聊城市城区夏季VOCs污染特征及来源解析

基于聊城市2021年6月挥发性有机物(VOCs)和臭氧(O₃)在线监测数据,系统分析了O₃污染日和清洁日VOCs的浓度水平、组成特征、日变化特征和O₃生成潜势(OFP),通过潜在源贡献因子法(PSCF)和浓度权重轨迹分析法(CWT)识别了VOCs的潜在源区,利用特征物种比值和正定矩阵因子分解(PMF)模型对VOCs来源进行了解析.结果表明,聊城市2021年6月O₃污染日和清洁日ρ(VOCs)小时均值分别为(115.38±59.12)μg·m^-3和(88.10±33.04)μg·m^-3,各类别VOCs浓度水平在污染日和清洁日的大小均表现为：含氧挥发性有机物(OVOCs)>烷烃>卤代烃>芳香烃>烯烃>炔烃>有机硫.污染日和清洁日浓度差值较大的VOCs物种均出现在二者VOCs浓度小时均值贡献前10物种中.总VOCs、烷烃、炔烃、芳香烃、卤代烃和有机硫浓度日变化趋势表现为日间低于夜间,OVOCs浓度日变化呈现出白天高,夜间低的特...     

我国稻谷供给与消费平衡的时空格局

论文基于城市和农村人口大米消费量、稻谷加工产品产量、猪及家禽等产品出栏量、单位面积种子用量等估算了2000—2014年我国稻谷消费的变化,分析了不同省份稻谷的供需平衡关系。研究结果显示：我国稻谷人均表观消费量显著高于世界水平;2000—2014年稻谷供需从紧平衡甚至个别年度供不应求的状态逐渐过渡到供需盈余;我国稻谷以口粮消费为主,但消费比重减少明显,工业和饲料消费比重增加;2014年我国稻谷库存消费比接近70%,10 a库存增加了2.72倍;我国2/3的省份（21个）稻谷供需难以自足,仅10个省份稻谷能够自足,5个省份稻谷供需盈余量在300万t以上。为去库存,应坚定推进水稻的市场化改革;为保障区域稻谷等口粮的需求,应加强省际之间粮食流通体制机制的研究。     

Characteristic of organic aerosol in a remote area of Okinawa Island

A continuous investigation of aerosol pollutants in Cape Hedo, Japan was conducted from October 2005 to August 2006 by Aerodyne aerosol mass spectrometer (AMS). This article focused on the analysis of long-range transport of organic aerosol from continental origin to the remote island. Based on the transport distance and air mass origin, four main air mass origins were considered, including North China, South China, Japan and Korea. Although the mass concentration and air mass origin were quite different during study period, the mass spectrum and size distribution of organic matter and oxidized organics were similar, which showed uni-modal distribution with modal diameter of around 500 nm. The loss rate of organics was (5.15 ± 0.55) × 10-⁶ s-¹ obtained by plotting the concentration against the transport time. Conversion rate of SO₂ to sulfate and oxidation rate of organics were (1.07 ± 0.15) × 10-⁵ and (1.09 ± 0.52) × 10-⁶s-¹, respectively.     

不同材料负载Ani/TiO2光降解印染废水

使用常见的工业材料:玻璃、铝片和镍网为载体,苯胺(Ani)作为氮掺杂剂,通过溶胶-凝胶法,制备了不同材料负载Ani/TiO2,并研究其在降解以酸性品红模拟的印染废水的光催化氧化性能。结果表明,玻璃、铝片和镍网负载Ani/TiO2最佳N/Ti值分别为0.250、0.040和0.040,并验证了N掺杂TiO2在日光利用方面的优势,提高了光催化剂的实际应用性;最佳pH值均为6～8;最佳处理初始浓度分别为10、12和12 mg/L;其光催化活性都会随着溶液深度的增加而降低;氧化剂硝酸铁的最佳投加浓度均为0.5×10-5到1.0×10-5mol/L;综合来看,玻璃负载Ani/TiO2的活性最高,铝片负载Ani/TiO2次之,镍网负载Ani/TiO2最差。     

污水输送和污水处理过程中CH4产生与排放特征及影响因素研究进展

污水输送和污水处理过程中会有大量的CH4温室气体产生和排放。总结了污水厌氧生化处理过程中CH4产生的机制,列举了产甲烷菌的种类。同时,分析了在污水生化处理各单元CH4产生与排放的影响因素:污水处理过程中,DO、pH、温度、污泥负荷、硝酸盐浓度和亚硝酸盐浓度等因素会影响CH4的产生。在污水处理过程中的厌氧段,CH4的排放主要是与CH4产生量及CH4在污水中的溶解度有关;在好氧段,CH4的排放与机械搅拌或曝气作用对水流的扰动有关。     

EGSB反应器中颗粒污泥床工作状况及污泥性质研究

研究了处理低浓度有机废水的EGSB反应器中颗粒污泥床状况及颗粒污泥的性质,结果表明,液体表面上升流速(V_up)是影响EGSB反应器效能的重要参数,当进水COD为600～800mg/L时,较佳的液体表面上升流速(V_up)为1.5～4.5m/h,在此条件下,EGSB反应器COD负荷为24.5～25.7kg/(m3·d),COD去除率大于85%;同时还发现,经过一定时间的运行后,反应器中颗粒污泥粒径分布、沉降速度、胞外聚合物(ECP)等性质都发生了明显变化,颗粒污泥的平均粒径由0.85mm增加到1.78mm,平均沉降速度由41.2m/h提高到83.2m/h,而胞外聚合物(ECP)的含量则由接种污泥的32.5mg/g增加到57.8mg/g。      

施肥与不施肥措施下小麦田的CO2、CH4、N2O排放日变化特征

二氧化碳（CO2）、甲烷（CH4）、氧化亚氮（N2O）是对全球气候变化影响最大的温室气体。由于土壤与大气之间的水热交换需要一定的传导平衡时间,因此土壤温室气体与温湿度之间的关系存在不同的表现形式。目前,有关温室气体研究多集中于季节性排放特征,而关于CO2、CH4、N2O的日变化研究却少见报道。以北京小麦（Triticum aestivuml）农田土壤为研究对象,对施肥和不施肥条件下CO2、CH4、N2O交换通量和气温、土壤温度进行连续观测,来探讨3种温室气体的日变化特征。采用人工静态暗箱法对小麦田土壤进行连续48 h原位观测,每2 h测定1次,每次盖箱时间为30 min。气体样品中的CO2、CH4、N2O用气相色谱仪（Agilent 6890A,FID/ECD）测定。结果表明：施肥与不施肥条件下小麦生育后期麦田土壤CO2、CH4、N2O交换通量具有明显的日变化特征。土壤表现为CH4的吸收汇、CO2和N2O的排放源。CH4的吸收通量、CO2和N2O的排放通量均表现为施肥区＞对照区。CO2、CH4的交换通量的70%以上出现在白天,而施肥区和对照区的N2O白天排放通量分别达到全天的81.8%、91.1%。另外,相关性分析表明,CO2、N2O交换通量的日变化与气温和5 cm地温呈极显著（P＜0.01）或显著（P＜0.05）的正相关关系,且N2O交换通量日变化与10 cm地温呈现极显著的正相关关系,说明温度是影响CO2、N2O交换通量日变化的重要因素;而气温、5 cm地温、10 cm地温对CH4交换通量日变化不存在显著性影响。     

北京市道路空气中挥发性有机物时空分布规律

为研究城市交通道路空气中挥发性有机化合物(VOCs)的污染状况、变化规律和不同道路类型的浓度特点,于2008年5月—2009年7月对北京市3种典型道路(街道峡谷、交叉道路和开阔道路)进行空气质量监测. 采用气相色谱法测定道路空气中非甲烷烃(NMHCs)、苯系物(苯、甲苯和二甲苯)的质量浓度. 结果表明:北京市道路空气中挥发性有机化合物污染比较严重,其中ρ(NMHCs)日均值为1.0～3.3 mg/m3,ρ(苯系物)日均值为8.8～80.0 μg/m3. 污染物浓度日变化多呈现双峰型. 选取1,4,7和10月为不同季节的代表月份,7月的ρ(NMHCs)和ρ(苯系物)均最高,10月最低. 3种典型道路中,街道峡谷的污染物质量浓度高于另外2种道路. 道路附近的挥发性有机物质量浓度主要受到机动车排放、气象条件和地形条件等的影响.      

Emission patterns of biogenic volatile organic compounds from dominant forest species in Beijing, China

Biogenic volatile organic compounds (BVOCs) have significant effects on atmospheric chemistry, ozone formation and secondary organic aerosol formation. Considering few investigations about BOVCs emissions in north China where is facing serious air pollution in recent years, emissions of various BVOCs from 24 dominant forest species in Beijing were measured from June to September in 2018, using a dynamic headspace sampling method. More than one hundred BVOCs in the collected samples were identified by using an automatic thermal desorption-gas chromatography/mass spectrometry, and their emission rates based on leaf biomass were calculated. Isoprene and monoterpenes were verified to be the dominant BVOCs emitted from the tree species, accounting for more than 50% of the total BVOCs. Generally, broad-leaved species displayed high isoprene emission rates, especially the Platanus occidentalis (21.36 µg/(g?hr)), Robinia pseudoacacia (11.55 µg/(g?hr)), and Lonicera maackii (9.17 µg/(g?hr)), while coniferous species emitted high rates of monoterpenes, such as Platycladus orientalis (27.18 µg/(g?hr)), Pinus griffithii (23.11 µg/(g?hr)), and Pinus armandii (7.42 µg/(g?hr)). High emission rates of monoterpenes from the broad-leaved species of Buxus megistophylla (13.07 µg/(g?hr)) and Ligustrum vicaryi (5.74 µg/(g?hr)), and high isoprene emission rate from the coniferous tree of Taxus cuspidata (5.86 µg/(g?hr)) were also observed. The emission rates of sesquiterpenes from each tree were usually 10–100 times smaller than those of isoprene and monoterpenes. Additionally, relatively high emission rates of oxygenated volatile organic compounds and other alkenes than isoprene and monoterpenes were also found for several tree species.     

反应条件对零价铁去除As(Ⅲ)动力学的影响

考察了摇床转速、Fe0粒径、溶液pH、溶解氧以及背景电解质等条件对Fe0去除As(Ⅲ)速率的影响,并探讨了不同影响因素下的作用机制.结果显示,转速高于100 r·min-1时,Fe0腐蚀速率明显加快,As(Ⅲ)去除速率提高,在50 r·min-1时,Fe0腐蚀速率和As(Ⅲ)去除速率接近静止状态;Fe0粒径显著地影响A...