菌渣中阿维菌素残留检测方法及其无害化工艺研究

文章建立了简单、快速的阿维菌素菌渣中阿维菌素残留量高校液相色谱检测方法以及利用水热法处理阿维菌素菌渣。采用固相萃取-高效液相色谱检测方法测定阿维菌素菌渣中阿维菌素残留量,提取剂为乙腈/水=4/1(V/V),采用HLB固相萃取柱进行净化。加标回收率90.3%~107.3%,相对标准偏差(RSD)为3.00%~5.69%,阿维2菌素标准曲线线性相关系数R~2=0.999 6,线性范围为1.0~1 000 mg/L。利用正交实验,水热法处理阿维菌素菌渣,在190℃的温度下处理2 h后,菌渣中阿维菌素残留量由991.30降至0.84 mg/kg,去除率达99.92%。处理前后的菌渣与有机肥标准作对比,除含水率外其余检测指标均达到有机肥标准要求。该项研究为阿维菌素菌渣的资源化利用提供了理论依据。     

包气带系统对矿冶固废渗滤液中重金属的净化作用

矿冶固废渗滤液流经包气带系统时,包气带系统中的黏土矿物、土壤有机质、土壤微生物和植物根系会把渗滤液中的部分污染物质固定下来,使渗滤液得到净化。包气带系统中的微生物、黏土矿物、有机质和植物根系构成了包气带系统的净化介质,是决定包气带系统自净能力和影响重金属迁移转化的关键因素。分别从包气带系统中的黏土矿物、土壤有机质、土壤微生物和植物四个方面对重金属的净化机理进行了阐述分析,指出包气带系统对重金属的净化作用可能是暂时的,pH值和Eh值等条件的改变会促使累积在包气带系统中的重金属重新发生迁移,并提出利用包气带系统净化矿冶固废渗滤液中具有高毒性与放射性的核素时,必须对该核素在包气带系统中的迁移转换规律进行研究,只有这样才能合理地利用包气带系统的自净作用,保障生态环境的安全性。     

污水净化装置内部流场特性分析研究

针对目前城市污水存在悬浮物和砂粒的问题,为了减少砂粒大量存在给后续单元带来的处理压力,设计了一种可实现在加药、絮凝等处理模块前,完成污水内固相悬浮物及颗粒的新型净化装置.基于计算流体动力学软件Fluent,运用混合相模型(Mixture),对新型污水净化装置内部流场特性及分离性能进行数值模拟分析.模拟结果显示新型污水净化装置内部流场分布均匀,分离性能稳定并呈现出了较好的固相去除效果,其中悬浮物的分离效率达90%以上,固相颗粒分离效率达91%.     

LNG独立C型液货舱绝热形式选型研究

本文对LNG独立C型液货舱的绝热形式进行了分析与论述,比较了不同绝热形式在LNG船舶领域的应用范围与各自特点,并以中海油能源发展有限公司建造的6500HP港作拖轮为例进行了绝热层选型实例分析。最终,本文通过总结给出了独立C型液货舱绝热形式选择的参考原则,为后续独立C型液货舱设计与深入研究提供参考。     

固载化瓜环的制备及其对磺胺间甲氧嘧啶的吸附性能研究

在微波无极灯下将烯氧基瓜环固载到巯基硅胶(MSG)上,制得固载化瓜环(ACB[6]-SG).通过红外光谱表征固载产物,并研究固载化瓜环对磺胺间甲氧嘧啶(SMM)的吸附性能.结果表明,SMM在固载化瓜环上的吸附基本在2 min内即可达到平衡;Henry方程和Freundlich方程均能较好地拟合SMM在固载化瓜环和巯基硅胶上的等温吸附曲线,但是SMM在固载化瓜环上的吸附主要是在瓜环中的分配,而SMM在巯基硅胶上的吸附则主要是多分子层的表面吸附作用;SMM在固载化瓜环上的平衡吸附量远大于在巯基硅胶上的平衡吸附量;SMM在两者上的吸附过程是一个放热过程,温度越低吸附效果越好.     

沉积物中雌激素及壬基酚、辛基酚、双酚A的测定

近些年来雌激素及烷基酚类化合物由于其对水生生物的内分泌干扰作用越来越受到广泛关注.沉积物作为环境中有机污染物的重要储存库,研究目标物在其中的浓度分布对于探明此类物质在环境中的迁移转化具有重要意义.但沉积物中基质组成复杂而雌激素又痕量存在,这增加了前处理的难度.本研究从雌激素及烷基酚类化合物的理化性质入手,采用碱液提取、液液萃取和LC-MS/MS分析测定沉积物样品中的雌激素及壬基酚、辛基酚、双酚A.结果表明,经过优化的方法对7种目标物的回收率介于61.9%～93.7%之间.该方法能有效去除沉积物中那些不溶于强碱和既溶于酸又溶于碱的有机污染物,同时操作简单、成本低,但回收率高、检出限低,可广泛适用于河流沉积物样品及土壤样品的前处理.     

2株降解菲的植物内生细菌筛选及其降解特性

为了获得具有菲降解特性的植物内生细菌,通过选择性富集培养,本研究从多环芳烃污染区植物体内分离得到2株能够降解液体培养基中高浓度菲(200 mg·L-1)的植物内生细菌(菌株P1和P3).经形态观察、生理生化特征鉴定和16S rDNA序列同源性分析,分别将菌株P1和P3鉴定为寡养单胞菌属(Stenotrophomonas sp.)和假单胞菌属(Pseudomonas sp.)的细菌.菌株P1和P3均为好氧生长,28℃、150 r·min-1摇床培养7 d,2株菌对无机盐培养基中菲(100 mg·L-1)的降解率均高于90%.条件实验表明,温度20～30℃,pH 6.0～8.0,盐含量0%～4%,装液量10～30 mL(100 mL三角瓶)2菌株生长良好且对菲降解率高于70%.其最适生长和降解温度为30℃,pH为7.0,盐含量≤4%,装液量≤30 mL.综合比较2株菌对菲的降解特性,P1菌株高温耐受性稍强,而P3菌株对环境pH改变和缺氧的耐受性稍强.     

A pilot-scale study of cryolite precipitation from high fluoride-containing wastewater in a reaction-separation integrated reactor

Fluoride removal by traditional precipitation generates huge amounts of a water-rich sludge with low quality, which has no commercial or industrial value. The present study evaluated the feasibility of recovering fluoride as low water content cryolite from industrial fluoride-containing wastewater. A novel pilot-scale reaction-separation integrated reactor was designed. The results showed that the seed retention time in the reactor was prolonged to strengthen the induced crystallization process. The particle size of cryolite increased with increasing seed retention time, which decreased the water content. The recovery rate of cryolite was above 75% under an influent fluoride concentration of 3500 mg/L, a reaction temperature of 50℃, and an influent flow of 40 L/hr. The cryolite products that precipitated from the reactor were small in volume, large in particle size, low in water content, high in crystal purity, and recyclable.     

Biodegradation of 2-methylquinoline by Enterobacter aerogenes TJ-D isolated from activated sludge

Bacterial strain Enterobacter aerogenes TJ-D capable of utilizing 2-methylquinoline as the sole carbon and energy source was isolated from acclimated activated sludge under denitrifying conditions. The ability to degrade 2-methylquinoline by E. aerogenes TJ-D was investigated under denitrifying conditions. Under optimal conditions of temperature (35℃) and initial pH 7, 2-methylquinoline of 100 mg/L was degraded within 176 hr. The degradation of 2-methylquinoline by E. aerogenes TJ-D could be well described by the Haldane model (R² > 0.91). During the degradation period of 2-methylquinoline (initial concentration 100 mg/L), nitrate was almost completely consumed (the removal efficiency was 98.5%), while nitrite remained at low concentration (< 0.62 mg/L) during the whole denitrification period. 1,2,3,4-Tetrahydro-2-methylquinoline, 4-ethyl-benzenamine, N-butyl-benzenamine, N-ethyl-benzenamine and 2,6-diethyl-benzenamine were metabolites produced during the degradation. The degradation pathway of 2-methylquinoline by E. aerogenes TJ-D was proposed. 2-Methylquinoline is initially hydroxylated at C-4 to form 2-methyl-4-hydroxy-quinoline, and then forms 2-methyl-4-quinolinol as a result of tautomerism. Hydrogenation of the heterocyclic ring at positions 2 and 3 produces 2,3-dihydro-2-methyl-4-quinolinol. The carbon-carbon bond at position 2 and 3 in the heterocyclic ring may cleave and form 2-ethyl-N-ethyl-benzenamine. Tautomerism may result in the formation of 2,6-diethyl-benzenamine and N-butyl-benzenamine. 4-Ethyl-benzenamine and N-ethyl-benzenamine were produced as a result of losing one ethyl group from the above molecules.     

苯酚降解红球菌的分离鉴定及降解特性研究

采用富集培养的方法,从唐山污水处理厂附近的植物根际土中分离得到1株高效苯酚降解菌11-111。该菌株为革兰氏阳性菌,可以在以苯酚为唯一碳源和能源的无机盐培养基上生长,能够耐受最高浓度为2 000 mg/L的苯酚。对该菌株的降解性能研究表明,在温度24~32℃,pH值6.5~8.5,装液量≤20 mL(100 mL摇瓶)范围内,摇床转速为160 r/min,菌株对初始浓度500~1 500 mg/L的苯酚均能有效降解。根据该菌株的形态、生理生化特性和16S rRNA基因序列同源性分析结果,鉴定为红球菌属(Rhodococcus sp.)菌株。该菌株具有较强的环境适应能力和苯酚降解能力,有较高的研究价值及应用前景。