2013-2017年京津冀区域PM2.5浓度变化特征

利用2013-2017年京津冀区域13个城市PM_2.5监测数据，综合探讨了该区域PM_2.5浓度的时空变化特征。结果表明：京津冀区域PM_2.5污染整体较重，但治理成效显著，2013-2017年区域PM_2.5年均质量浓度分别为106、93、77、71、64 μg/m³，完成《大气污染防治行动计划》PM_2.5浓度下降25%左右的目标；13个城市PM_2.5浓度各百分位数总体呈现下降趋势，且随百分位数增大而下降速率加大，PM_2.5年均质量浓度平均每年下降10.6 μg/m³，污染严重的太行山沿线城市邢台、石家庄、邯郸3个城市平均每年分别下降20.3、16.1、13.9 μg/m³；京津冀区域PM_2.5重度污染天数比例分别为19.9%、16.6%、9.5%、9.0%、7.0%，呈下降趋势。2013-2017年京津冀区域PM_2.5平均质量浓度与非重度污染天相比升高19 μg/m³，PM_2.5重度污染天平均质量浓度较非重度污染天时高244.4%。     

一种基于蚯蚓学习行为的神经毒性实验方法研究

土壤生物的学习行为是一种综合性的神经高级活动,对土壤中的神经毒性污染物生态风险监测具有重要价值.本研究设计了一套试验装置,基于蚯蚓对白光刺激的厌恶本性,通过振动-白光配对刺激,对蚯蚓进行学习训练,使蚯蚓领会借助加速移动阻止白光刺激的策略,通过蚯蚓到达移动位移阈值的时间测定,对蚯蚓的学习行为进行测试,建立了蚯蚓的学习行为测试方法.采用建立的测试方法,对土壤中东莨菪碱和毒死蜱诱导下蚯蚓的学习行为进行了测试,结果表明,1～3 mg·kg-1东莨菪碱与4～12 mg·kg-1毒死蜱污染处理均对蚯蚓的学习能力造成了损伤,污染浓度越高,蚯蚓的学习能力损伤越严重.该测试方法可以快速有效地检测土壤污染导致的蚯蚓学习行为变化,有望用于低浓度神经毒性农药污染土壤的神经毒性快速诊断.     

一起塔式起重机冲顶事故的技术分析

某桥梁施工企业在对桥面施工时,塔式起重机空载起升发生冲顶事故,起升钢丝绳断裂,造成吊钩装置坠落砸死1人伤害事故.本文介绍了事故情况、事故勘查要点和模拟试验及相关计算方法,分析事故技术原因,提出预防事故的建议.     

Biogenic palladium prepared by activated sludge microbes for the hexavalent chromium catalytic reduction: Impact of relative biomass

• Pd nanoparticles could be reduced and supported by activated sludge microbes. • The effect of biomass on Pd adsorption by microbes is greater than Pd reduction. • More biomass reduces Pd particle size, which is more dispersed on the cell surface. • When the biomass/Pd add to 6, the catalytic reduction rate of Cr(VI) reaches stable. Palladium, a kind of platinum group metal, owns catalytic capacity for a variety of hydrogenations. In this study, Pd nanoparticles (PdNPs) were generated through enzymatic recovery by microbes of activated sludge at various biomass/Pd, and further used for the Cr(VI) reduction. The results show that biomass had a strong adsorption capacity for Pd(II), which was 17.25 mg Pd/g sludge. The XRD and TEM-EDX results confirmed the existence of PdNPs associated with microbes (bio-Pd). The increase of biomass had little effect on the reduction rate of Pd(II), but it could cause decreasing particle size and shifting location of Pd(0) with the better dispersion degree on the cell surface. In the Cr(VI) reduction experiments, Cr(VI) was first adsorbed on bio-Pd with hydrogen and then reduced using active hydrogen as electron donor. Biomass improved the catalytic activity of PdNPs. When the biomass/Pd (w/w) ratio increased to six or higher, Cr(VI) reduction achieved maximum rate that 50 mg/L of Cr(VI) could be rapidly reduced in one minute.     

Locally enhanced electric field treatment (LEEFT) for water disinfection

• Nanowire-assisted LEEFT is applied for water disinfection with low voltages. • LEEFT inactivates bacteria by disrupting cell membrane through electroporation. • Multiple electrodes and device configurations have been developed for LEEFT. • The LEEFT is low-cost, highly efficient, and produces no DBPs. • The LEEFT can potentially be applicable for water disinfection at all scales. Water disinfection is a critical step in water and wastewater treatment. The most widely used chlorination suffers from the formation of carcinogenic disinfection by-products (DBPs) while alternative methods (e.g., UV, O₃, and membrane filtration) are limited by microbial regrowth, no residual disinfectant, and high operation cost. Here, a nanowire-enabled disinfection method, locally enhanced electric field treatment (LEEFT), is introduced with advantages of no chemical addition, no DBP formation, low energy consumption, and efficient microbial inactivation. Attributed to the lightning rod effect, the electric field near the tip area of the nanowires on the electrode is significantly enhanced to inactivate microbes, even though a small external voltage (usually<5 V) is applied. In this review, after emphasizing the significance of water disinfection, the theory of the LEEFT is explained. Subsequently, the recent development of the LEEFT technology on electrode materials and device configurations are summarized. The disinfection performance is analyzed, with respect to the operating parameters, universality against different microorganisms, electrode durability, and energy consumption. The studies on the inactivation mechanisms during the LEEFT are also reviewed. Lastly, the challenges and future research of LEEFT disinfection are discussed.     

江苏里下河腹部地区农村水污染防治的问题和对策

为策应江苏省生态建设和农村环境质量的改善,及早实现环境保护参与农村农业社会经济发展综合决策和提升环保管理水平的目标,本文着重对江苏里下河腹部地区水环境状况进行了调查与分析,揭示出乡镇企业、农业面源、水产畜禽养殖、生活污水和废弃污染物排放,造成水环境污染以及对社会、经济、环境建设与发展的影响,有较强的真实性、针对性和代表性。首次研究了改善江苏里下河腹部地区农村水污染防治的对策和措施,不仅为里下河地区＂十二五＂期间水环境污染防治与管理提供依据还为江苏省乃至全国低洼水域的农村污染物控制和管理起到启示。     

丁二烯缓冲罐自聚物的生成原因及防范措施

分析了ABS树脂生产装置丁二烯缓冲罐中丁二烯自聚物的生成原因,提出了预防措施,避免丁二烯自聚物的生成,保证装置的安全平稳运行。     

智能化系统在自燃温度测试中的设计和应用

为降低液体自燃温度测试过程中的操作危险,准确判定自燃现象发生及温度,减少繁琐的手工操作,参照ASTME659—78（2005）、GB/T21791-2008及GB／T21860-2008标准,设计了一套智能自燃温度测试系统。采用操作微机软件控制炉体升降温、自动进样泵进样、温度采集、自燃现象拍摄、尾气抽滤等过程,实现自燃温度测试从开始进样到吹扫尾气全流程的自动化;利用设计系统测试乙醇、丙酮等5种常见物质的自燃温度,测试结果与文献值的相对标准偏差不超过2．0％。结果表明所设计系统操作方便快捷、安全实用、结果准确。     

燃煤、燃气锅炉综合效益模糊评价及分析结果——以乌鲁木齐市集中供热锅炉为例

以乌鲁木齐市某集中供热站锅炉节能减排方案为例,通过建立供热锅炉实施方案综合评价指标体系,运用层次分析法确定方案各项指标权重,利用模糊综合评判法分别从锅炉燃煤、燃气情况下的环境效益、经济效益以及设施能耗、物耗等指标着手,进行综合评价,并对集中供热锅炉燃煤与燃气方案综合评判结果进行分析,最终评选出较优实施方案。评选结果表明:燃气方案综合效益较好,可有效实现节能减排,为今后燃气锅炉建设提供一定的参考作用。     

行业快速发展条件下污水处理公司的科学发展及应对

文章深入地分析了污水处理行业快速发展的现状和要求,以职能清晰、岗位设置高效为原则,搭建了污水处理公司科学发展的组织架构,同时提出了污水处理公司科学发展的技术保障和应对行业发展的措施。