污水处理市场化改革与运营监管探析——以深圳市龙岗区为例

运营监管是污水处理市场化改革中的重要问题。文章在分析污水处理市场运营监管必要性的基础上,围绕监管制度建设问题,通过对深圳市龙岗区污水处理市场化进程、监管体系的建立和运营监管措施的实证分析,总结经验及不足,并从中得出建立健全污水处理市场化运营监管体制机制的相应思路和建议。     

洞庭湖水质及富营养状态评价

根据2009年洞庭湖水质监测数据,参照GB3838-2002中Ⅲ类水质标准,采用单因子评价法、综合污染指数法和综合营养指数法对洞庭湖水质及富营养状况进行评价。单因子法结果表明,在总氮、总磷不参与评价的情况下,2009年洞庭湖湖体水质整体为优;湖水中总氮、总磷污染严重,监测断面总磷浓度均劣于Ⅲ类水质要求。综合营养指数评价结果表明,洞庭湖水质处于中营养和轻度富营养水平;综合污染指数评价进一步表明,洞庭湖湖体水质劣于入湖口水质,入湖口水质劣于出湖口水质的分布特征。     

应用高密度电法探测北京南口-孙河隐伏断裂

举例说明了高密度电法在北京南口-孙河活隐伏活动断层勘测中的应用,展现高密度电法在断层定位中的广阔应用前景。简单介绍了高密度电法的基本原理。视电阻率异常剖面揭示南口-孙河断裂为正断层,北东盘上升,南西盘下降,推测断裂倾角60°～68°。视电阻率异常剖面与钻孔资料对应较好,并与钻探资料分析的断裂活动特性基本吻合。     

加强县级环境监测质量管理的思考

分析县级环境监测站质量管理的现状以及存在问题,提出加强和完善县级环境监测质量管理的对策,以期通过强化管理体系的运行管理,完善质量管理人员队伍体系,全面加强质量管理工作。     

应用Abraham方程研究有机污染物对七种水生生物的毒性

通过研究141种对7种水生生物(发光菌、江水细菌、绿藻、大型溞、鲤鱼、黑头呆鱼,古比鱼)的毒性,建立了非极性麻醉型和极性麻醉型有机物的毒性与辛醇/水分配系数的对数lg Kow的相关性,并对该相关性进行了理论解释.同时,建立了Abraham参数与7种水生生物毒性的预测模型,根据Abraham参数和预测模型的系数,对有机污染物与生物毒性作用机理进行了理论分析.在此基础上,对Abraham毒性模型回归系数进行主成分分析,发现有机污染物对7种水生生物的毒性机理具有一定种间相似性和种间差异性,通过有机污染物对7种水生生物种间相关性研究发现,近缘物种种间具有良好的相关性,说明这些物种具有较相似的毒性作用机理,而非近缘物种种间相关性较差,说明这些物种种间毒性机理存在一定差异.     

Aquatic ecological health assessment of Shaying River Basin based on indices of physico-chemistry and aquatic organisms北大核心CSCD

With a variety of ecosystem services, river ecosystem plays an important role in the process of human society development. On the other hand, health condition of most aquatic ecosystems is seriously threatened by human activities. Restoring and maintaining a healthy ecosystem has already become a vital goal of river management. As a basis of river management, river health assessment is therefore particularly important. Based on indices of physics, chemistry and aquatic organisms, this research tried to establish a comprehensive evaluation system of aquatic ecological health suitable for the situation of Shaying River Basin. The system included 6 factors including riparian zone, river morphology, nutrients, oxygen balance, periphyton and benthic macroinvertebrates, which were defined into 19 indices reflecting the aquatic ecological health from different aspects. The assessment results indicated that the health condition of overall basin was normal, varying among different parts of the region, with Shahe River, Lihe River and Beiru River in the upper part sub-healthy, and Jialu River in the same part sub-sick. The middle region was generally in normal or sub-sick level; the health condition of the lower part was comparatively better due to a good condition. Within the indices, the nutrients and benthic macroinvertebrates were the major constraining factors to the health condition of Shaying River Basin for their poor health condition. The health conditions showed significant differences among the rivers (P < 0.01), with Jialu River being the worst. The result indicated that the aquatic ecological health of Shaying River Basin is affected by many factors, with urban and industrial sewage being the main ones, And that different protective measures should be employed for rivers of different conditions. The result can provide theoretical basis for the ecological restoration of Shaying River Basin and reasonable exploitation and conservation of the water resource of the whole Huaihe River Basin.     

Sources and characteristics of fine particles over the Yellow Sea and Bohai Sea using online single particle aerosol mass spectrometer

Marine aerosols over the East China Seas are heavily polluted by continental sources. During the Chinese Comprehensive Ocean Experiment in November 2012, size and mass spectra of individual atmospheric particles in the size range from 0.2 to 2.0 μm weremeasured onboardby a single particle aerosol mass spectrometer (SPAMS). The average hourly particle number (PN) was around 4560 ± 3240 in the South Yellow Sea (SYS), 2900 ± 3970 in the North Yellow Sea (NYS), and 1700 ± 2220 in the Bohai Sea (BS). PN in NYS and BS varied greatly over 3 orders of magnitude, while that in SYS varied slightly. The size distributions were fitted with two log-normal modes. Accumulation mode dominated in NYS and BS, especially during episodic periods. Coarse mode particles played an important role in SYS. Particles were classified using an adaptive resonance theory based neural network algorithm (ART-2a). Six particle types were identified with secondary-containing, aged sea-salt, soot-like, biomass burning, fresh sea-salt, and lead-containing particles accounting for 32%, 21%, 18%, 16%, 4%, and 3% of total PN, respectively. Aerosols in BS were relatively enriched in particles from anthropogenic sources compared to SYS, probably due to emissions from more developed upwind regions and indicating stronger influence of continental outflowonmarine environment. Variation of source types dependedmainly on origins of transported air masses. This study examined rapid changes in PN, size distribution and source types of fine particles in marine atmospheres. It also demonstrated the effectiveness of high-time-resolution source apportionment by ART-2a.     

Removal of tetracycline from aqueous solution by a Fe3O4 incorporated PAN electrospun nanofiber mat

Pollution of antibiotics, a type of emerging contaminant, has become an issue of concern, due to their overuse in human and veterinary application, persistence in environment and great potential risk to human and animal health even at trace level. In this work, a novel adsorbent, Fe₃O₄ incorporated polyacrylonitrile nanofiber mat (Fe-NFM), was successfully fabricated via electrospinning and solvothermal method, targeting to remove tetracycline (TC), a typical class of antibiotics, from aqueous solution. Field emission scanning electron microscopy and X-ray diffraction spectroscopy were used to characterize the surface morphology and crystal structure of the Fe-NFM, and demonstrated that Fe-NFM was composed of continuous, randomly distributed uniform nanofibers with surface coating of Fe₃O₄ nanoparticles. A series of adsorption experiments were carried out to evaluate the removal efficiency of TC by the Fe-NFM. The pseudo-second-order kinetics model fitted better with the experimental data. The highest adsorption capacity was observed at initial solution pH 4 while relative high adsorption performance was obtained from initial solution pH 4 to 10. The adsorption of TC on Fe-NFM was a combination effect of both electrostatic interaction and complexation between TC and Fe-NFM. Freundlich isotherm model could better describe the adsorption isotherm. The maximum adsorption capacity calculated from Langmuir isotherm model was 315.31 mg/g. Compared to conventional nanoparticle adsorbents which have difficulties in downstream separation, the novel nanofiber mat can be simply installed as a modular compartment and easily separated from the aqueous medium, promising its huge potential in drinking and wastewater treatment for micro-pollutant removal.     

Removal of tetracycline from aqueous solution by a Fe3O4 incorporated PAN electrospun nanofiber mat

Pollution of antibiotics, a type of emerging contaminant, has become an issue of concern,due to their overuse in human and veterinary application, persistence in environment and great potential risk to human and animal health even at trace level. In this work, a novel adsorbent, Fe3O4 incorporated polyacrylonitrile nanofiber mat(Fe-NFM), was successfully fabricated via electrospinning and solvothermal method, targeting to remove tetracycline(TC), a typical class of antibiotics, from aqueous solution. Field emission scanning electron microscopy and X-ray diffraction spectroscopy were used to characterize the surface morphology and crystal structure of the Fe-NFM, and demonstrated that Fe-NFM was composed of continuous, randomly distributed uniform nanofibers with surface coating of Fe3O4 nanoparticles. A series of adsorption experiments were carried out to evaluate the removal efficiency of TC by the Fe-NFM. The pseudo-second-order kinetics model fitted better with the experimental data. The highest adsorption capacity was observed at initial solution p H 4 while relative high adsorption performance was obtained from initial solution p H 4 to 10. The adsorption of TC on Fe-NFM was a combination effect of both electrostatic interaction and complexation between TC and Fe-NFM. Freundlich isotherm model could better describe the adsorption isotherm. The maximum adsorption capacity calculated from Langmuir isotherm model was 315.31 mg/g. Compared to conventional nanoparticle adsorbents which have difficulties in downstream separation, the novel nanofiber mat can be simply installed as a modular compartment and easily separated from the aqueous medium, promising its huge potential in drinking and wastewater treatment for micro-pollutant removal.     

硅橡胶电缆材料真空烘烤除气参数实验分析方法

目的在于通过硅橡胶电缆护套材料真空出气性能研究,分析材料真空烘烤除气的参数。方法是依据真空中材料出气性能测试标准,测试电缆材料使用温度范围内,不同温度条件下材料的质量损失(TML)、收集的可凝挥发物量(CVCM),分析材料出气参数的变化。结果硅橡胶电缆材料出气温度85℃时,CVCM量值与75℃时基本相同,出气温度95℃时,CVCM量值是85℃时的4倍,且收集到的物质组分也明显增加;出气温度85℃条件下,24小时后材料的质量损失约占总质量损失的94%。结论通过材料出气性能实验方法,有效获得了硅橡胶电缆材料真空烘烤除气参数,体电阻率测试结果检验了真空烘烤除气参数的合理性。