三氯甲烷中有机磷农药混合标准样品的研制

确立了三氯甲烷中有机磷农药混合标准样品的制备、分析和定值方法,进行了标准样品的均匀性检验、稳定性监测及协作定值数据的不确定度评价。结果表明,三氯甲烷中有机磷农药混合标准样品的均匀性良好,至少在18个月的时间内稳定。     

分光光度法测定水中十六烷基三甲基溴化铵

基于甲基橙(MO)在水体中和阳离子表面活性剂发生的褪色反应,采用分光光度法测定十六烷基三甲基溴化铵(CTAB),优化了试验条件,讨论了干扰物质的影响。MO与CTAB在10%乙醇-水溶液中反应形成淡黄色离子缔合物,以MO的最大吸收波长470 nm为测定波长,CTAB质量浓度在0 mg/L～13.1 mg/L范围内遵守朗伯-比尔定律,吸光系数为17.48 L/(g.cm),方法检出限为0.364 mg/L,标准溶液平行测定的RSD为2.3%,样品加标回收率为91.8%～107%。     

Ciprofloxacin-sensitive and ciprofloxacin-resistant Campylobacter jejuni are equally susceptible to natural orange oil-based antimicrobials

A total of 10 ciprofloxacin-sensitive (ciprofloxacin minimum inhibitory concentration, MIC < 0.5 μ g/ml) and 10 ciprofloxacin-resistant (MIC 16 to 32 μ g/ml) presumptive C. jejuni were further characterized and evaluated for their inhibition by natural orange oil fractions. Partial species identification was performed by using a hippuricase gene-based polymerase chain reaction (PCR) assay. One of the isolates appeared to be atypical and failed to hydrolyze hippurate. Of the ciprofloxacin-resistant C. jejuni isolates tested, six were found to have their quinolone resistance determined by a C → T mutation in codon 86 of gyrA. Both groups of ciprofloxacin-sensitive and –resistant C. jejuni isolates were most susceptible to cold-pressed terpeneless Valencia orange oil (C4) which yielded inhibition zones from 44.0 ± 1.4 to 80 ± 0.0 mm. Less inhibitory responses were recorded for 5-fold concentrated Valencia orange oil (C3) and distilled d-limonene (C7) which exerted similar effects on both ciprofloxacin-sensitive and –resistant C. jejuni isolates. In general, ciprofloxacin-resistant and –sensitive C. jejuni isolates were equally susceptible to the respective orange oil fractions.     

橘子皮皂化交联改性及其对重金属离子的吸附

以生物废料橘子皮(OP)为原料,经乙醇、NaOH和CaCl2处理,得到皂化交联改性橘子皮(SCOP)生物吸附剂,将其用于对重金属离子Cu2+、pb2+、Cd2+、Zn2+和Ni2+的吸附,并研究了溶液pH、吸附时间和重金属离子初始浓度对SCOP吸附性能的影响.结果表明,重金属离子在改性橘子皮上的吸附速率快,符合准二级动力学方程;改性橘子皮对Cu2+、pb2+、Zn2+和Ni2+的吸附等温线符合Langmuir方程,对Cd2+的吸附等温线符合Freundlich方程,根据Langmuir方程计算对Cu2+、pb2+、Cd2+、Zn2+和Ni2+的饱和吸附量分别为72.73、209.80、85.84、56.18、33.80mg/g,均高于改性前.改性后的橘子皮生物吸附剂可以再生重复使用4次以上,是性能良好的重金属离子吸附剂.     

黄麻纤维活性炭对亚甲基蓝和甲基橙吸附动力学

以黄麻纤维为原料,采用磷酸活化法制备活性炭。研究黄麻纤维活性炭对亚甲基蓝和甲基橙2种染料的吸附行为。结果表明,采用磷酸制备的活性炭,由于表面含有羧基和含磷官能团等酸性基团,能够促进活性炭对亚甲基蓝的吸附;黄麻纤维活性炭对2种染料的平衡吸附量、初始吸附速率均随着初始浓度的增加而升高;相同条件下,黄麻纤维活性炭对亚甲基蓝的平衡吸附量大于甲基橙;黄麻纤维活性炭对两种染料的吸附行为更符合准二级动力学模型。     

Emissions and distribution of methyl bromide in field beds applied at two rates and covered with two types of plastic mulches

A field experiment was conducted to compare two plastic mulches and two application rates on surface emissions and subsurface distribution of methyl bromide (MBr) in field beds in Florida. Within 30 minutes after injection of MBr to 30 cm depth, MBr had diffused upward to soil surface in all beds covered with polyethylene film (PE) or virtually impermeable film (VIF) and applied at a high rate (392 kg/ha) and a low rate (196 kg/ha). Due to the highly permeable nature of PE, within 30 minutes after injection, MBr volatilized from the bed surfaces of the two PE-covered beds into the atmosphere. The amount of volatilization was greater for the high rate-treatment bed. On the other hand, volatilization of MBr from the bed surfaces of the two VIF-covered beds were negligible. Volatilization losses occurred from the edges of all the beds covered with PE or VIF and were greater from the high rate-treatment beds. Initial vertical diffusion of MBr in the subsurface of the beds covered with PE or VIF was mainly upward, as large concentrations of MBr were detected from near bed surfaces to 20 cm depth in these beds 30 minutes after injection and little or no MBr was found at 40 cm depth. The two VIF-covered beds exhibited greater MBr concentrations and longer resident times in the root zone (0.5–40 cm depth) than corresponding PE-covered beds. Concentrations of MBr in the root zone of the high rate-treatment beds were 3.6–6.1 times larger than the low rate-treatment beds during the first days after application. In conclusion, VIF promoted retention of MBr in the root zone and, if volatilization loss from bed edges can be blocked, volatilization loss from VIF-covered beds should be negligible.     

WO3/γ-Bi2MoO6异质结的制备及其光催化性能

采用微波溶剂热法—浸渍法制备了WO₃/γ-Bi₂MoO₆纳米异质结复合可见光催化剂（简称光催化剂）,用XRD、SEM、XPS和UV-Vis分光光度法对其进行了表征。以甲基橙为目标降解物,考察了光催化剂的催化性能。表征结果显示：WO₃分散在γ-Bi₂MoO₆晶体表面,未进入晶格内部;与WO₃和γ-Bi₂MoO₆相比,WO₃/γ-Bi₂MoO₆在紫外和可见光区的吸收强度均有所提高,且对光的吸收发生了明显的红移,禁带宽度变窄;二者形成的p-n型异质结能及时有效地促进光生电子-空穴对的分离,提高催化活性。实验结果表明：WO₃/γ-Bi₂MoO₆的催化活性优于WO₃和γ-Bi₂MoO₆;在甲基橙溶液初始质量浓度为10 mg/L、光催化剂WO₃（1.0%）/γ-Bi₂MoO₆加入量为1 g/L时,反应3 h时甲基橙的降解率最高（达97.48%）,甲基橙溶液中TOC的去除率也最高（为92.0%）。     

铁炭微电解-Fe2+/K2S2O8降解甲基橙

针对偶氮类有机物废水具有色度大,难降解的特点,以对二甲基氨基偶氮苯磺酸钠(甲基橙)为模拟研究对象,对水体系中铁炭微电解-Fe2+/K2S2O8降解甲基橙的方法进行了研究。通过正交实验确定出该方法各因素的影响程度,进一步通过单因素影响实验确定该方法的最佳条件是:铁炭微电解填料、FeSO4和K2S2O8投加量分别为300 g/L、1.3mmol/L和0.7 mmol/L,初始pH值为7.0。在最佳条件下,甲基橙COD和色度去除率分别能达到64.7%和68.2%。     

溴化十六烷基吡啶改性沸石对水中甲基橙的吸附

采用溴化十六烷基吡啶(CPB)对天然沸石进行改性制备得到了CPB改性沸石,通过批量吸附实验考察了CPB改性沸石对水中阴离子染料甲基橙的去除作用。结果表明,天然沸石对水中甲基橙的吸附能力很差,而CPB改性沸石则可以有效吸附去除水中的甲基橙。CPB改性沸石对水中甲基橙的吸附能力随CPB负载量的增加而增加,CPB负载量最大的改性沸石对水中甲基橙的吸附能力最强。双分子层CPB改性沸石对水中甲基橙的去除率随吸附剂投加量的增加而增加,而CPB改性沸石对水中甲基橙的单位吸附量则随吸附剂投加量的增加而降低。双分子层CPB改性沸石对水中甲基橙的吸附平衡数据可以采用Langmuir等温吸附模型加以描述。根据Langmuir模型计算得到的CPB负载量为341 mmol/(kg沸石)的双分子层CPB改性沸石对水中甲基橙的最大吸附容量为63.7 mg/g(303 K和pH 7)。准二级动力学模型适合用于描述双分子层CPB改性沸石对水中甲基橙的吸附动力学过程。pH和反应温度对双分子层CPB改性沸石吸附水中甲基橙的影响较小。以上结果说明,双分子层CPB改性沸石适合作为一种吸附剂用于去除废水中的甲基橙。     

活性炭对天然水体中甲基对硫磷和三氯乙烯的吸附特性研究

采用序批式试验研究了3种粉末活性炭(PAC)对天然水体中甲基对硫磷(MP)和三氯乙烯(TCE)的吸附平衡特性,利用均相表面扩散模型(HSDM)对不同投炭量下的吸附动力学进行拟合与预测,并探讨了天然有机物(NOM)对MP、TCE在PAC上的竞争吸附效应.研究结果表明,天然水体条件下,3种PAC对MP和TCE的吸附符合Langmuir模型和Freundlich模型;MP比TCE更易于被PAC吸附;3种PAC对MP、TCE的吸附能力由大到小依次为YK炭、SL炭和JC炭;HSDM模型可以很好地对吸附动力学进行拟合,并能够有效地预测不同投炭量时的吸附动力学;天然水体中的NOM会与MP和TCE在PAC上发生竞争吸附,NOM对MP的竞争吸附作用相对TCE更为显著.