连续式离子分离系统(ISEP)在水杨酸生产废水处理中的应用

采用连续式离子分离系统 (ISEP)处理水杨酸生产废水 ,结果表明 ,该系统对水杨酸生产废水有良好的处理效果。当进水CODCr为 180 0 0— 2 0 0 0 0mg/L时 ,经一步吸附处理 ,出水CODCr可实现达标排放 ,苯酚、水杨酸去除率接近10 0 % ,脱附液中高浓度苯酚、水杨酸等资源可有效回收利用     

头孢菌素制药行业水污染物特征成分谱解析

以某大型头孢菌素制药企业为研究对象,通过测定生产废水中常规污染物、金属污染物和有机污染物等,以开展水污染物的特征成分谱解析。结果表明,参照《发酵类制药工业水污染物排放标准》(GB 21903—2008)、《地表水环境质量标准》(GB3838—2002),发现头孢菌素制药行业的水污染物特征成分谱为挥发酚、COD、石油类、总氮、氨氮、总磷、Zn、Mn、Cr、Se、甲基异丁基酮、乙酸乙酯、四氢呋喃、甲苯、丙酮、二苯基甲醇、4-甲基苯酚、3-甲基苯酚、乙醇、苯酚、α-苯基苯甲醇乙酸酯、乙酸甲酯、苯甲酮等;头孢菌素制药废水中大部分金属以溶解态形式存在,但总体来说悬浮态金属的去除率比溶解态金属高;在该行业的水污染物减排工艺选择时,要关注总磷,总氮,溶解态Zn、Mn、Cr、Se的减排,并要考虑甲基异丁基酮、乙酸乙酯、四氢呋喃等难生物降解有机物的可去除性。     

泰安城区地下水中挥发性和半挥发性有机物特征与健康风险评价

为查清泰安城区地下水有机污染现状,对《地下水质量标准》(GB/T 14848—2017)中规定的26项挥发性和半挥发性有机物组分进行检测,并利用健康风险评价模型对饮水摄入、皮肤接触、洗浴呼吸吸入3种暴露途径产生的非致癌风险和致癌风险进行评价。研究结果表明：地下水样品中挥发性和半挥发性有机物检出率为35.34%,15项被检出的组分中,1,1,2-三氯乙烷检出率最高,为16.38%,其次为四氯乙烯(12.07%)和三氯乙烯(6.90%)。与GB/T 14848—2017的Ⅲ类水标准限值相比,挥发性和半挥发性有机物总超标率为5.17%,出现超标的组分为1,1,2-三氯乙烷、三氯乙烯、苯并(a)芘,最大检出质量浓度分别为26.90、149.00、0.024μg/L,为标准值的5.38、2.13、2.40倍,表明研究区地下水已受到一定程度的有机污染。挥发性和半挥发性有机物非致癌风险指数介于1.52×10^-6～1.48,均值为4.33×10^-2,超限率仅为0.86%,非致癌风险较低,对人体的健康危害程度小;致癌风险值介于2.04×10^-9     

1-2-4酸生产废水资源化技术研究

以萃取—反萃取体系处理萘系染料中间体 1-2 -4酸生产废水 ,通过静态实验和正交实验确定最佳萃取—反萃取工艺条件。 1-2 -4酸生产废水包括 1-2 -4酸母液和 1-2 -4酸氧体废水 ,两种废水的萃余液平均 CODcr<60 0 mg/ L,萃取效率分别达 95 %和92 % ,反萃取效率 10 0 % ,萃取剂可以循环使用 ,有机物浓缩倍数分别为 9～ 10倍和 5～ 6倍 ,该浓缩液可回用。并对 1-2 -4酸生产废水资源化进行了运行费用分析 ,结果表明 ,该工艺有良好的经济效益、社会效益和环境效益     

废弃荧光灯中汞的处理

在30%的丙酮-水溶液中破碎废弃荧光灯,利用超声聚能效应辅助脱附汞,在有效捕获汞蒸气的同时脱附灯管表面大部分吸附汞。考察了丙酮水溶液浓度(C)、固液比(S/L)、超声时间(t)等因素对废弃荧光灯中汞去除效果的影响。在最佳工艺条件C=30%、S/L=240 g/L、t=30 min下,平均每根荧光灯中汞的去除量达5.028 mg。采用硫化沉淀-混凝-活性炭吸附联合工艺对含汞丙酮-水溶液进行无害化处理,实验结果表明,汞初始浓度为13.79 mg/L的废水,调节pH为2,依次投加硫化钠14.5 mg/L、聚合氯化铝290.9 mg/L、活性炭量90.9 mg/L,出水汞浓度降至26.82μg/L,去除率达99.8%,达到国家排放标准。     

四川省制鞋行业挥发性有机物成分谱研究

为探究四川省制鞋行业挥发性有机物(VOCs)的主要组分,通过现场采样的方法,对四川省整鞋制造、中大底制造、改性橡胶鞋底制造、橡胶鞋底制造、鞋跟制造以及鞋模制造6种制鞋类型企业排放的VOCs进行了采样分析。结果表明:四川省制鞋行业的VOCs成分谱中,含氧化合物和烷烃含量最高。有组织VOCs排名前三的组分为丙酮、二氯甲烷、甲苯,质量分数分别为30.82%、16.04%、11.06%;无组织VOCs排名前三的组分为正戊烷、丙酮、2-甲基戊烷,质量分数分别为20.26%、17.10%、10.31%。     

活性炭吸附苯酚及其超声波再生效果

研究了颗粒活性炭(GAC)对苯酚的吸附能力,确定GAC的吸附平衡时间,探讨超声波再生吸附苯酚活性炭的影响因素。实验结果表明:6 h后GAC吸附100 mL浓度为250 mg/L的苯酚水样达到平衡,最大平衡吸附量为16.24 mg/g,去除率为70.5%。再生条件为再生液温度30℃,超声再生时间20 min,解析液为0.25 mol/L氢氧化钠溶液,此时GAC再生效果为86.1%。     

超声波/Fenton处理含酚废水的影响因素

实验研究主要影响因素对超声波/Fenton试剂处理苯酚废水效果的影响,确定工艺参数。以人工配制的模拟苯酚废水为实验水样,通过静态实验研究p H值、Fe SO4·7H2O投加量、H2O2投加量和超声时间对苯酚和COD去除率的影响。研究结果表明,对于苯酚浓度为200 mg/L,COD为476.6 mg/L苯酚废水,在实验用水量为1 000 m L,p H值为6,Fe SO4·7H2O投加量为800 mg/L,H2O2投加量为Qth,超声时间为30 min的条件下,苯酚去除率可达到92.27%,COD去除率可达到82.48%,处理后苯酚浓度为14.80 mg/L,COD为83.50 mg/L。p H值、Fe SO4·7H2O投加量、H2O2投加量和超声时间对超声/Fenton工艺处理苯酚废水均有较显著地影响,工程应用时应给予足够的重视。     

连续式离子分离系统（ISEP）在水杨酸生产废水处理中的应用

采用连续式离子分离系统（ISEP）处理水杨酸生产废水，结果表明，该系统对水杨酸生产废水有良好的处理效果。当进水CODCr为18000－20000mg/L时，经一步吸附处理，出水CODCr可实现达标排放，苯酚、水杨酸去除率接近100％，脱附液中高浓度苯酚、水杨酸等资源可有效回收利用。     

负载TiO2/Fe^3＋的玻璃纤维反应器光催化苯酚

以玻璃纤维为载体,将TiO2负载到其表面形成了空间玻璃纤维反应器,引入Fe3＋作为掺杂改性离子,形成了负载TiO2/Fe^3＋的空间玻璃纤维光催化反应器,并以高压汞灯为光源进行了光催化降解水中苯酚的实验研究,考察了影响苯酚光催化降解的因素,确定了在UV365-250 W光源照射下,pH为3-5,O2通入量1.0 L/（min.L）,反应器内上升流速为0.7 m/min等实验条件下,初始浓度为30 mg/L的苯酚废水经120 min光催化反应后,降解率可达到85%,矿化率可达80%。     

Analysis of volatile fatty acids in wastewater collected from a pig farm by a solid phase microextraction method

The main purpose of this study is to develop a reliable Solid Phase Microextraction (SPME) method for monitoring the concentration of volatile fatty acid (VFA) in the wastewater collected from pig farms. Ten volatile fatty acid species were spiked in 2 ml of swine wastewater and extracted with a carbowax coated extraction fiber to evaluate the accuracy and precision of the method. The fiber was introduced into a gas chromatography system by thermal desorption and detected by a mass spectrometer detector. The estimated method detection limits ranged from 11.5 mM/L for formic acid to 0.03 mM/L for heptanoic acid. The method is more sensitive than the sample direct injection method. The percentage recovery of analytes ranged from 77.3 for propanoic acid to 114.1 for formic acid at the spike level of 19.09 mM/L. The compound absorption rate varied significantly with the fiber absorption time for n-Valeric, isocaproic, n-caproic and heptanoic acids. An SPME method with twenty minutes fiber absorption and three minutes thermal desorption was tested in this study and resulted in good reproducibility for analyzing VFAs in swine wastewater. The method may be applied for scanning a wide spectrum of polar organic compounds in environmental samples.     

太湖水源地水体中半挥发性有机物的监测

太湖某水源地水样经C18柱富集、气相色谱-质谱法(GC-MS)分离,定性测定其中的有机物.在丰水期、平水期、枯水期分别采样,在检测到的近百种有机化合物中有40种出现频率很高,同时运用内标法对其进行相对含量的比较,结果表明脂肪族化合物、邻苯二甲酸酯、2,6-二叔丁基-4-甲基苯酚和异氰尿酸三甲酯的相对含量较高,值得引起关注.     

Determination of Fine Particulate Semi-Volatile Organic Material at Three Eastern U.S. Sampling Sites

ABSTRACT

Correct assessment of fine particulate carbonaceous material as a function of particle size is, in part, dependent on the determination of semi-volatile compounds, which can be lost from particles during sampling. This study gives results obtained for the collection of fine particulate carbonaceous material at three eastern U.S. sampling sites [Philadelphia, PA; Shenandoah National Park, VA; and Research Triangle Park (RTP), NC] using diffusion denuder technology. The diffusion denuder samplers allow for the determination of fine particulate organic material with no artifacts, due to the loss of semi-volatile organic particulate compounds, or collection of gas-phase organic compounds by the quartz filter during sampling. The results show that an average of 41, 43, and 59% of fine particulate organic material was lost as volatilized semi-volatile organic material during collection of particles on a filter at Philadelphia, RTP, and Shenandoah, respectively. The particle size distribution of carbonaceous material retained by a filter and lost from a filter during sampling was obtained for the samples collected at Philadelphia and Shenandoah. The carbonaceous material retained by the particles during sampling was found predominantly in particles smaller than 0.4 μm in aerodynamic diameter. In contrast, the semi-volatile organic material lost from the particles during sampling had a mass median diameter of ~0.5 μm.     

Analysis of volatile and semivolatile organic compounds in municipal wastewater using headspace solid-phase microextraction and gas chromatography.

The aim of this work was to develop a simple and fast analytical method for the determination of a wide range of organic compounds (volatile and semivolatile compounds) in municipal wastewater. The headspace-solid-phase microextraction (HS-SPME) and gas chromatography (with mass spectroscopy) was used for determination of the organic compounds. In this study, 39 organic compounds were determined, including 3 sulfur compounds, 28 substituted benzenes, and 8 substituted phenols. The extraction parameters, such as types of SPME fiber, extraction temperature, extraction time, desorption time, salt effect, and magnetic stirring, were investigated. The method had very good repeatability, because the relative standard deviations ranged from 0.5 to 12%. The detection limit of each compound was at or below the microgram-per-liter level. This method was applied for determination of the organic compounds in raw wastewater, primary effluent, secondary effluent, and chlorinated secondary effluent samples from the Chania Municipal Wastewater Treatment Plant (Crete, Greece).     

Effects of nitrosation on the formation of cyanide in publicly owned treatment works secondary effluent.

Cyanide has been detected in the effluents of some publicly owned treatment works (POTWs) at levels exceeding the influent concentration. The presence of nitrite ion (NO2-) as a common constituent in domestic wastewater effluents may play an important role in the formation of cyanide through reaction with certain kinds of organic compounds, especially aromatic compounds. Laboratory studies with seven organic compounds (aniline. p-toluidine, phenol, 1,2,4-trihydroxybenzene, L-serine, glycine, and benzoic acid) revealed that cyanide can be formed by reaction of nitrite with some of these compounds. The most substantial free cyanide (HCN. CN-) production observed at 25 degrees C was 0.15 mg/L from reaction of 0.01 mM 1.2.4-trihydroxybenze with 5 mg/L nitrite for 72 hours. Substantial free cyanide formation was also observed at pH 2-4 in experiments with POTW effluents when reactive organics and nitrite were both added to wastewater. Formation of cyanide through nitrosation was strongly pH dependent, being most significant at low pH (2 to 4) and negligible at neutral-to-high pH. This result points to nitrous acid (HNO2) as being more reactive than the dissociated NO2- ion. The reaction of these nitrite species with organics also occurs in conventional analyses for total cyanide which involve distillation under strongly acidic conditions. Sufficient sample pretreatment with sulfamic acid at the time of sampling, not at the time of analysis. is highly recommended to prevent biasing analytical measurement of total cyanide in POTW effluents.     

高酚焦化废水萃取脱酚预处理

为了降低高酚焦化废水中挥发酚的浓度，实验研究了磷酸三丁酯煤油溶液在不同条件下对高酚焦化废水进行萃取脱酚预处理的效果。结果表明，萃取时间为8min，磷酸三丁酯煤油浓度为30％，温度低于40％，pH低于8．0，萃取比（油／水）R=1：2时，经过萃取后分水挥发酚浓度由4165mg降低到127．62mg／L，去除率高达96．94％，为后续生化处理奠定了基础。而萃取剂经过氢氧化钠溶液反萃取再生后，萃取剂的回收利用率可达94．25％以上。     

玉裂废水粘度对二氧化锰臭氧催化氧化处理特性的影响

通过FT-IR和GC—MS检测分析，表明了压裂废水中有机物主要以苯环结构为主的芳香类化合物和其他杂环化合物，苯环及杂环上的主要官能团包括酮、酯、羧酸、醛、酚、氨基等。同时，压裂废水中的粘度为常规水粘度的2～3倍。针对压裂废水高粘度和高COD污染水质特征，实验研究了压裂废水二氧化锰臭氧催化氧化处理特性以及粘度对处理效果的影响，研究结果表明，在粘度较高（2．2×10-3 Pa·s）压裂废水中，投加的化学药剂很难扩散，羟基自由基·OH的利用效率较低，处理效果较差。通过投加过硫酸钾（5g／L）降粘后，可在很大程度上提高二氧化锰臭氧催化氧化的处理效果。通过对压裂废水中有机物分子量分布、FT-IR分析以及GC—MS分析可知，二氧化锰臭氧催化氧化处理压裂废水是通过激发羟基自由基，破坏水中有机物极性和有机物化学构造，将复杂长链有机物转变为简单有机物，其出水COD可达到国家污水综合排放标准中的二级排放标准。     

Fine Particulate Organic Material in the Los Angeles Basin - I: Assessment of the High-Volume Brigham Young University Organic Sampling System,BIG BOSS

ABSTRACT

A multi-system, high-volume, parallel plate diffusion dénuder Brigham Young University Organic Sampling System (BIG BOSS) was tested using collocated samplers at the Pico Rivera Monitoring Station of the South Coast Air Quality Management District, South Coast Air Basin, in September 1994. Six-hr daytime and 9-hr nighttime samples were collected with a flow of about 200 L/min through each of the three systems designed to collect particles smaller than 2.5, 0.8, and 0.4 mm in a diffusion denuder sampler. Efficiency for the removal of gas phase organic compounds by the diffusion denuder was evaluated using both theoretical predictions and field measurements. Both measured and calculated data indicate high denuder efficiency for the removal of gas phase aromatic and paraffinic compounds. The precision of the BIG BOSS was evaluated using collocated samplers. The precision of determination of total carbon and elemental carbon retained by a quartz filter or of semi-volatile carbonaceous material lost from particles during sampling averaged ±7%. The precision of determination of individual organic compounds averaged ±10%. An average of 42 and 62% of the particulate organic material was semi-volatile organic compounds (SVOCs) lost from particles during sampling for daytime and nighttime samples, respectively. This “negative” sampling artifact was an order of magnitude larger than the “positive” quartz filter artifact due to adsorption of gas phase organic material. Daytime concentrations of fine particulate elemental carbon and nonvolatile organic carbon were higher than nighttime concentrations, but nighttime fine particles contained more semi-volatile organic material than daytime.     

两相分配式生物反应器处理高盐废水中的苯酚

采用新型两相分配式生物反应器(TPPB)和前期研究得到的高效苯酚降解菌对高盐废水中苯酚的降解进行研究,研究中确定煤油为反应系统的最佳有机溶剂,并考察了废水苯酚含量、废水盐度以及搅拌器搅拌速度对苯酚降解的影响。结果表明,反应系统能正常降解苯酚含量为1 000～2 500 mg/L的高盐苯酚废水;反应系统在含盐量为100 g NaCl/L、搅拌速度为50 r/min的运行工况条件下,降解时间缩短为52 h,总酚去除率为20.58 mg/(L.h)。     

Determination of acibenzolar-S-methyl and its acidic metabolite in soils by HPLC-diode array detection

A simple and accurate method for the analysis of acibenzolar-S-methyl (benzo[1,2,3]thiadiazole-7-carbothioic acid-S-methyl ester; CGA 245 704; ASM) and its major conversion product, benzo[1,2,3]thiadiazole-7-carboxylic acid (CGA 210 007; BTC), in soils is presented. ASM extraction from soil samples was performed using acetonitrile and BTC was extracted with a mixture of potassium phosphate buffer (0.5 M, pH 3) and acetonitrile (70:30 %, v/v). Both extracts were directly analyzed in a high-performance liquid chromatography-diode array detection (HPLC-DAD) system. Pesticide separation was achieved on a C18 (4.6 mm × 150 mm, 5 μm) analytical column with a isocratic elution of acetonitrile:water 40:60 % (v/v) with 0.6 mL L?1 acetic acid at a flow rate of 1 mL min?1. Linear regression coefficients (r (2)) of the external calibration curves were always above 0.9997. The limits of detection (LOD) and quantification (LOQ) of the method were 0.005 and 0.02 mg kg?1 for ASM, and 0.01 and 0.05 mg kg?1 for BTC, respectively. Recoveries were investigated at six fortification levels and were in the range of 90-120 % for ASM and 74-96 % for BTC with relative standard deviations (RSDs) below 11 % in all cases. The method was also validated by analyzing freshly spiked soil samples with 2.7% organic matter content at 0.5 mg kg?1 level, with slightly lower recovery values only for ASM. Moreover, recoveries for intermediate aged residues of the analytes were similar to fresh residues. This method was also applied to determine ASM half-life (t(?) = 8.7 h) and the rate of the acidic metabolite formation.