典型工业恶臭源恶臭排放特征研究

恶臭污染具有主观性和复杂性特点,结合使用仪器分析和嗅觉方法,可以从成分和感官两方面充分反映恶臭污染特征.本文参考USEPA TO14A和GB/T 14675-93方法,选择天津滨海新区内的6个不同类型的工业恶臭源,包括制药、喷漆、炼油、石化、树脂合成和橡胶,采集了各类源工艺流程中通过有组织方式排放的恶臭废气,测定了废气的感官臭气浓度并定量分析了其中的恶臭VOCs物质.使用臭气浓度、恶臭指数及统计学方法进行研究,结果发现,炼油源和制胶源的废气具有非常严重的感官刺激性.甲硫醇等硫化物是炼油源和制胶源的主要特征恶臭物质;苯乙烯和甲苯分别是合成树脂源和喷涂源的特征恶臭组分;对苯二甲酸(PTA)源和制药源属于混合型恶臭源.甲苯是喷漆源和制药源的标识组分;二硫化碳是制胶源的标识组分;间,对-二甲苯可以用来标识石化PTA污染源;炼油源的标识组分为三氯乙烯、氯乙烷和1,2-二溴乙烷;苯乙烯是合成树脂源的标识组分.     

典型酿造业厂界无组织排放VOCs污染特征与风险评价

为探明酿造企业厂界无组织排放VOCs的浓度特征、恶臭污染及健康风险,采用便携式气相色谱-质谱仪对典型酿造企业醋厂和酒厂厂界无组织排放VOCs进行监测,分析研究其VOCs的浓度水平和组成特征,采用阈稀释倍数和感官测定法对VOCs进行恶臭分析,并进行了健康风险评价.结果表明,醋厂和酒厂厂界无组织排放VOCs的总浓度分别为0.968 mg·m~(-3)和0.293 mg·m~(-3).醋厂排放的VOCs中乙酸乙酯和乙酸含量较高,分别占总VOCs的76.3%和13.5%.酒厂排放的VOCs中以乙醇和己酸乙酯为主,分别占总VOCs的56.3%和30.4%.含氧VOCs是酿造企业污染源排放的主要组分.两厂总恶臭指数均大于1,表明其无组织VOCs排放对大气环境存在恶臭污染,且其臭气浓度均超过恶臭污染物厂界标准限值.醋厂和酒厂VOCs致癌风险指数分别为2.45×10~(-6)和5.25×10~(-6),超过了EPA致癌风险值(1.0×10~(-6)),但未超过OSHA致癌风险值(1.0×10~(-3))_及ICRP最大可接受的风险值(5.0×10~(-5)).     

天津滨海新区工业源VOCs及恶臭物质排放特征

参考USEPA TO-14A/15方法,选择天津市滨海新区内的6个不同类型的工业源,包括制药、自行车制造、炼油、石化、树脂合成和橡胶,对各类源工艺流程中有组织排放源排放的挥发性有机物(VOCs)进行定量分析,得到了源成分谱;并将各类源排放的恶臭物质浓度与嗅觉阈值进行对比,对其引发恶臭污染的潜在能力做出评价.结果显示,上述各类排放源的生产工艺中的VOCs总浓度分别为16.8,115.3,204.6,225.3,10.9,191.7mg/m3. 根据源成分谱分析结果,制药源和自行车喷漆车间的排气中甲苯比例分别为79.1%和94%;石化企业源中总二甲苯比例超过60%;橡胶企业脱硫工序,排放以硫化物为主;树脂合成工业,主要原料苯乙烯在排气中检出比例达51.8%;炼油源排气成分复杂,以卤代烃和硫化物为主.同时各类工业源均存在一定的恶臭污染,橡胶、炼油源的硫化物污染,树脂合成工业源的苯乙烯污染,石油化工源的混合污染,都应引起足够的重视.     

有机溶剂使用企业挥发性恶臭有机物排放特征及特征物质识别

为研究有机溶剂使用企业挥发性恶臭有机物排放特征以及识别各企业恶臭特征物质,测定了南方某工业区内典型溶剂使用企业挥发性恶臭有机物(VOCs)的排放成分.结果表明,不同企业间物质组成存在一定的差异,同一企业不同工艺流程物质组成也存在一定差异,汽车制造企业:面漆喷涂车间排气筒醇类(21.87%)和酯类(21.62%)是重要的VOCs排放种类;面涂烘干车间芳香烃(41.14%)排放比例最高.电子元件生产企业:喷涂排气筒酯类(67.99%)是重要的VOC排放种类.涂料生产企业:两家涂料企业酯类物质排放比例均是最高,但1号涂料企业芳香烃(24.37%)排放比例较高,2号涂料企业酮类(18.88%)排放比例较高.印刷企业主要是醇类物质(99.32%).制冷设备生产企业:烷烃排放比例最高(83.01%).结合物质浓度和阈稀释倍数,初步识别酯类(乙酸乙酯、乙酸丁酯、乙酸异丁酯)、芳香烃(甲苯、乙苯、苯乙烯)、醇酮类(乙醇、甲基异丁酮、2-丁酮)为有机溶剂使用企业恶臭特征物质.     

北京市安定生活垃圾填埋场VOCs恶臭物质及其臭气强度

挥发性有机物(VOCs)是填埋场重要的恶臭源之一.为了深入了解造成填埋场恶臭的VOCs及其臭气强度情况,在2014年7—8月采用固相微萃取(SPME)-气相色谱(GC)-质谱(MS)联用法测定了北京市安定生活垃圾卫生填埋场内各代表性地点的VOCs.共确认了48种化合物,包括烷烃、烯烃、芳香烃、环烷烃、萜类、酯类、醛酮类、卤代烃、醇类及含硫化合物和含氮化合物.烷烃的种类最多,达到13种,其次是芳香烃,为9种.以内标法和外标法相结合测定了其中35种物质的含量,发现浓度在0.05~40 mg·m~(-3)之间.在厂区入口和作业面浓度最高的VOC是2,2,4,6,6-五甲基庚烷,在沼气干管是甲苯.从实际经验和臭气强度出发,建立了一种恶臭物质筛选方法,即首先以检出频次和各地点浓度比值筛选出可能的恶臭物质,然后由臭气强度确定最终的恶臭物质.筛选结果表明,填埋场内的恶臭VOCs是对伞花烃、对二甲苯、乙苯、甲苯和邻二甲苯,其中对伞花烃和对二甲苯对恶臭贡献尤为显著.这些恶臭VOCs浓度之间呈现出显著的相关关系,表明这些物质均来源于填埋场内生活垃圾的降解过程.     

典型工业无组织源VOCs排放特征

选取制药厂、酿酒厂和橡胶厂分析了不同工艺过程VOCs排放特征.结果表明,制药厂安乃近合成和氨基比林合成的VOCs排放以苯、甲苯和苯乙烯等苯系物为主,乙酰氨基酚合成的VOCs排放主要以C4～C6的烷烃为主,酿酒厂和橡胶厂VOCs排放均以甲苯、乙苯和间,对二甲苯为主.采用最大增量反应活性法对臭氧生成潜势进行分析,制药厂安乃近合成和氨基比林合成VOCs单位臭氧生成潜势以苯、甲苯等苯系物为主;乙酰氨基酚合成以顺-2-丁烯、甲苯和异戊烷为主;酿酒厂、橡胶厂以甲苯、乙苯、间,对二甲苯为主.同时采用阈稀释倍数对VOCs进行恶臭分析,制药厂和酒厂无组织排放VOCs恶臭污染程度较轻,橡胶厂的伸缩装置车间和硫化车间的无组织VOCs排放存在一定程度的恶臭污染.     

沥青铺面材料VOCs排放特征、环境及健康影响分析

为探究沥青铺面材料VOCs排放特征,并开展臭氧生成、二次有机气溶胶生成和健康风险影响评价,在实验室内模拟了沥青VOCs的排放.结果表明:沥青VOCs的组分组成以烷烃和OVOCs为主,正十一烷、正十二烷、乙醛、庚醛为沥青排放VOCs的高排放物质.OVOCs和芳香烃是沥青臭氧生成的主要贡献组分,烷烃和芳香烃是沥青二次有机气溶胶生成的主要贡献组分,沥青VOCs对人体健康存在明显风险,非致癌风险的贡献物质为间二乙苯、1,2,3-三甲基苯、反式-2-乙烯,致癌风险的贡献物质为苯、乙醛、三氯乙烯.     

厨余垃圾堆肥过程中恶臭物质分析

恶臭污染已成为生活垃圾堆肥过程中的主要环境问题.以大类粗分后的厨余垃圾作为研究对象,利用嗅觉测定法和GC-MS分析了不同阶段堆肥尾气的臭气浓度和恶臭化合物的种类及其排放浓度,并对不同堆肥阶段臭气浓度和恶臭物质排放浓度的相关性进行分析.结果表明,厨余垃圾堆肥过程中共检测到43种挥发性有机物,其中含硫臭气物质5种,烃类化合物22种,芳香烃类化合物11种,其它物质5种.通过相关性分析,发现硫化氢、甲硫醇、1,3-二甲基苯和邻二甲苯与臭气浓度极显著相关(P<0.01),二甲二硫和对二甲苯与臭气浓度显著相关(P<0.05),因此在厨余垃圾堆肥过程中要对这6种臭气物质进行重点监测和控制.     

恶臭污染源环境影响评价要点问题探讨

针对城市恶臭发生源的无组织与无组织排放方式及臭气成分复杂且大多属复合臭气成分的特点,重点对恶臭源的监测、组分分析方法以及源强综合评价等关键问题进行了研究和总结。     

汽车制造企业恶臭来源及影响分析

挥发性有机物(VOCs)是工业恶臭的重要来源之一.本文以某汽车制造企业为研究对象,对其产生的恶臭来源及对敏感点居民区的影响进行采样和分析.2016年11月15~17日,分别采用三点比较式臭袋法和大气预浓缩仪-气相色谱(GC)-质谱(MS)联用法对该企业厂区内各个车间的排气筒、厂界和敏感点的臭气浓度和VOCs组分进行定性、定量分析.结果表明,该企业整车厂和发动机厂各个车间排气筒的臭气浓度均未超标,发动机厂厂界的臭气浓度未超标,但整车厂的厂界和敏感点的臭气浓度均超过标准限值.监测共确认54种VOCs物种,包括芳香烃、卤代烃、烷烃、烯烃、环烷烃、酮类、酯类、醚类、醇类、含硫化合物和含氧环化合物.其中,卤代烃种类最多,其次是芳香烃.由此可知,汽车制造恶臭类代表物质主要是卤代烃和芳香烃.根据敏感点居民区特征VOCs物种的质量浓度、检知嗅阈和阈稀释倍数筛选出敏感点居民区的典型恶臭物质为1,3-丁二烯.针对涂装车间所用涂料进行定性分析,结果表明,绝大部分特征VOCs物种均来自涂料成分.恶臭贡献最大的1,3-丁二烯,在排除敏感点居民区周边其他污染源影响的情况下,推断其来源是整车厂涂装车间的喷涂和烘干工艺所产生的.建议企业采用含VOCs组分较低的环保涂料或更高处理效率的RTO净化装置,以减少汽车制造过程对居民区敏感点的恶臭影响.     

Toxic effects of acetochlor, methamidophos and their combination on nifH gene in soil

Toxic effects of two agrochemicals on nifH gene in agricultural black soil were investigated using denaturing gradient gel electrophoresis （DGGE） and sequencing approaches in a microcosm experiment. Changes of soil nifH gene diversity and composition were examined following the application of acetochlor, methamidophos and their combination. Acetochlor reduced the nifH gene diversity （both in gene richness and diversity index values） and caused changes in the nifH gene composition. The effects of acetochlor on nifH gene were strengthened as the concentration of acetochlor increased. Cluster analysis of DGGE banding patterns showed that nifH gene composition which had been affected by low concentration of acetochlor （50 mg/kg） recovered firstly. Methamidophos reduced nifH gene richness that except at 4 weeks. The medium concentration of methamidophos （150 mg/kg） caused the most apparent changes in nifH gene diversity at the first week while the high concentration of methamidophos （250 mg/kg） produced prominent effects on nifH gene diversity in the following weeks. Cluster analysis showed that minimal changes of nifH gene composition were found at 1 week and maximal changes at 4 weeks. Toxic effects of acetochlor and methamidophos combination on nifH gene were also apparent. Different nifH genes （bands） responded differently to the impact of agrochemicals： four individual bands were eliminated by the application of the agrochemicals, five bands became predominant by the stimulation of the agrochemicals, and four bands showed strong resistance to the influence of the agrochemicals. Fifteen prominent bands were partially sequenced, yielding 15 different nifH sequences, which were used for phylogenetic reconstructions. All sequences were affiliated with the alpha- and beta-proteobacteria, showing higher similarity to eight different diazotrophic genera.     

Arsenic uptake by arbuscular mycorrhizal maize （Zea mays L.） grown in an arsenic-contaminated soil with added phosphorus

The effects of arbuscular mycorrhizal (AM) fungus (Glomus mosseae) and phosphorus (P) addition (100 mg/kg soil) on arsenic (As) uptake by maize plants (Zea mays L.) from an As-contaminated soil were examined in a glasshouse experiment.Non-mycorrhizal and zero-P addition controls were included.Plant biomass and concentrations and uptake of As,P,and other nutrients,AM colonization,root lengths,and hyphal length densities were determined.The results indicated that addition of P significantly inhibited root colonization and development of extraradical mycelium.Root length and dry weight both increased markedly with mycorrhizal colonization under the zero-P treatments,but shoot and root biomass of AM plants was depressed by P application.AM fungal inoculation decreased shoot As concentrations when no P was added,and shoot and root As concentrations of AM plants increased 2.6 and 1.4 times with P addition,respectively.Shoot and root uptake of P,Mn,Cu,and Zn increased,but shoot Fe uptake decreased by 44.6%,with inoculation, when P was added.P addition reduced shoot P,Fe,Mn,Cu,and Zn uptake of AM plants,but increased root Fe and Mn uptake of the nonmycorrhizal ones.AM colonization therefore appeared to enhance plant tolerance to As in low P soil,and have some potential for the phytostabilization of As-contaminated soil,however,P application may introduce additional environmental risk by increasing soil As mobility.     

Potential of plant polyphenol oxidases in the decolorization and removal of textile and non-textile dyes

In this study an effort has been made to use plant polyphenol oxidases; potato （Solanum tuberosum） and brinjal （Solanum melongena）, for the treatment of various important dyes used in textile and other industries. The ammonium sulphate fractionated enzyme preparations were used to treat a number of dyes under various experimental conditions. Majority of the treated dyes were maximally decolorized at pH 3.0. Some of the dyes were quickly decolorized whereas others were marginally decolorized. The initial first hour was sufficient for the maximum decolorization of dyes. The rate of decolorization was quite slow on long treatment of dyes. Enhancement in the dye decolorization was noticed on increasing the concentration of enzymes. The complex mixtures of dyes were treated with both preparations of polyphenol oxidases in the buffers of varying pH values. Potato polyphenol oxidase was significantly more effective in decolorizing the dyes to higher extent as compared to the enzyme obtained from brinjal polyphenol oxidase. Decolorization of dyes and their mixtures, followed by the formation of an insoluble precipitate, which could be easily removed simply by centrifugation.     

Removal of heavy metals from sewage sludge by low costing chemical method and recycling in agriculture

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Single and joint effects of pesticides and mercury on soil urease

The influence of two pesticides including chlorimuron-ethyl and furadan and mercury （Hg） on urease activity in 4 soils （meadow burozem and phaeozem） was investigated. The soils were exposed to various concentrations of the two pesticides and Hg individually and simultaneously. Results showed that there was a close relationship between urease activity and organic matter content in soil. Chlorimuron-ethyl and furadan could both activate urease in the 4 soils. The maximum increment of urease activity by chlorimuronethyl was up to 14%-18%. There was almost an equal increase （up to 13%-21%） in the urease activity by furadan. On the contrary, Hg markedly inhibited soil urease activity. A logarithmic equation was used to describe the relationship （P〈0.05） between the concentration of Hg and the activity of soil urease in the 4 tested soils. Semi-effect dose （ED50） values by the stress of Hg based on the inhibition of soil urease in the 4 soils were 88, 5.5, 24 and 20 mg/kg, respectively, according to the calculation of the corresponding equations. The interactive effect of chlorimuron-ethyl or furadan with metal Hg on soil urease was mainly synergic at the highest tested concentrations.     

Isolation and preliminary characterization of a 3-chlorobenzoate degrading bacteria

A study was conducted to compare the diversity of 2-, 3-, and 4-chlorobenzoate degraders in two pristine soils and one contaminated sewage sludge. These samples contained strikingly different populations of mono-chlorobenzoate degraders. Although fewer cultures were isolated in the uncontaminated soils than contaminated one, the ability of microbial populations to mineralize chlorobenzoate was widespread. The 3- and 4-chlorobenzoate degraders were more diverse than the 2-chlorobenzoate degraders. One of the strains isolated from the sewage sludge was obtained. Based on its phenotype, chemotaxonomic properties and 16S rRNA gene, the organism S-7 was classified as Rhodococcus erythropolis. The strain can grow at temperature from 4 to 37℃. It can utilize several （halo）aromatic compounds. Moreover, strain S-7 can grow and use 3-chlorobenzoate as sole carbon source in a temperatures range of 10-30℃ with stoichiometric release of chloride ions. The psychrotolerant ability was significant for bioremediation in low temperature regions. Catechol and chlorocatechol 1,2-dioxygenase activities were present in cell free extracts of the strain, but no （chloro）catechol 2,3- dioxygenase activities was detected. Spectral conversion assays with extracts from R. erythropolis S-7 showed accumulation of a compound with a similar UV spectrum as chloro-cis,cis-muconate from 3-chlorobenzoate. On the basis of these results, we proposed that S-7 degraded 3-chlorobenzoate through the modified ortho-cleave pathway.     

Organochlorine pesticides in soils under different land usage in the Taihu Lake region, China

A field study was conducted in the Taihu Lake region, China in 2004 to reveal the organochlorine pesticide concentrations in soils after the ban of these substances in the year 1983. Thirteen organochlorine pesticides (OCPs) were analyzed in soils from paddy field, tree land and fallow land. Total organochlorine pesticide residues were higher in agricultural soils than in uncultivated fallow land soils. Among all the pesticides, ΣDDX (DDD, DDE and DDT) had the highest concentration for all the soil samples, ranging from 3.10 ng/g to 166.55 ng/g with a mean value of 57.04 ng/g and followed by ΣHCH, ranging from 0.73 ng/g to 60.97 ng/g with a mean value of 24.06 ng/g. Dieldrin, endrin, HCB and α-endosulfan were also found in soils with less than 15 ng/g. Ratios of p,p'-(DDD DDE)/DDT in soils under three land usages were: paddy field ＞ tree land ＞ fallow land, indicating that land usage inlfuenced the degradation of DDT in soils. Ratios of p,p'-(DDD DDE)/DDT ＞1, showing aged residues of DDTs in soils of the Taihu Lake region. The results were discussed with data from a former study that showed very low actual concentrations of HCH and DDT in soils in the Taihu Lake region, but according to the chemical half-lives and their concentrations in soils in 1980s, the concentration of DDT in soils seemed to be underestimated. In any case our data show that the ban on the use of HCH and DDT resulted in a tremendous reduction of these pesticide residues in soils, but there are still high amounts of pesticide residues in soils, which need more remediation processes.     

Sorption of 1-naphthol by plant cuticular fractions

The contribution of aliphatic-rich plant biopolymer to sorption of hydrophobic organic compounds is significantly important because of their preservation and accumulation in the soil environment,but sorption mechanism is still not fully understood.In this study, sorption of 1-naphthol by plant cuticular fractions was examined to better understand the contributions of respective fraction.Toward this end,cuticular materials were isolated from the fruits of tomato by chemical method.The tomato cuticle sheet consisted of waxes (6.5 wt%),cuticular monomer (69.5 wt%),and polysaccharide (24.0 wt%).Isotherms of l-naphthol to the cuticular fractions were nonlinear (N value (0.82-0.90)) at the whole tested concentration ranges.The KodKow ratios for bulk cuticle (TC1),dewaxed cuticle (TC2),cutin (TC4),and desugared cuticle (TC5) were larger than unity,suggested that tomato bulk cuticle and cutin are much powerful solption medium.Sorption capability of cutin (TC4) was 2.4 times higher than the nonsaponifiable fraction (TC3).The 1-naphthol interactions with tomato cuticular materials were governed by both hydrophobic-type interactions and polar (H-bonding) interactions. Removal of the wax and polysaccharide materials from the bulk tomato cuticle caused a significant increase in the sorption ability of the cuticular material.There was a linear negative trend between K_(oc) values and the amount of polysaccharides or fraction's polarities ((N O)/C);while a linear positive relationship between K_(oc) values and the content of cutin monomer (linear R~2=0.993) was observed for present in the cuticular fractions.Predominant sorbent of the hydrophobic organic compounds (HOCs) in the plant cuticular fraction was the cutin monomer,contributing to 91.7% of the total sorption of tomato bulk cuticle.     

Alterations of organ histopathology and metallolhionein mRNA expression in silver barb, Puntius gonionotus during subchronic cadmium exposure

Common silver barb,Puntius gonionotus,exposed to the nominal concentration of 0.06 mg/L Cd for 60 d,were assessed for histopathological alterations(gills,liver and kidney),metal accumulation,and metallothionein(MT)mRNA expression.Fish exhibited pathological symptoms such as hypertrophy and hyperplasia of primary and secondary gill lamellae,vacuolization in hepatocytes,and prominent tubular and glomerular damage in the kidney.In addition,kidney accumulated the highest content of cadmium,more than gills and liver.Expression of MT mRNA was increased in both liver and kidney of treated fish.Hepatic MT levels remained high after fish were removed to Cd-free water.In contrast,MT expression in kidney was peaked after 28 d of treatment and drastically dropped when fish were removed to Cd-free water.The high concentrations of Cd in hepatic tissues indicated an accumulation site or permanent damage on this tissue.     

Seed selections for crystallization of calcium phosphate for phosphorus recovery

Seed induces and promotes the crystallization of calcium phosphate, and acts as carrier of the recovered phosphorus （P）. In order to select suitable seed for P recovery from wastewater, three seeds including Apatite （AP）, Juraperle （JP） and phosphate-modified Juraperle （M-JP） were tested and compared. Batch and fixed-bed column experiments of seeded crystallization of calcium phosphate were undertaken by using synthetic wastewater with 10 mg/L P phosphate. It shows that AP has bad enduring property in the crystallization process, while JP has better performance for multiple uses, and M-JP is a hopeful seed for P recovery by crystallization of calcium phosphate.