京津冀区域PM2.5中碳组分污染特征研究

为了解京津冀区域PM_(2.5)中碳组分污染特征,于2015年7月和10月及2016年1月和4月在北京、天津、保定、石家庄、沧州5个城市同步采集PM_(2.5)样品,采用热/光分析法分析样品中有机碳(OC)和元素碳(EC),使用OC/EC最小比值法估算二次有机碳(SOC).结果表明:京津冀区域主要城市OC、EC和SOC的年均浓度分别为12.9~28.5、4.1~7.9和3.3~10.4μg·m~(-3),OC/EC和SOC/OC的比值分别为2.4~3.0和0.26~0.32.OC和EC的浓度呈现保定石家庄沧州天津北京的空间分布特点和夏季春季秋季冬季的季节变化特点.OC/EC的比值及OC和EC的相关性在夏季最低,冬季最高,这可能与京津冀区域冬季采暖燃煤有关,冬季不利的气象条件也加剧了碳质气溶胶污染.冬季较高的SOC浓度主要与低温、气态前体物的增加以及频繁出现的逆温、小风和混合层高度降低等不利气象条件有关.京津冀区域碳质气溶胶的污染特征具有空间相似性.     

Renewable biofuel production from hydrocracking of soybean biodiesel with a commercial petroleum Ni-W catalyst

As a potential hydrocarbon production method, the hydrocracking of soybean biodiesel, using a commercial petroleum hydrocracking catalyst, was studied. Experiments were carried out in a 1,000 mL, high-pressure autoclave for 2–4 hr over the temperature range of 200–280°C under an initial hydrogen pressure of 10 MPa. Hydrocracking of soybean biodiesel produced n-paraffins in the C₈–C₁₇ boiling range, which includes both green gasoline and diesel. Both pressure and temperature play important roles in the transformation of soybean biodiesel. Hydrocarbons can be formed above 220°C with a liquid yield of 81.76%. The n-alkanes content of the liquid product reached 32.29% at 280°C, with 88.32% C₁₁–C₁₄ selectivity. In addition, hydrocracking results in many changes of catalyst such as physical properties, morphology, etc. For the used catalyst, the concentrations of Ni and C increased, and the pore channels were significantly reduced.     

变压吸附技术分离模拟油田火驱尾气中的CO_2

采用变压吸附技术分离模拟油田火驱尾气(CO_2-N_2-CH_4混合体系)中的CO_2。考察了吸附压力、吸附温度和气体流量对吸附效果的影响。实验结果表明:在吸附温度为25℃、吸附压力为0.6 MPa、气体流量为2 000m L/min、初始CO_2体积分数为13.01%的条件下,CO_2的穿透吸附量为60.34 m L/g,CO_2吸附率为78.92%,碳分子筛对CO_2的分离因子为8.233;在床层利用率为0.523的条件下进行降压解吸,当吸附压力降至0.1 MPa时,出口CO_2体积分数约为80%,CO_2的回收率可达96.38%。     

不同污泥浓度对生物沥滤过程的影响

以硫酸亚铁盐作为底物,氧化亚铁硫杆菌（Thiobacillus ferrooxidans）为主要沥滤微生物,在底物投配比为10 g/L,温度为25℃,曝气量为1 L/min的条件下,对5种不同浓度的桂林城市污泥中重金属进行生物沥滤试验。结果表明,生物沥滤的污泥浓度宜控制在25.6 g/L,沥滤3 d后,污泥中超标元素Cu、Zn和Cd的去除率分别达到58.17%、75.90%和93.64%,沥滤处理后污泥中残余重金属含量符合污泥农用的国家标准。     

气候变化对青藏高原腹地可持续发展的影响

受全球变暖影响，青藏高原气候呈现出暖干化趋势。气温升高，降水量减少对高原腹地植被生长具有消极意义，导致该区牧草质量和数量的下降。人口和牲畜数量的增加，更加重了资源环境与经济（牧业经济）发展的对立。本文对受气候和人为因素共同作用下，青藏高原腹地高寒草地逆行演替的原因及方式进行了分析。在些基础上，对气候暖干化模式下可持续的利用高寒草地资源提出了建议。     

人外周血淋巴细胞彗星试验检测饮用水水质毒性研究

应用人外周血淋巴细胞彗星试验对无锡充山水厂、中桥水厂,常州西石桥水厂进出水及金坛市拟用水源地长荡湖湖心水样的生物毒性进行了研究．结果表明,各水样的有机浓集物均可对人外周血淋巴细胞DNA产生不同程度的损伤,存在一定的遗传毒性．试验结果与各水样水质污染状况基本一致．同时,季节变化以及常规水处理过程对水样的生物毒性也有影响．研究表明,彗星试验可有效地用于检测饮用水质有机浓集物遗传毒性．     

某高含硫气田地面工程职业病危害防护设施效果评价

为了解高含硫气田地面工程职业病危害因素及防护设施的效果,文章采用职业卫生学调查、职业卫生检测和职业健康监护相结合的综合分析与评价方法,对某高含硫气田地面工程试运行期间的职业病危害防护设施效果进行评价。结果表明:项目运行过程中存在的主要职业病危害因素有硫化氢、一氧化碳、氮氧化物、二氧化硫、硫磺粉尘、噪声等12种,除锅炉、空气氮气站岗位噪声强度超过职业接触限值外,其余均符合国家职业卫生标准,职业健康检查无职业禁忌证及职业病,表明该项目的职业病危害防护设施设计合理,防护有效。     

双叔胺缔合相变-两步反萃法处理萘磺酸系废液

用双步胺缔合相变-两步反革法处理茶磺酸系废液，以自制的2，4-二（N，N-二丁基）氨基十二烷基苯（HG-1）作相变试剂，考察了缔合相变法和两步反萃法的处理效果。实验结果表明：在萘磺酸系废液pH小于等于2的条件下，与三辛胺相比，用HG-1处理萘磺酸系废液可将循环处理次数减少2～3次，循环处理效率提高40%-60%，萃取罐的容积利用率可提高40%。G盐废液、NH2-J酸废液、T酸母液及脱硝废液的COD去除率分别可达99.40%,96.73%,97.77%,99.20%；在氨水加入量为20mL条件下，两步反萃法可从NH2-J酸废液中分出14mL无机盐水相，并可得到7g硫酸铵，分出无机盐水相后的萘磺酸浓缩液体体积比传统的一步反萃法减小了44%。     

磁铁锆改性牡蛎壳对水体磷的控释行为研究

通过磁化和添加溶解性锆盐,制成一种磁铁锆改性牡蛎壳粉材料,对其性质及除磷效果进行研究.结果表明,经磁铁锆改性,牡蛎壳具备磁性且比表面积和孔隙度均得到了显著提升,磷吸附量由4.5 mg·g^-1提高到了46.5 mg·g^-1,同时通过外加磁场可成功实现改性牡蛎壳粉的回收,而吸附动力学研究则证明整个磷吸附过程包括快速吸附和平衡吸附两个阶段.另外,改性牡蛎壳粉末对于水体中磷的吸附主要以溶解性磷酸盐（SRP）为主,相较于底泥间隙水,改性牡蛎壳粉对底泥上覆水的释磷行为具有更好的抑制效果,同时该材料还会促进底泥磷形态中易释放的铁结合态磷（Fe-P）向难释放的闭蓄态磷（Oc-P）转化,并降低易释放交换态磷（Ex-P）的含量.上述结果说明磁铁锆改性牡蛎壳适合作为一种高效除磷吸附剂用于控制富营养化水体中磷过量现象.     

Determination of bromate and chlorinated haloacetic acids in bottled drinking water with chromatographic methods

Disinfection by-products of interest such as bromate, chlorate and chlorinated haloacetic acids in 10 representative brands of bottled drinking water were investigated with ion chromatography. With the developed method, the detection limits of the disinfection by-products were in sub-microgl(-1) level. It was observed that bromate, chlorate and dichloroacetic acid could be detected in some water samples. In the bottled natural water, the concentrations for the three compounds were 0.1, 0.9 and 0.6 microgl(-1), respectively. The total concentration of disinfection by-products in the natural water sample was the highest among all the bottled drinking waters. The concentrations for the sum of disinfection by-products in the four types of bottled drinking water investigated were natural water > mineral water > spring water > purified water. The generation of disinfection by-products was much influenced by the original components and process procedure of the source water. The concentrations of bromate and chlorate in the bottled water samples hardly degraded with the increasing storage time. For dichloroacetic acid, with the prolonging of storage time, the concentration was much decreased.