焦化废水对蚕豆毒性的研究

以COD作为主要参照指标,研究了焦化废水在符合《钢铁工业水污染物排放标准》（GB13456-92）焦化一级、二级排放标准限值要求时,对蚕豆幼芽、幼根生长和根尖细胞遗传损伤的影响。结果表明,经处理达标后的焦化废水长时间作用于蚕豆时,蚕豆幼芽和幼根质量会受到影响,焦化废水会引起蚕豆细胞的遗传损伤。该废水诱导蚕豆根尖细胞微核率增加,出现核固缩,诱导蚕豆细胞根尖染色体断裂、粘连和染色体桥数量增加,破坏染色体的结构和遗传稳定性。     

超声波技术在焦化废水处理中的应用研究

以某焦化厂的焦化废水为研究对象,通过试验分析了超声功率、初始浓度、溶液pH、反应时间、空化气体及反应器中的静水压力等因素对超声降解焦化废水的影响,采用正交试验的方法确定了最佳的工艺条件.在最佳工艺条件下,对焦化废水中PAHs的脱除效果进行了分析.     

聚合硫酸铁处理终端焦化废水的研究

确定了聚合硫酸铁处理终端焦化废水的最佳投药量和 p H值 ,讨论了影响其混凝效果的主要因素。实验结果表明 ,处理后出水 COD、浊度的去除率达 80 %以上 ,对酚、氰的去除率可达到 40 %、5 0 %。     

焦化废水中多环芳烃的成分谱及污染特征

液-液萃取-高效液相色谱法分析了焦化废水中EPA优先控制的16种多环芳烃含量,总结出其成分谱及污染特征。结果表明:16种多环芳烃在焦化废水中浓度差异较大,主要以在水中溶解度较大的萘、苊、芴、菲、荧蒽、芘为主。其中萘对多环芳烃总量的贡献最大,占总量的36.70%~86.78%。焦化企业排放废水中6种多环芳烃的总量无超标现象,苯并[a]芘单体超标较普遍。     

基于GC-MS方法的焦化行业特征挥发性有机物分析

基于气相色谱-质谱联用(GC-MS)方法,对南京市2家钢铁企业焦化工艺的挥发性有机物(VOCs)无组织排放情况开展监测。结果表明:焦化行业排放的VOCs主要组分为苯系物、含氧化合物、卤代烃、烷烃和烯烃,分别约占33%、24%、16%、13%和13%,炔烃约占1%;主要特征污染物包括苯、甲苯、二甲苯、甲醇、乙醛、丙酮、氯乙烯、二氯乙烯、三氯苯等。     

化学衍生化／GC／MS鉴定焦化废水中羧酸化合物

叙述ＧＣ／ＭＳ测定焦化废水中羧酸化合物分析方法，以三胺同废水中羧酸生成不挥发盐用液一固萃取分离，羧酸同三甲基氯硅烷，六甲基二硅胺衍生化继以ＧＣ／ＭＳ鉴定，方法简捷，快速。     

磨盘山水库溶解性有机质光谱特性及来源分析

结合紫外可见吸收光谱与三维荧光光谱法,利用平行因子分析方法研究哈尔滨市磨盘山水库水体中的溶解性有机质（DOM）。结果表明,水体DOM吸收系数α355平均值为（4.71±0.66）m-1,表明水库中有色溶解性有机质（CDOM）较高;水库水体DOM存在3个荧光组分,分别为类腐殖质C1（345 nm、440 nm）、类腐殖质C2（285 nm、405 nm）和类富里酸组分C3（275 nm、475 nm）;C1、C3呈现显著的正相关性,自生源指数与C1呈显著的负相关性;类腐殖质的荧光强度在深层水体中逐渐增加,且深层水体的腐殖化程度较高,较为稳定;水库中心水体中DOM的自生源特征较其他区域明显,浮游植物和细菌的有机体降解产物增加。     

城市雨水管网沉积物不同分子量溶解性有机质空间分布及光谱特征

采用超滤法、紫外-可见吸收光谱和三维荧光光谱分析法研究了北京市西城区4个典型功能区(居民区、文教区、交通区、商业区)雨水管网表层沉积物中不同分子量溶解性有机质(DOM)的分布特征和光谱特性。结果表明:雨水管网沉积物DOM以小分子量组分为主,约占整体水平的60%~70%。通过分析还发现,沉积物中小分子量(小于3k Da)DOM主要是类蛋白物质,而腐殖类物质主要集中在DOM的大分子量(大于10k Da)区域,微生物活动对小分子量DOM贡献作用显著,由此可见,DOM的分子组成和结构特性在一定程度上可以作为雨水管网沉积物DOM主成分和来源的衡量指标。4个功能区DOM腐殖化水平较低,表现出随分子量增大DOM腐殖化程度升高的规律。     

焦化、染料废水和洹河水体的有机污染研究

采用GC/MS联用仪对焦化、染料废水和地表水中有机物进行定性、定量分析,探讨了污染源与受纳区的地表水中有机物种类和含量间的关系。     

畜禽养殖废水的三维荧光特征

对某畜禽养殖废水连续采样,利用荧光光谱法研究畜禽养殖废水的三维荧光特性.结果表明:该废水的三维荧光光谱有两个荧光峰,分别为270 nm/297 nm和315 nm/410 nm,两峰的强度之比为3.45～4.94;该畜禽养殖废水由蛋白质、腐酸、尿液及阴离子表面活性剂组成;各峰的峰位置及峰强度比值都可作为判断废水是否为该...     

Spectroscopic Distribution of Dissolved Organic Matter in a Dam Reservoir Impacted by Turbid Storm Runoff

Spectroscopic characteristics of dissolved organic matter (DOM) in a large dam reservoir were determined using ultraviolet absorbance and fluorescence spectroscopy to investigate spatial distribution of DOM composition after turbid storm runoff. Water samples were collected along a longitudinal axis of the reservoir at three to four depths after a severe storm runoff. Vertical profiles of turbidity data showed that a turbid water layer was located at a middle depth of the entire reservoir. The spectroscopic characteristics of DOM samples in the turbid water layer were similar to those of terrestrial DOM, as demonstrated by the higher specific UV absorbance (SUVA) and the lower fluorescence emission intensity ratio (F ₄₅₀/F ₅₀₀) compared to other surrounding DOM samples in the reservoir. Synchronous fluorescence spectroscopy revealed that higher content of humic-like DOM composition was contained in the turbid water. Fluorescence excitation–emission matrix (EEM) showed that lower content of protein-like aromatic amino acids was present in the turbid water DOM. The highest protein-like fluorescence was typically observed at a bottom layer of each sampling location. The bottom water DOM exhibited extremely high protein-like florescence near the dam site. The particular observation was attributed to the low water temperature and the isolation of the local bottom water due to the upper location of the withdrawal outlet near the dam. Our results suggest that the distribution of DOM composition in a dam reservoir is strongly influenced by the outflow operation, such as selective withdrawal, as well as terrestrial-origin DOM inputs from storm runoff.     

Toxicity Assessment of Treated Wastewater Using Cultured Human Cell Lines

Bioassay using cultured human cell lines was applied to an effluent of a wastewater treatment plant (WWTP) in Sapporo to assess their toxicity, and in order to investigate the fate of toxicity in the WWTP, bioassay of the water samples from several points in WWTP (influent, effluent, return flow from thickener, from dewatering process and from incineration process) was performed. We also applied bioassay to the mixture of the activated sludge from the investigated plant and artificial sewage. These results showed that the toxicity of the effluent was more intensive than the influent, and organic matter released from activated sludge bacteria during their decay process contributed to the increase of toxicity in the effluent.     

Size and resin fractionations of dissolved organic matter and trihalomethane precursors from four typical source waters in China

Dissolved organic matter (DOM) and its potential to form disinfection by-products (DBPs) during drinking water treatment raise challenges to water quality control. Understanding both chemical and physical characteristics of DOM in source waters is key to better water treatment. In this study, the DOM from four typical source waters in China was fractionated by XAD resin adsorption (RA) and ultrafiltration (UF) techniques. The trihalomethane formation potential (THMFP) of all fractions in the DOM were investigated to reveal the major THM precursors. The fraction distributions of DOM could be related to their geographical origins in a certain extent. The dominant chemical fraction as THM precursors in the DOM from south waters (East-Lake reservoir in Shenzhen and Peal rivers in Guangzhou) was hydrophobic acid (HoA). The size fraction with molecular weight (MW) <1 kDa in both south waters had the highest THMFP. The results of cluster analysis showed that the parameters of fractions including DOC percentage (DOC%), UV₂₅₄%, SUVA₂₅₄ (specific UV₂₅₄ absorbance) and THMFP were better for representing the differences of DOM from the studied waters than specific THMFP (STHMFP). The weak correlation between SUVA₂₅₄ and STHMFP for either size or XAD fractions suggests that whether SUVA₂₅₄ can be used as an indicator for the reactivity of THM formation is highly dependent on the nature of organic matter.     

Methane emissions from ricefields as affected by organic amendment, water regime, crop establishment, and rice cultivar

Methane fluxes from Beijing ricefields as affected by organic amendment, water regime, crop establishment method, and rice cultivar were measured with a closed chamber method in 1990, 1991, 1995, and 1996. Total fluxes from plots receiving high organic amendment always exceeded those from the low-input plots. Compared with continuous flooding, intermittent irrigation (there were a few days of no standing water between two irrigations) and constant moisture (the field had no standing water, but remained saturated) reduced methane emission rate by 25.4 and 58.4%, respectively. Methane flux from a dry-seeded rice field was 75.2% lower than from a transplanted ricefield although both dry-seeded rice plots and transplanted ricefields were initially flooded at the same time. Rice cultivars differed in methane emission rates by 9.0–55.7%. Emission rates were positively correlated with aboveground dry matter production and root weight, but not grain yield. Intermittent irrigation and rice cultivar seem to be the most promising methods for mitigating methane emission from ricefields; they do not affect rice yield and are easily implemented at the farm level.     

工业废水与河流水体的急性毒性研究

测试并研究了焦化、染料、制药、电镀、造纸、食品加工等不同类型工业废水对生物急性毒性的影响和特性,探索了河流水体急性毒性的污染类型、污染来源及与理化污染指标的相关性,提出了水质的急性毒性评价指标。     

环境固体样品中多种甾体激素的同步检测方法及条件优化

采用超声辅助萃取-吸附剂净化-液相色谱-串联质谱同步检测环境固体样品中22种甾体激素,比较筛选了超声辅助萃取的有机溶剂和净化萃取液的吸附剂。结果表明,使用甲醇/乙腈/乙腈对固体样品中的甾体激素分别进行3次超声辅助萃取效果最佳,在0~150 mg/mL投加量范围内,N-丙基乙二胺粉末能有效减少浓缩萃取液中有机质的干扰并获得最高回收率,石墨碳粉末的有机质去除效果最好,但同时也造成目标物的显著损失,而硅胶粉末对有机质的去除效果不明显,因此选用N-丙基乙二胺粉末为萃取液的净化吸附剂,推荐使用量为150~400 mg/mL,在此优化条件下,22种甾体激素的标准曲线线性良好,方法检出限为0.025~0.696 μg/kg,加标回收率达到63.5%以上,且操作简便、耗时短,适用于各种复杂环境固体样品的检测分析。     

工业废水毒性评估方法与应用研究进展

针对中国缺乏规范的工业废水毒性评估体系的现状,系统归纳了国外在毒性检测、毒性评价标准与方法方面的成功经验。在明确了工业废水急性毒性检测的重要性基础上,重点分析了美国全废水毒性测试法（WET）及其在工业废水评价中的应用;并结合对毒性评价标准的阐述,系统总结了发展较成熟的毒性鉴别评价法（TIE）和效应导向分析法（EDA）的流程与应用实例,以期为中国工业废水毒性检测评估和监管提供参考。     

城市垃圾填埋场渗滤液中污染物检测与分析

垃圾渗滤液水质复杂,危害性大,对其无害化处理尚未得到很好解决。溶解性有机物(DOM)是导致渗滤液处理难以达标的主导性污染物。采用GC-MS技术可将渗滤液中DOM标识划分为亲水性和疏水性两类物质,为DOM的针对性处理提供了新的思路。采用ICP-AES从渗滤液中检测出美国环境保护局颁布的13种优先污染重金属中的11种,其含量大幅超标。废弃的电子材料、颜料涂料、电池以及药物等物质的不分类收集是导致渗滤液中重金属浓度超标、毒性增强的主要原因。在垃圾渗滤液处理领域,认为BOD5/COD小于0.3就不可以采用生物法处理的传统观点已经不符合实验与工程现实。通过检测与分析,掌握了垃圾渗滤液的水质特性与污染源头,能够为制定切实可行的处理方案提供借鉴。