于桥水库周边农业小流域氮素流失浓度特征

选择天津市水源地于桥水库周边2个典型的农业小流域进行了长期的氮素流失研究.结果表明,地表径流的总氮浓度以村庄和果园为最高,平均浓度在20 mg·L-1左右;农田次之,山坡最低,平均浓度低于10 mg·L-1.亚表层流中氮素流失在不同地点和不同降雨事件中浓度有较大差异,总体趋势以果园最高,村庄中菜园次之,农田最低.在流域出口处.曹各庄流域地表径流总氮浓度达到18.5 m8·L-1,桃花寺流域出口处浓度为5.9 mg·L-1,流域内不同景观格局和迁移廊道地貌的差异是造成2个流域氮素流失浓度差异的主要原因.曹各庄流域中主要污染源村庄离水库较近(约200 m),且道路型季节性河流等性质特征对污染物的滞留能力较弱,增加了氮素流失到受纳水体的风险;桃花寺流域的污染源村庄和果园离受纳水体较远(约1500 m),氮素在季节性河流迁移过程中被小石坝、植被过滤带和干塘等"汇"型结构所滞留.从而降低了向水体迁移的风险.     

2015-2019年汾渭平原臭氧污染状况分析

基于全国空气质量监测网数据,分析了2015-2019年汾渭平原11个城市臭氧(O3)污染状况.结果 表明:2015-2019年,汾渭平原11个城市O3平均浓度总体呈升高趋势,年平均升高12.2 μg/m3,其中,2017-2019年均超过二级标准限值(160μg/m3).O3单项污染物的空气质量分指数占空气质量指数的比...     

上海市城区径流污染及控制对策

随着城市点源污染控制程度的提高,雨水径流引起的面源污染日益突出.非渗透性地表径流污染成为城市水体污染的主要来源.对上海市城区非渗透性地表径流进行了为期3年的采样调查,监测了COD、BOD5、SS、NH3-N、TP和TN等污染物指标,并估算了单位面积径流年污染负荷.结合上海市实际情况,提出了城区径流污染控制的综合策略.     

广东省温泉水和温泉宾馆室内氡浓度研究

利用RAD7和NR-667A测氡仪测量了广东省8处温泉水和温泉宾馆室内外氡浓度。不同地方的温泉水氡浓度差异较大;在浴室内使用温泉水洗浴时,温泉水氡浓度对宾馆室内氡浓度的影响程度也不一样,浴室内平均氡浓度比没有用温泉水时高0.6～18.6倍,卧室内氡浓度比没有用温泉水时高0.3～7.3倍,而且随着温泉水使用状况不同,室内氡浓度也有很大差异。浴室内使用温泉水时计算的氡转换系数较高。有些宾馆室内氡浓度超标,应采取一些管理措施或技术手段降低对宾馆工作人员的暴露水平。     

元素沉积通量在重金属高分辨率沉积记录中应用——以洪湖为例

通过对洪湖沉积柱样重金属元素Hg,Pb及总有机碳(TOC)沉积通量的研究,揭示了洪湖一百年内,特别是近10年以来重金属污染物的沉积特征与变化。研究认为应用“元素沉积通量”分析重金属在沉积柱的高分辨沉积记录,能够很好弥补元素浓度的缺陷,其结果也很好地与湖区沉积物来源时间变化相吻合。     

生物沥滤去除污泥重金属:污泥固体浓度和类型影响

研究了污泥固体浓度和污泥类型对Cu、Pb和Zn生物沥滤的影响。结果表明,污泥固体浓度越高,重金属沥出效果越差;高固体浓度污泥pH值降低缓慢,其SO42-产生量明显高于低污泥浓度。低固体浓度污泥下,氮磷钾营养物质流失量比高固体浓度污泥明显增多。厌氧消化污泥和生污泥中重金属的生物沥滤效果差异不大,但厌氧消化污泥的肥效流失明显高于生污泥。     

膨胀颗粒污泥床反应器在低温低浓度下的动力学研究

在考虑膨胀颗粒污泥床(EGSB)反应器的反应动力学、水力动力学和热动力学特点的基础上,建立了EGSB反应器在低浓度下的基质降解动力学模型,求出EGSB反应器在进水COD450m g/L、35,15℃(与35℃同样的液体上升流速)和15℃(提高液体上升流速至最佳)3种运行条件时的速率常数分别为3.91×102,1.07×102,2.54×102d-1。用A rrhenius方程分析了温度对速率常数的影响,计算出EGSB反应器在提高液体上升流速前后的活化能分别为4.897×104J/m o l和1.197×104J/m o。l低温使速率常数明显降低,但液体上升流速的提高却能显著提高速率常数,降低活化能。     

二氧化硫质量浓度在线监测子系统

烟气二氧化硫在线监测系统由2个子系统(二氧化硫质量浓度监测子系统和二氧化硫流速及流量监测子系统)构成。文中对系统的监测原理、方案等做了简要介绍,对二氧化硫质量浓度在线监测子系统做了较充分的论述。     

Temporal variations of CO2 concentration near land surface and its response to meteorological variables in Heihe River Basin, northwest China

Atmospheric CO2 concentration (CC) near land surface and meteorological variables have been measured at four sites,named Yeniugou (alpine meadow and permafrost), Xishui (mountainous forest), Linze (oasis edge) and Ejina (lower desert),respectively, in Heihe River Basin, northwest China. The results showed that, the half hourly CC at night was larger than in daytime,and the daily averaged CC was the largest in winter. The averaged CC of 932 d at the Linze was about 418 ppm, was about 366 ppm in the 762 d at the Ejina. In the same period from September 23 to November 9, 2004, the averaged CC was about 625,334, 436 and 353 ppm, at Yeniugou, Xishui, Linze and Ejina, respectively. The linear relationship between daily averaged CC and air temperature T was negative, between CC and relative humidity (RH) was positive. The linear CC-atmospheric pressure (A P) relationship was negative at the Linze and Yeniugou, was positive at the Ejina. The relationship between CC and global radiation R was exponent, and soil temperature Ts was negative linear, and soil water content was complex. The correlation between CC and wind speed was not existent.Using meteorological variables together to simulate CC, could give good results.     

Applications of dust explosion hazard and disaster prevention technology

Powdered materials are widely used in industrial processes, chemical processing, and nanoscience. Because most flammable powders and chemicals are not pure substances, their flammability and self-heating characteristics cannot be accurately identified using safety data sheets. Therefore, site staff can easily underestimate the risks they pose. Flammable dust accidents are frequent and force industrial process managers to pay attention to the characteristics of flammable powders and create inherently safer designs.This study verified that although the flammable powders used by petrochemical plants have been tested, some powders have different minimum ignition energies (MIEs) before and after drying, whereas some of the powders are released of flammable gases. These hazard characteristics are usually neglected, leading to the neglect of preventive parameters for fires and explosions, such as dust particle size specified by NFPA-654, MIE, the minimum ignition temperature of the dust cloud, the minimum ignition temperature of the dust layer, and limiting oxygen concentration. Unless these parameters are fully integrated into process hazard analysis and process safety management, the risks cannot be fully identified, and the reliability of process hazard analysis cannot be improved to facilitate the development of appropriate countermeasures. Preventing the underestimation of process risk severity due to the fire and explosion parameters of unknown flammable dusts and overestimation of existing safety measures is crucial for effective accident prevention.