全程补碳的A~2/O工艺对同步脱氮除磷的影响

为解决A2/O工艺处理低浓度城市生活污水的碳源问题,采用了甲醇、葡萄糖、乙酸分别作为A2/O系统的碳源,结果表明,甲醇作为系统外加碳源最经济、最合适,其中TN、TP去除率分别达到75.81%和76.21%,NO-x-N被去除时间为30 min.研究最大化利用碳源,得到外加碳源甲醇在厌氧/缺氧/好氧区段的投加比例为1∶2∶0、投加量为400 mg·L-1,硝酸盐回流比为250%时,系统运行效果最佳,TN、NH3-N和TP去除率分别为90.56%、96.67%和92.56%,出水浓度分别为12.3 mg·L-1、4.1 mg·L-1和0.45 mg·L-1,达到GB18918—2002一级A类标准.通过一段时间的运行,在缺氧段发生了反硝化吸磷的现象,有利于碳源的节省和系统的高效运行.     

石漠化地区豆科植物根瘤菌降解碳酸钙、镁能力研究

微生物对岩溶地区岩石风化、成土具有明显的促进作用,为了筛选出能够促进碳酸盐岩风化、加快成土速率的优势根瘤菌菌株,将其与豆科植物建立共生体系,进行石漠化地区修复与治理,实验以分离自云南石漠化地区的9株豆科植物根瘤菌为研究对象,将9株根瘤菌接种于加有难溶性碳酸钙或碳酸镁的液体培养液中,28.5℃、160 r·min-1摇床培养15 d,于0、1、3、6、10、15 d取样2 mL,每个样3个平行;将样品加入到10 mL体积比5∶1的硝酸高氯酸消化液中浸泡过夜,放在电热板上缓慢加热至溶液澄清透明,分别用含La3＋2%的盐酸溶液定容至10 mL,空白用同样方法处理;最后采用原子火焰吸收方法测定样品中Ca2＋和Mg2＋含量,筛选出对碳酸盐岩主要成分碳酸钙和碳酸镁具有强降解作用的根瘤菌菌株。结果表明：热带根瘤菌Rhizobium tropici （SWFU09）和根瘤菌Rhizobium sp.（SWFU02）对碳酸钙降解作用最强;对碳酸镁降解作用最好的菌株为根瘤菌Rhizobiumsp.（SWFU03）、热带根瘤菌Rhizobium tropici（SWFU05）和慢生根瘤菌Bradyrhizobium sp.（SWFU01）。溶液pH值对碳酸镁降解作用具重要的影响,对碳酸钙降解作用影响不大,说明根瘤菌代谢产生的酸性物质（有机酸、氨基酸）对碳酸钙和碳酸镁降解作用有一定影响,但不是唯一影响因素;也可能是微生物代谢产生的有机配体（基）吸附碳酸钙和碳酸镁表面,与水体中的成分形成复合物,改变溶解的平衡,置换出Ca2＋和Mg2＋。     

个体防护装备创新研制探析

个体防护装备是保障从业者人身安全的重要保护装备,研制性能优异的保护装备、装具和防护用品,可保障从业人员的作业安全。如何更好的感知危险因素,预防安全事故的发生,实现从业人员快速撤离的主动式个体防护技术及装备将成为研究重点。本文提出主动式个体防护装备的创新研制需立足危险因素及作业人员这两个关键环节,实现危险因素信息与作业人员信息的实时感知、高效互通、快速预警与处置,进而实现个体防护装备从被动防护到主动防护的深刻变革。     

报废CRT中废铅回收的环境效益

为研究报废CRT(阴极射线管)中废铅回收的环境效益,基于治理成本法,从实际治理成本与虚拟治理成本两方面,分别对比研究了废铅单向流动模式与循环利用模式的环境影响. 废铅单向流动模式的环境影响被划分为铅矿开采的污染与生态破坏、粗铅冶炼污染、废铅掺混入建材后的污染,该模式中对废铅的实际治理成本与虚拟治理成本分别为329.20与1 322.56元/t,后者是前者的4倍;在废铅循环利用模式的2种典型工艺中,火法回收工艺对废铅的实际治理成本与虚拟治理成本分别为37.80与3.73元/t,湿法回收工艺的实际治理成本与虚拟治理成本分别为135.10与15.06元/t. 与湿法回收工艺对比,火法回收工艺的治理成本更低、环境效益更好,但其需要在粗铅冶炼阶段中将报废CRT锥玻璃与铅精矿按1∶4(质量比)进行搭配回收. 以典型火法回收与湿法回收工艺治理成本的平均值作为循环利用模式的环境治理成本,与单向流动模式相比,其实际治理成本与虚拟治理成本可分别节省242.75与1 313.16元/t,共节省废铅单向流动模式94.2%的环境治理总成本. 铅矿开采固体废物治理成本、铅矿开采生态破坏治理成本与废铅掺混入建材后产生的地下水污染的治理成本位居前三,三者分别占到了废铅单向流动模式环境治理总成本的47%、19%与17%.      

基于光补偿深度的蠡湖沉水植物恢复区划分

为分析蠡湖沉水植物恢复的光补偿深度和透明度条件,根据2012年4月和2013年4月蠡湖水下PAR(光合有效辐射)强度、ρ(SS)、透明度等监测数据以及沉水植物相关资料,探讨了沉水植物光补偿深度的空间分布特征及其影响因素. 结果表明:水下PAR强度随水深呈指数递减,α(光衰减系数)在0.97~6.04 m-1之间变化;光补偿深度空间分布格局均表现为西蠡湖大于东蠡湖、沿岸大于湖心的趋势,并且与水体透明度呈显著正相关;狐尾藻、金鱼藻、菹草、黑藻、苦草的光补偿深度及水体真光层深度分别是透明度的1.83、1.92、2.05、2.12、2.57和3.04倍. 回归分析表明,光补偿深度主要受ρ(SS)影响,其次为ρ(Chla). 以沉水植物群落光补偿深度(水体真光层深度)与水深的比值作为划分沉水植物群落恢复区域的参考依据,将蠡湖水域初步划分为“适宜区”“过渡区”和“暂不适宜区”,其中“适宜区”占蠡湖水域面积的29%.      

大气中细颗粒物对肺癌细胞A549迁移和侵袭作用的影响

采集大连城区大气中可吸入性细颗粒物(PM_(2.5)),研究其对肺癌A549细胞迁移、黏附和侵袭力的影响,利用明胶酶谱法检测细胞分泌的基质金属蛋白酶活性,利用Western blot法测定A549细胞中转移相关蛋白的表达。结果表明,在无明显细胞毒性浓度下,PM_(2.5)可增加A549细胞的迁移速率;细胞与细胞外基质的黏附率增加;细胞侵袭实验结果表明PM_(2.5)可增加A549细胞穿透基底膜的能力;用明胶酶谱法检测发现PM_(2.5)可使A549细胞分泌的基质金属蛋白酶-2(MMP-2)和基质金属蛋白酶-9(MMP-9)活性增强。转移相关蛋白——细胞钙粘蛋白-N(N-cadherin)的表达量升高,而钙粘蛋白-E(E-cadherin)的表达量下降,实验结果表明,PM_(2.5)可增强A549细胞的侵袭性,大气中的可吸入性颗粒可能导致肺癌转移发生率增加。     

Photolysis and photooxidation of typical gaseous VOCs by UV Irradiation: Removal performance and mechanisms

UV photodegradation of 27 typical VOCs was systematically investigated. Contribution of photolysis and photooxidation to VOCs removal was identified. Gaseous VOC could be partially converted to particles by 185/254 nm UV irradiation. The mineralization and conversion of 27 VOCs by UV irradiation were reported. Photodegradation by ultraviolet irradiation (UV) is increasingly applied in volatile organic compound (VOC) and odor gas treatments. In this study, 27 typical VOCs, including 11 hydrocarbons and 16 hydrocarbon derivatives, at 150–200 ppm in air and nitrogen gas were treated by a laboratory-scale UV reactor with 185/254 nm irradiation to systematically investigate their removal and conversion by UV irradiation. For the tested 27 VOCs, the VOC removal efficiencies in air were within the range of 13%–97% (with an average of 80%) at a retention time of 53 s, which showed a moderate positive correlation with the molecular weight of the VOCs (R = 0.53). The respective contributions of photolysis and photooxidation to VOC removal were identified for each VOC. According to the CO₂ results, the mineralization rate of the tested VOCs was within the range of 9%–90%, with an average of 41% and were negatively correlated to the molecular weight (R = -0.63). Many of the tested VOCs exhibited high concentration particulate matters in the off-gases with a 3–283 mg/m³ PM₁₀ range and a 2–40 mg/m³ PM_2.5 range. The carbon balance of each VOC during UV irradiation was analyzed based on the VOC, CO₂ and PM₁₀ concentrations. Certain organic intermediates and 23–218 ppm ozone were also identified in the off-gases. Although the UV technique exhibited a high VOC removal efficiency, its drawbacks, specifically low mineralization, particulate matters production, and ozone emission, must be considered prior to its application in VOC gas treatments.     

Moving policy and regulation forward for single-use plastic alternatives

Single-use plastics are often used once or cannot be reused for extended periods. They are widely consumed with the rapid development of social economy. The waste generated by single-use plastics threatens ecosystem health by entering the environment and ultimately restricts sustainable human development. The innovation of sustainable and environmentally friendly single-use plastic alternative materials and the joint participation of governments, enterprises and the public are promising technologies and management approaches that can solve the problem of single-use plastics wastes. The development of single-use plastic alternative products can be promoted fundamentally only by improving relevant legislation and standards, providing differentiated industrial policies, encouraging scientific and technological innovation and expanding public participation.     

微塑料添加对橘园土壤有机碳矿化的影响

为探究微塑料污染对土壤有机碳矿化的影响,采集湖北当阳橘园土壤,进行室内有机碳矿化培养,研究添加微塑料和秸秆条件下土壤有机碳矿化特征及酶活性变化.结果表明,秸秆和微塑料混施显著影响了土壤有机碳矿化,但仅添加微塑料对土壤有机碳矿化无显著影响.与单施秸秆相比,低量微塑料与秸秆混施处理（PP1+S）显著促进了有机碳矿化,有机碳累积矿化量增加了8.20%,而中高量微塑料与秸秆混施处理（PP2+S和PP3+S）显著降低了有机碳累积矿化量,其中,高量微塑料与秸秆混施对土壤有机碳矿化抑制最明显,降低了10.13%.添加微塑料显著降低了β-葡萄糖苷酶活性,高量微塑料添加对酶活性的抑制最显著,与对照相比,在第1、6和35 d分别降低了20.52%、43.93%和17.79%;但是,添加秸秆缓解了微塑料输入对土壤β-葡萄糖苷酶活性抑制作用.有机碳矿化速率与DOC、MBC含量和β-葡萄糖苷酶活性均呈显著正相关.