Formic acid as an alternative reducing agent for the catalytic nitrate reduction in aqueous media

Formic acid was used for the nitrate reduction as a reductant in the presence of Pd:Cu/γ-alumina catalysts. The surface characteristics of the bimetallic catalyst synthesized by wet impregnation were investigated by SEM, TEM-EDS. The metals were not distributed homogeneously on the surface of catalyst, although the total contents of both metals in particles agreed well with the theoretical values. Formic acid decomposition on the catalyst surface, its influence on solution pH and nitrate removal efficacy was investigated. The best removal of nitrate (50 ppm) was obtained under the condition of 0.75 g/L catalyst with Pd:Cu ratio (4:1) and two fold excess of formic acid. Formic acid decay patterns resembled those of nitrate removal, showing a linear relationship between kf (formic acid decay) and k (nitrate removal). Negligible amount of ammonia was detected, and no nitrite was detected, possibly due to buffering effect of bicarbonate that is in situ produced by the decomposition of formic acid, and due to the sustained release of H2 gas.     

Eutrophication development and its key regulating factors in a water-supply reservoir in North China

Yanghe Reservoir is an important source of drinking water for Qinhuangdao City,North China;however,in recent decades this water source has been eutrophic with recurrent summer cyanobacterial blooms.The trophic grade of the system in summer was mesotrophiceutrophic in 1990 and became hypertrophic in 2011.The nutrient availability is extremely high during the entire year,and the water temperature should be the primary driver of the summer blooms.In May-October of 2010 and 2011,abrupt variations were observed in the Secchi depth(SD) and chlorophyll a(Chl-a),and both the correlated analysis of Chl-a-SD and trophic status indices(TSI) deviation(TSI Chl-a-TSI SD) showed that algal cell density dominated light attenuation.During the algal bloom outbreak,the microcystin concentration was found to vary between 0.35-2.12 μg/L in 2010 and 0.11-1.86 μg/L in 2011.The maximum microcystin content was more than two times the safety limit required for drinking water.Inflow discharges were most concentrated in the summer,with periods of lower residence time and the largest water level fluctuation over the entire year.When a high availability of nutrients promoted a high Chl-a concentration in the whole system,it appeared that the instability caused by the decrease in residence time could not produce effective changes in the cyanobacterial abundance.The results indicated that nutrient enrichment in the aquatic systems of Yanghe Reservoir is the most serious problem and that the status would not been modified effectively by increasing hydrological fluctuations(e.g.,decreasing the residence time).Therefore,decreasing the nutrient concentrations is the only route to improve the water quality of this reservoir.     

化学铁盐辅助除磷对生物除磷的影响研究

化学辅助除磷有助于污水厂实现磷达标,但其对生物系统存在潜在的影响。针对除磷药剂对生物除磷过程的影响展开研究,选用硫酸亚铁进行化学辅助除磷。药剂形成的化学污泥干扰生物除磷过程且成分复杂,故以磷酸铁、氢氧化铁模拟化学污泥,由钾离子、K/P摩尔比计算出同步除磷中的生物除磷,来探讨化学污泥对聚磷菌释磷/吸磷过程的影响。结果表明,连续投加硫酸亚铁使聚磷菌的释磷量、吸磷量降低;系统中磷酸铁含量0.075 mmol/L时聚磷菌的释磷和吸磷能力提高了约25%,磷酸铁含量0.15 mmol/L时对聚磷菌吸磷有抑制作用;氢氧化铁对聚磷菌释磷、好氧初期吸磷均有抑制作用。生物污泥与化学污泥存在交互作用。     

ABR反应器中COD/SO_4~(2-)值和硫酸盐负荷对SO_4~(2-)去除影响

利用厌氧折流板反应器,分别考察了反应器启动,及不同COD/SO42-比值和硫酸盐负荷对模拟废水中SO42-去除的影响。实验在(32±0.1)℃,pH为6.0⁶.5的条件下连续运行。结果表明:ABR经过约90 d的启动驯化阶段后,进水硫酸盐及COD浓度分别为1 500 mg/L和3 000 mg/L,水力停留时间为12 h条件下,硫酸盐去除率达到了92%。固定COD/SO42-比值为2.5时,随着进水SO42-浓度的增加(1 5006.5的条件下连续运行。结果表明:ABR经过约90 d的启动驯化阶段后,进水硫酸盐及COD浓度分别为1 500 mg/L和3 000 mg/L,水力停留时间为12 h条件下,硫酸盐去除率达到了92%。固定COD/SO42-比值为2.5时,随着进水SO42-浓度的增加(1 500³ 500 mg/L),SO42-去除率逐渐下降,最低为60%,相反SO42-去除速率随着硫酸盐浓度的增加而增加,最大为7.98 kg(/m3.d);维持恒定的硫酸盐浓度(1 500 mg/L),逐渐缩短水力停留时间以提高反应器中硫酸盐负荷,SO42-去除率呈现先上升后下降的复杂变化趋势,当水力停留时间为6 h时,SO42-去除率达到最大;随着COD/SO42-比值的提高,硫酸盐去除能力增强,且反应体系对硫酸盐负荷的耐受能力也逐渐增强。     

OMS-2负载Pt催化剂的制备及其催化氧化性能研究

采用前掺杂法、沉积-沉淀法和浸渍法制备了氧化锰八面体分子筛(OMS-2)负载Pt催化剂(Pt/OMS-2),对所制催化剂进行了结构和织构表征。并研究了不同制备方法和沉积-沉淀法中不同制备(Pt负载量和溶液的pH值)对Pt/OMS-2催化氧化CO性能的影响。结果表明,沉积-沉淀法制备的Pt/OMS-2-DP催化剂活性最好(T100=100℃)。这与Pt/OMS-2-DP催化剂中Pt颗粒大小及OMS-2载体与Pt之间存在强相互作用有关。Pt负载量明显影响Pt/OMS-2-DP催化剂的催化活性,3Pt/OMS-2-DP催化剂(Pt=3.0 wt%)催化活性最高,这是由于适当Pt负载量,Pt颗粒较小,并与载体OMS-2的相互作用较强,能较好地活化OMS-2晶格氧。pH值对Pt/OMS-2-DP催化剂催化性能影响较大,这与OMS-2的等电点和Pt在不同溶液中存在不同Pt配位体形式有关。     

船舶大气污染排放的研究进展

船舶是大气污染的重要来源,其排放的NOx占化石燃料源的15%左右,SO2占人为源的4%~9%。国内外从3个方向开展对船舶大气污染的研究:(1)对大气气候影响;(2)源清单计算;(3)排放因子测量。船舶排放的多种污染物可改变空气质量;对大气辐射收支产生直接和间接影响;对海洋大气的成云效应产生影响。船舶源清单主要有2种计算方法:基于燃料消耗的方法,适用于长时间大尺度计算;基于船舶活动情况的方法,适用于高空间分辨率计算。排放因子测量有台架试验和空中烟羽测量2种方法:前者测量结果准确,条件设定自由;后者可行性高,并能提供颗粒物增长转化信息。国内研究尚处于起步阶段,需要建立完整的船舶排放清单,开展排放因子的测试和修正工作。     

城市主干道交通噪声影响因素分析

选取了沈阳市lO条主干道,通过实地调查监测与文献资料分析相结合的方法,分析了主干道交通噪声的影响因素,结果表明,车流量与车型是影响城市主干道交通噪声的重要因素,并提出控制城市主干道交通噪声的防治措施,改善声环境质量。     

顶空／气相色谱-质谱法测定水中四乙基铅

建立了顶空,气相色谱-质谱法测定水中四乙基铅方法。水样中的四乙基铅直接顶空进样,质谱分析。实验结果表明,在0．10-5．00μg几范围内线性关系良好,方法检出限为0．02μg/L,得到了良好的分离效果与较高的灵敏度和精密度。方法简便快捷,能达到《生活饮用水卫生规范》（GB/T5750．8—2006）中规定的要求。     

企业环境管理中政府和企业作用分析

我国的经济发展伴随着日益严重的环境问题。在引起环境问题的诸多因素中,来自企业方面的因素对环境的影响最为深远,因此改善环境首先就需要加强企业的环境管理。在推动企业进行环境管理的各种因素中,既有如政府的管制等外部因素,也有如减少成本、产品差异化等企业自身内部因素。外部因素和内部因素对推动企业环境管理都具有重要作用,但也有其局限性。本文通过政府管制及企业自身因素对驱动企业进行环境管理的作用机制的研究,分析各个驱动因素优缺点,寻求各驱动因素的最佳的组合,促使企业更好地加强环境管理。     

浅析化工园区大气特征因子自动监测综合分析

从总体状况评价、浓度变化特征、疑似源探寻等角度初步分析了某化工园区大气特征因子自动监测数据。分析表明,合理选用不同水平的数据集可以突出大气特征因子的规律性,尤其是疑似源探寻;采用现场检查等手段与自动监测的相互校核十分必要,特别是便携式气相色谱质谱仪对特征因子自动监测系统“假阳性”识别。