UV/H2O2 oxidation of tri(2-chloroethyl) phosphate: Intermediate products, degradation pathway and toxicity evaluation

Tri(2-chloroethyl) phosphate (TCEP) with the initial concentration of 5 mg/L was degraded by UV/H₂O₂ oxidation process. The removal rate of TCEP in the UV/H₂O₂ system was 89.1% with the production of Cl^? and PO₄^3? of 0.23 and 0.64 mg/L. The removal rate of total organic carbon of the reaction was 48.8% and the pH reached 3.3 after the reaction. The oxidative degradation process of TCEP in the UV/H₂O₂ system obeyed the first order kinetic reaction with the apparent rate constant of 0.0025 min^?1 (R²=0.9788). The intermediate products were isolated and identified by gas chromatography-mass spectrometer. The addition reaction of HO? and H₂O and the oxidation reaction with H₂O₂ were found during the degradation pathway of 5 mg/L TCEP in the UV/H₂O₂ system. For the first time, environment risk was estimated via the “ecological structure activity relationships” program and acute and chronic toxicity changes of intermediate products were pointed out. The luminescence inhibition rate of photobacterium was used to evaluate the acute toxicity of intermediate products. The results showed that the toxicity of the intermediate products increased with the increase of reaction time, which may be due to the production of chlorine compounds. Some measures should be introduced to the UV/H₂O₂ system to remove the highly toxic Cl-containing compounds, such as a nanofiltration or reverse osmosis unit.     

Will polycentric cities cause more CO2 emissions? A case study of 232 Chinese cities

From 2000 to 2010 China experienced rapid economic development and urbanization. Many cities in economically developed areas have developed from a single-center status to polycentricity. In this study, we used exploratory spatial data analysis (ESDA) to identify the population centers, which identified 232 cities in China as having urban centers. COMP was used to represent urban agglomeration, and POLYD (representing how far is the city's sub-centers to the main center), POLYC (representing the number of a city's centers), and POLYP (representing the population distributed between the main center and the sub-centers) were used to indicate urban polycentricity. Night light data were used to determine the CO₂ emissions from various cities in China. A mixed model was used to study the impact of urban aggregation and polycentric data on the CO₂ emission efficiency in 2000 and 2010. The study found that cities with higher compactness were distributed in coastal areas, and the cities with higher multicentricity were distributed in the Yangtze River Delta and Shandong Province. The more compact the city was, the less conducive it was to improving CO₂ emission efficiency. Polycentric development of the city was conducive to improving the CO₂ emission efficiency, but the number of urban centers had no significant relationship with the CO₂ emission efficiency. Our research showed that the compactness and multicentricity of the city had an impact on the CO₂ emission efficiency and provided some planning suggestions for the low carbon development of the city.     

Responses of nitrification performance, triclosan resistome and diversity of microbes to continuous triclosan stress in activated sludge system

Triclosan(TCS) is commonly found in wastewater treatment plants,which often affects biological treatment processes.The responses of nitrification,antibiotic resistome and microbial community under different TCS concentrations in activated sludge system were evaluated in this study.The experiment was conducted in a sequencing batch reactor(SBR)for 240 days.Quantitative PCR results demonstrated that the abundance of ammonium oxidizing bacteria could be temporarily inhibited by 1 mg/L TCS and then gradually recovered.And the abundances of nitrite oxidizing bacteria(NOB) under 2.5 and 4 mg/L TCS were three orders of magnitude lower than that of seed sludge,which accounted for partial nitrification.When the addition of TCS was stopped,the abundance of NOB increased.The mass balance experiments of TCS demonstrated that the primary removal pathway of TCS changed from adsorption to biodegradation as TCS was continuously added into the SBR system.Moreover,TCS increased the abundance of mexB,indicating the efflux pump might be the main TCS-resistance mechanism.As a response to TCS,bacteria could secrete more protein(PN) than polysaccharide.Three-dimensional excitation-emission matrix revealed that tryptophan PN-like substances might be the main component in PN to resist TCS.High-throughput sequencing found that the relative abundances of Paracoccus,Pseudoxanthomonas and Thauera increased,which could secrete extracellular polymeric substances(EPS).And Sphingopyxis might be the main TCS-degrading bacteria.Overall,TCS could cause partial nitrification and increase the relative abundances of EPS-secreting bacteria and TCS-degrading bacteria.     

Ozone pollution characteristics and sensitivity analysis using an observation-based model in Nanjing, Yangtze River Delta Region of China

Ground-level ozone (O₃) has become a critical pollutant impeding air quality improvement in Yangtze River Delta region of China. In this study, we present O₃ pollution characteristics based on one-year online measurements during 2016 at an urban site in Nanjing, Jiangsu Province. Then, the sensitivity of O₃ to its precursors during 2 O₃ pollution episodes in August was analyzed using a box model based on observation (OBM). The relative incremental reactivity (RIR) of hydrocarbons was larger than other precursors, suggesting that hydrocarbons played the dominant role in O₃ formation. The RIR values for NO_X ranged from –0.41%/% to 0.19%/%. The O₃ sensitivity was also analyzed based on relationship of simulated O₃ production rates with reductions of VOC and NO_X derived from scenario analyses. Simulation results illustrate that O₃ formation was between VOCs-limited and transition regime. Xylenes and light alkenes were found to be key species in O₃ formation according to RIR values, and their sources were determined using the Positive Matrix Factorization (PMF) model. Paints and solvent use was the largest contributor to xylenes (54%), while petrochemical industry was the most important source to propene (82%). Discussions on VOCs and NO_X reduction schemes suggest that the 5% O₃ control goal can be achieved by reducing VOCs by 20%. To obtain 10% O₃ control goal, VOCs need to be reduced by 30% with VOCs/NO_X larger than 3:1.     

Chemical characteristics of road dust PM2.5 fraction in oasis cities at the margin of Tarim Basin

In order to understand the compositions characteristics of particulate matter with aerodynamic diameter less than 2.5 μm (PM_2.5) fraction in road dust (RD_2.5) of oasis cities on the edge of Tarim Basin, 30 road dust (RD) samples were collected in Kashi, Cele, and Yutian in the spring, 2018, and RD_2.5 was collected using the resuspension approach. Eight water-soluble ions, 39 trace elements and 8 fractions of carbon-containing species in PM_2.5 were analyzed. Ca²⁺ and Ca were the most abundant ions and elements in RD_2.5 (7.1% and 9.5%). Cl^- in RD_2.5 was affected not only by attributed to saline-alkali soils in oasis cities of the Tarim Basin and dust from Taklimakan Desert but also by human activities. Moreover, the organic carbon/elemental carbon (OC/EC) ratio indicated that carbon components in RD_2.5 in Cele town mainly come from fossil fuel combustion, while those in Yutian and Kashi mainly come from biomass combustion. It is noteworthy that high Ca in RD_2.5 was seriously affected by anthropogenic emissions, and high Na and K contents in RD_2.5 could be derived from soil and desert dust. It was estimated that Cd, Tl, Sn and Cr were emitted from anthropogenic emissions using the enrichment factor. The coefficients of divergence (COD) result indicated that the influence of local emission on road dust emission is greater than that of long-distance transmission. This study is the first time to comprehensively analyze the chemical characteristics of road dust in oasis cities, and the results provides the sources of road dust at the margin of Tarim Basin.     

Investigation to meet China II emission legislation for marine diesel engine with diesel methanol compound combustion technology

In order to reduce the pollutant emission and alleviate the pressure of petroleum resources shortage and greenhouse gas emission at the same time, the use of clean and renewable alternative fuel for marine engines is a promising option. In this study, a marine diesel engine, which was modified to run in diesel methanol compound combustion (DMCC) mode, was investigated. After the diesel injection parameters were calibrated, and combined with a sample after-treatment device DOC (diesel oxidation catalyst), the engine could meet the requirements of China II legislation. The overall MSP (methanol substitute percent) reached 54.1%. The value of each pollutant emission was much lower than that in China II emission legislation, and there was almost no methanol and formaldehyde emissions. When methanol was injected into the inlet manifold, the intake air temperature decreased a lot, as well as the exhaust gas temperature, which were beneficial to increase engine thermal efficiency and improve engine room environment. Compared with the engine running in pure diesel mode, when the engine ran in diesel/methanol dual fuel mode, the combustion phase was advanced, and the combustion duration became shorter. Therefore, the engine thermal efficiency increased, and fuel consumption decreased significantly.     

日本城市有机废弃物甲烷发酵资源化系统案例分析及最新研究进展

为建设可持续发展社会,日本近年来大力推动甲烷发酵以实现城市有机废弃物的减量化和资源化。首先介绍了日本城市有机废弃物资源化的2个实用案例,长冈市厨余垃圾沼气发电中心和丰桥市生物质资源利用中心的设计和运营状况。两者的长期稳定运行及产能效果验证了甲烷发酵技术在城市有机废弃物减量化和资源化上的可行性。其次,为了应对社会发展趋势和城市有机废弃物处理的技术需求,介绍了日本有关厨余垃圾、污泥以及废纸（城市有机废弃物的3大组分）的单独发酵及共发酵的部分研究成果。此外,简要介绍了应用厌氧膜生物反应器（AnMBR）进行相关高效甲烷发酵的最新研究成果。并根据实用案例调查和实验研究结果,以100万人口城市为例,对城市有机废弃物的各种甲烷发酵系统的产能效果进行了模拟概算。     

温度和含水率对村镇垃圾焚烧烟气中有机物排放的影响

使用管式炉模拟村镇生活垃圾焚烧过程,研究不同焚烧温度和不同垃圾含水率条件下,村镇垃圾焚烧烟气中多环芳烃（PAHs）、氯苯及苯系物的生成和分布特性.结果表明,焚烧温度为550℃时,烟气中多环芳烃和氯苯的释放量最大,当温度小于550℃时,多环芳烃和氯苯的释放量随温度升高而增加,温度大于550℃时,多环芳烃和氯苯的释放量随温度升高而降低.高温焚烧不仅可以抑制烟气中多环芳烃的浓度及减少大分子量PAHs的排放,还能降低氯苯的释放量和氯代数,从而减小村镇垃圾焚烧烟气中的毒性;苯系物随着温度升高,由热解转变为高温合成,释放量也随着增加.水分对多环芳烃和氯苯有较大影响,对苯系物的影响较小.在400℃条件焚烧时,水分含量对多环芳烃总体上是促进的,而在850℃焚烧条件下则表现出抑制作用;而水分对氯苯则均表现出抑制作用,并且可以降低氯苯化合物的氯代数.     

石灰对生物炭和腐殖酸阻控水稻Cd吸收的效应

采用田间试验,研究了石灰-生物炭和石灰-腐殖酸两种联合修复剂及其不同施用量对酸性土壤中稻米Cd含量、产量和品质的影响,并对不同处理修复效果进行综合评估.结果表明,两种联合修复剂能显著降低稻米Cd含量17.39%~45.96%,降低土壤有效Cd含量18.29%~29.88%,.生物炭、腐殖酸施用量分别为5000,6000kg/hm²时,稻米Cd的降低效果最佳.石灰-生物炭处理中,降低稻米Cd含量的主要因子为土壤pH和土壤有效Cd含量（P<0.05）,而石灰-腐殖酸处理则为土壤有机质含量与土壤有效Cd含量（P<0.05）.施加修复剂后稻米产量可达6637~7890kg/hm²,直链淀粉含量达到19.47%~27.26%;当腐殖酸施用量为7500kg/hm²时可使稻米产量提高10.97%,而石灰-生物炭处理对稻米产量无显著影响;采用层次分析法确定了稻米Cd含量、稻米产量、稻米品质和修复费用在修复效应评估中所占权重为0.608、0.150、0.102、0.140,综合评估结果显示土壤-水稻系统Cd阻控效应的联合修复技术为：在施用1200kg/hm²石灰的基础上同时施加6000kg/hm²腐殖酸.     

贵州农村污水典型抗生素污染水平及生态风险

抗生素残留物是一种新兴的微污染物,广泛存在于各种环境介质及生物样品中,长期暴露在抗生素环境会对人体健康、生态环境产生一定的潜在威胁。由于农村污水排放量逐渐增大、农村地区对抗生素的不合理使用以及受经济、地理地形的限制大部分农村地区都缺乏完整的污水收集管网和污水治理设施,进而导致抗生素通过多种途径进入农村环境,可能会对农村生态环境产生一定的环境风险。为了解贵州农村污水中抗生素的污染水平及处理后污水对环境的影响,作者采用固相萃取—液相色谱—串联质谱(SPE-LC-MS)联用技术,选取贵州省3处典型农村地区,对农村污水治理设施进出水中典型抗生素(包括6种磺胺类、3种四环素类、1种喹诺酮类抗生素)的浓度水平进行分析。结果表明,3处农村污水治理设施进水和出水中均检出不同程度的抗生素,浓度范围分别在ND～417.57 ng/L和ND～253.68 ng/L,其中土霉素浓度最高,进出水的浓度分别为417.57、253.68 ng/L;其次是氧氟沙星,在进出水中的最高浓度分别为278.75、183.73 ng/L。3处农村污水治理设施对抗生素的去除率在-58.32%～45.52%,对目标抗生素的去除率较低。与国内外其他地区农村污水相比,所选地区的进出水中抗生素的浓度较高。通过生态风险评估发现,经处理后的污水中均含有一种RQ≥1的抗生素物质,并且发现氧氟沙星为处理后污水中的高风险污染物,污水的排放会对环境造成一定的生态风险。