汽车零配件涂装过程VOCs排放特征与案例分析

VOCs（挥发性有机物）现已被列为我国大气环境领域的核心污染物.随着汽车零配件制造行业减排要求的提出,于2018年6月选取典型汽车零配件制造企业,采用美国TO-15方法分析VOCs物种,采用FID（氢离子火焰检测器）对NMHC（非甲烷总烃）进行实测,分析汽车零配件涂装过程的VOCs排放特征.结果表明:①由于分析方式的不同,有组织排放的ρ（NMHC）比ρ（VOCs）高1.3~1.9倍,其中末端未安装VOCs处理设施的排气筒排放的ρ（NMHC）最高.②汽车零配件涂装过程排放的主要VOCs物种质量浓度占比范围分别为46.72%~98.33%（芳香烃）、1.20%~52.90%（含氧VOCs）,其中ρ（二甲苯）、ρ（苯系物）超标（DB 31/933—2015《大气污染物综合排放标准》）情况较为严重.③未进入VOCs处理装置前的VOCs物种组成与原辅料中VOCs物种组成一致,二者主要VOCs物种的质量分数大致相同,说明生产工艺的不同对VOCs的排放组成影响较小.④比较RTO（蓄热式热力燃烧装置）和活性炭吸附装置处理VOCs前、后废气组成的差异发现,活性炭吸附装置处理对VOCs排放的组成基本无影响,经RTO处理后排放物种以芳香烃和含氧VOCs为主,但是w（芳香烃）和w（含氧VOCs）变化不一致,说明RTO对芳香烃和含氧VOCs处理效率不同.研究显示,为满足国家对汽车零配件制造行业VOCs的减排要求,源头使用高固分涂料或水性涂料替代溶剂型涂料,优化过程收集系统,增强末端处理技术的净化效果、安全性和稳定性,是实现汽车零配件制造行业全过程减排的重要手段.      

河流线型对河流自净能力的影响

为研究河流线型对河流自净能力的影响,选取5条具有不同河流线型的河涌进行研究,以弯曲度和分形维数表征河流线型,以TP、NH 3-N、NO 2-N、NO 3-N、COD Cr、TOC、DOC、叶绿素(Chlorophyll)和蓝绿藻藻蓝蛋白(BGA-PC)等9项水质指标沿程削减率表征河流自净能力,并分析各研究河段的悬浮微生物生物量和生物活性,探讨河流线型影响河流自净能力的作用机制。结果表明:多项水质指标沿程削减率随河流线型蜿蜒程度的增加而提升。在直立式浆砌石挡墙河段,河流线型通过提高悬浮微生物生物活性,进而增强河流自净能力,使TP、NH 3-N、NO 3-N、DOC、Chlorophyll和BGA-PC的沿程削减率显著提升;而在格宾石笼挡墙河段,河流线型通过增加悬浮生物生物量和提高生物活性,进而增强河流自净能力,使NO 2-N、COD Cr、TOC和DOC的沿程削减率显著提高。     

宁波月湖的水质改善与生态修复

随着浙江"五水共治"工作的深化,宁波作为浙江"五水共治"的中坚力量,始终把"五水共治"作为全市工作的首要任务和突破重点。自1999年进行清淤后,月湖水质得到短期改善,然而治标不治本的治理措施,并没有让月湖水质得到根本改善。因此,对月湖进行科学有效的生态修复,针对性地处理水污染问题,使之重新焕发活力具有十分重要的意义。     

Anoxic phosphorus removal in a pilot scale anaerobic-anoxic oxidation ditch process

The anaerobic-anoxic oxidation ditch (A²/O OD) process is popularly used to eliminate nutrients from domestic wastewater. In order to identify the existence of denitrifying phosphorus removing bacteria (DPB), evaluate the contribution of DPB to biological nutrient removal, and enhance the denitrifying phosphorus removal in the A²/O OD process, a pilot-scale A²/O OD plant (375 L) was conducted. At the same time batch tests using sequence batch reactors (12 L and 4 L) were operated to reveal the significance of anoxic phosphorus removal. The results indicated that: The average removal efficiency of COD, NH₄⁺, PO₄³⁻, and TN were 88.2%, 92.6%, 87.8%, and 73.1%, respectively, when the steady state of the pilotscale A²/O OD plant was reached during 31–73 d, demonstrating a good denitrifying phosphorus removal performance. Phosphorus uptake took place in the anoxic zone by poly-phosphorus accumulating organisms NO₂⁻ could be used as electron receptors in denitrifying phosphorus removal, and the phosphorus uptake rate with NO₂⁻ as the electron receptor was higher than that with NO₃⁻ when the initial concentration of either NO₂⁻ or NO₃⁻ was 40 mg/L.     

Dry deposition velocity of total suspended particles and meteorological influence in four locations in Guangzhou, China

Dry deposition velocity of total suspended particles (TSP) is an effective parameter that describes the speed of atmospheric particulate matter deposit to the natural surface. It is also an important indicator to the capacity of atmosphere self-depuration. However, the spatial and temporal variations in dry deposition velocity of TSP at different urban landscapes and the relationship between dry deposition velocity and the meteorological parameters are subject to large uncertainties. We concurrently investigated this relationship at four different landscapes of Guangzhou, from October to December of 2009. The result of the average dry deposition velocity is (1.49 ± 0.77), (1.44 ± 0.77), (1.13 ± 0.53) and (1.82 ± 0.82) cm/sec for urban commercial landscape, urban forest landscape, urban residential landscape and country landscape, respectively. This spatial variation can be explained by the difference of both particle size composition of TSP and meteorological parameters of sampling sites. Dry deposition velocity of TSP has a positive correlation with wind speed, and a negative correlation with temperature and relative humidity. Wind speed is the strongest factor that affects the magnitude of TSP dry deposition velocity, and the temperature is another considerable strong meteorological factor.We also find out that the relative humidity brings less impact, especially during the dry season. It is thus implied that the current global warming and urban heat island effect may lead to correlative changes in TSP dry deposition velocity, especially in the urban areas.     

浑河沈阳段生态健康评价指标体系的研究

健康的河流生态系统已经成为公认的河流管理目标,采用河流生态系统健康理论来研究城市河流具有较强的理论和现实意义.本文以浑河沈阳段为例,将根据整体性原则、层次性原则、可操作性原则和定性与定量结合的原则,参考国内外河流生态系统健康评价的指标体系,结合浑河具体情况对河流生态系统健康的评价指标体系进行了探讨。     

DBD降解CF2ClBr过程中自由基与电子能量

利用介质阻挡放电方法对环境污染物ＣＦ₂ＣｌＢｒ进行了等离子体降解的研究．在前人对该体系的降解产物分析及活性粒子推测的基础上,采用动态反应装置得到了等离子体的发射光谱,进一步确证了等离子体系中出现的ＣＦ₂、ＣＦＣｌ、Ｆ、Ｃｌ、Ｂｒ等主要自由基,并从中推出了等离子态气体可能发生的自由基反应．同时通过发射光谱的分析,近似得到该体系的平均电子能量约为２．４２ｅＶ     

复合菌种协同发酵酒糟生产饲料蛋白研究

以笔者选育的８５０３和８５０５复合菌种为试验菌,以白酒糟为原料,经最适试验,确定最优条件为：培养温度３０．０℃,初始ＰＨ５．５,（ＮＨ４）２ＳＯ４添加量为５ｍｇ／ｍｌ,投料量１０％,接种量５－１０％,发酵期限５ｄ,在最适条件试验的基础上,进行了５Ｌ发酵罐试验,发酵产物粗蛋白质含量由２３．７５％提高到３５．７５％,提高了１１．００％,其中真蛋白质提高１０．３４％,粗纤维降低了２．０５％,氨基酸总量由     

Effects of salinity on soil bacterial and archaeal community in estuarine wetlands and its implications for carbon sequestration: verification in the Yellow River Delta

Soils from two typical tidal salt marshes with varied salinity in the Yellow River Delta wetland were analysed to determine possible effects of salinity on soil carbon sequestration through changes in soil microbiology. The mean soil respiration (SR) of the salt water–fresh water mixing zone (MZ) was 2.89 times higher than that of the coastal zone (CZ) (4.73 and 1.63?μmol?m^?2?s^?1, respectively, p?Pseudomonas sp. and Limnobacter sp. that might have led to its higher dehydrogenase activity and respiratory rates. Additionally, the CZ possessed more Halobacteria and Thaumarchaeota with the ability to fix CO₂ than the MZ. Significantly lower soil salinity in MZ (4.25?g?kg^?1) was suitable for β-Proteobacteria, but detrimental for Halobacteria compared with CZ (7.09?g?kg^?1, p?相似文献   

A real-time,dynamic early-warning model based on uncertainty analysis and risk assessment for sudden water pollution accidents

A real-time, dynamic, early-warning model (EP-risk model) is proposed to cope with sudden water quality pollution accidents affecting downstream areas with raw-water intakes (denoted as EPs). The EP-risk model outputs the risk level of water pollution at the EP by calculating the likelihood of pollution and evaluating the impact of pollution. A generalized form of the EP-risk model for river pollution accidents based on Monte Carlo simulation, the analytic hierarchy process (AHP) method, and the risk matrix method is proposed. The likelihood of water pollution at the EP is calculated by the Monte Carlo method, which is used for uncertainty analysis of pollutants’ transport in rivers. The impact of water pollution at the EP is evaluated by expert knowledge and the results of Monte Carlo simulation based on the analytic hierarchy process. The final risk level of water pollution at the EP is determined by the risk matrix method. A case study of the proposed method is illustrated with a phenol spill accident in China.