厌氧条件下,研究了阳离子络合剂柠檬酸钠(SC)对剩余污泥酶水解和酸化的影响.结果表明:络合剂SC提高了污泥酶水解和酸化的效率,溶解性蛋白质和碳水化合物溶出量增加,SC的最佳投加剂量为0.432 g·g-1(以TS计,下同).络合剂SC可以提高污泥中短链脂肪酸(SCFAs)的积累量,同时减少达到最大SCFAs积累的时间,缩短厌氧消化时间.空白对照组和蛋白酶组的总SCFAs积累量分别在反应第7 d和第6 d达到最大值,而SC+蛋白酶组(SC 0.432 g·g-1)在反应第2 d就达到了最大值.从酶活性的变化和SEM图可知,SC的投加破坏了EPS的网络结构,原来被束缚、隐藏于污泥基体中的水解酶得到释放,从而提高了污泥水解速率.     

Biodegradation of Low Molecular Weight Organic Acids in a Limed Forest Soil

The effect of liming (3.45 and 8.75 t ha^-1 dolomite; 16 yr after application) on the biodegradation of three low molecular weight organic acids (citrate, oxalate and propionate) in forest soils was investigated. The concentration of organic acids in the soil solution followed the series propionate > citrate > oxalate with liming having no significant impact on soil solution concentrations (mean organic acid concentration = 8.7 ± 2.3 M). Organic acid mineralization by the soil microbial community was rapid in surface organic horizons (mean half-life for citrate = 2–6 h), with biodegradation rate gradually declining with soil depth. Concentration-dependent biodegradation studies (0 to 350 M) showed that the mineralization kinetics generally conformed well to a single Michaelis–Menten equation with V_max values following the series oxalate > citrate > propionate (mean = 9.8 ± 1.0 nmol g^-1 h^-1) and K_M values following the series oxalate = citrate > propionate (mean 168 ± 25 M). The V_max values declined with soil depth, which was consistent with a general reduction in microbial activity down the soil profile. Liming induced a significant increase in V_max for citrate with no change for propionate and reduction in V_max for oxalate. The latter was probably due to adsorption and precipitation of Ca-oxalate making it unavailable for microbial uptake. The higher adsorption/precipitation capacity for oxalate in the limed soils was confirmed by adsorption isotherms. Generally, liming increased soil microbial activity by approximately 10 to 35% with calculations based on soil solution concentrations indicating that organic acid mineralization constituted approximately 3 to 15% of the total soil respiration.     

吸收法脱除甲苯废气的实验研究

以柠檬酸钠溶液为吸收液,在散堆填料塔里进行脱除甲苯废气的实验研究。研究了柠檬酸钠浓度、甲苯进口浓度、空塔气速及液气比对含甲苯废气吸收效果的影响,确定了最佳工艺条件,为解决含甲苯废气污染问题提供了应用基础。在此基础上提高填料层高度可使吸收率达到88%~93%,废气达标排放,并对吸收液的后处理进行了初步研究。     

活性炭纤维负载柠檬酸铁活化过硫酸氢钾降解罗丹明B的研究

以ACF（活性炭纤维）为载体,制备出一种新的非均相催化剂ACF@Cit-Fe/S〔将Cit-Fe（柠檬酸铁）负载在ACF表面并引入S元素〕,并采用SEM-EDS（电镜-能谱）、XPS（X射线光电子能谱）对其进行表征,研究其活化PMS（过硫酸氢钾）降解染料RhB（罗丹明B）的降解效果.结果表明:①ACF表面成功负载了Cit-Fe和S元素,Cit-Fe和S元素的掺杂增强了ACF催化PMS的性能,能有效降解染料RhB,反应120 min时RhB的脱色率达98%.②ρ（ACF@Cit-Fe/S）、c（PMS）对RhB降解有一定的影响,ρ（ACF@Cit-Fe/S）为0.5 g/L、c（PMS）为6 mmol/L是降解RhB（10 mg/L）的最佳投加量.③温度对RhB降解速率的影响符合阿伦尼乌斯模型,通过计算得出活化能为39.47 kJ/mol,降解过程是一个表面反应控制过程.④以叔丁醇、甲醇、苯酚为分子探针的自由基清除试验显示,SO₄-·（硫酸根自由基）和HO·（羟基自由基）是降解反应过程中主要的自由基,其主要存在于催化剂表面及其周围.研究显示,ACF@Cit-Fe/S能用于活化PMS的高级氧化体系中,ACF@Cit-Fe/S表面丰富的电子转移过程导致其活化PMS的能力增强,从而促进SO₄-·和HO·的产生,提高RhB的降解效率.      

Removal of citrate and hypophosphite binary components using Fenton, photo-Fenton and electro-Fenton processes

Both citrate and hypophosphite in aqueous solution were degraded by advanced oxidation processes (Fe2+/H2O2, UV/Fe2+/H2O2, and electrolysis/ Fe2+/H2O2) in this study. Comparison of these techniques in oxidation efficiency was undertaken. It was found that Fenton process could not degrade completely citrate in the presence of hypophosphite since it caused a series inhibition. Therefore, UV light (photo-Fenton) or electron current (electro-Fenton) was applied to improve the degradation efficiency of the Fenton process. Results showed that both photo-Fenton and electro-Fenton processes could overcome the inhibition of hypophosphite, especially the electro-Fenton.