Vertical distributions of wintertime atmospheric nitrogenous compounds and the corresponding OH radicals production in Leshan, southwest China

Ground-based multi-axis differential optical absorption spectroscopy (MAX-DOAS) observations were operated from 02 to 21 December 2018 in Leshan, southwest China, to measure HONO, NO₂ and aerosol extinction vertical distributions, and these were the first MAX-DOAS measurement results in Sichuan Basin. During the measurement period, characteristic ranges for surface concentration were found to be 0.26–4.58 km^?1 and averaged at 0.93 km^?1 for aerosol extinction, 0.49 to 35.2 ppb and averaged at 4.57 ppb for NO₂ and 0.03 to 7.38 ppb and averaged at 1.05 ppb for HONO. Moreover, vertical profiles of aerosol, NO₂ and HONO were retrieved from MAX-DOAS measurements using the Heidelberg Profile (HEIPRO) algorithm. By analysing the vertical gradients of pollutants and meteorological information, we found that aerosol and HONO are strongly localised, while NO₂ is mainly transmitted from the north direction (city center direction). Nitrogen oxides such as HONO and NO₂ are important for the production of hydroxyl radical (OH) and oxidative capacity in the troposphere. In this study, the averaged value of OH production rate from HONO is about 0.63 ppb/hr and maximum value of ratio between OH production from HONO and from (HONO+O₃) is > 93% before12:00 in Leshan. In addition, combustion emission contributes to 26% for the source of HONO in Leshan, and we found that more NO₂ being converted to HONO under the conditions with high aerosol extinction coefficient and high relative humidity is also a dominant factor for the secondary produce of HONO.     

Vertical distributions of tropospheric SO2 based on MAX-DOAS observations: Investigating the impacts of regional transport at different heights in the boundary layer

Information on the vertical distribution of air pollutants is essential for understanding their spatiotemporal evolution underlying urban atmospheric environment. This paper presents the SO₂ profiles based on ground-based Multi-Axis Differential Optical Absorption Spectroscopy (MAX-DOAS) measurements from March 2018 to February 2019 in Hefei, East China. SO₂ decrease rapidly with increasing heights in the warm season, while lifted layers were observed in the cold season, indicating accumulation or long-range transport of SO₂ in different seasons might occur at different heights. The diurnal variations of SO₂ were roughly consistent for all four seasons, exhibiting the minimum at noon and higher values in the morning and late afternoon. Lifted layers of SO₂ were observed in the morning for fall and winter, implying the accumulation or transport of SO₂ in the morning mainly occurred at the top of the boundary layer. The bivariate polar plots showed that weighted SO₂ concentrations in the lower altitude were weakly dependent on wind, but in the middle and upper altitudes, higher weighted SO₂ concentrations were observed under conditions of middle-high wind speed. Concentration weighted trajectory (CWT) analysis suggested that potential sources of SO₂ in spring and summer were local and transported mainly occurred in the lower altitude from southern and eastern areas; while in fall and winter, SO₂ concentrations were deeply affected by long-range transport from northwestern and northern polluted regions in the middle and upper altitudes. Our findings provide new insight into the impacts of regional transport at different heights in the boundary layer on SO₂ pollution.     

浸没式膜-生物反应器膜面污染物性质研究

研究了浸没式平板膜-生物反应器冬季运行时的膜污染状况.结果表明,出水COD稳定,但出现了亚硝酸盐积累,总氮的去除不是很理想.凝胶过滤色谱测定结果发现,O段混合液经0.45 靘滤膜过滤的滤液和膜面污染物含有重均分子量千万级以上的大分子物质,而进水中并无此类物质.环境扫描电镜和能谱分析表明,膜面无机污染物的阳离子主要包括Na、Mg、Al、Si、K、Ca和Fe.傅立叶红外光谱分析证明,膜面有机污染物主要是多糖和蛋白质等物质,而且胞外聚合物可能是造成膜面污染的主要物质之一.     

淮北市采煤塌陷区土壤养分状况

研究了淮北市采煤塌陷区内湿地(南湖湿地、东湖湿地)、园林绿地、耕地3种土地利用类型土壤的养分含量情况.结果显示:湿地中受人为干扰强烈的南湖湿地土壤全氮量为1.128g/kg,显著高于园林绿地,与人为干扰弱的东湖湿地和耕地无显著差异;湿地有机质含量南湖为23.781 g/kg,东湖为11.250 g/kg,二者之间无差异...     

饮用水氯化消毒新副产物TCMCD的水解机理

研究了一定温度和pH值条件下2,2,4-三氯-5-甲氧基-环成4-烯-1,3-二酮(TCMCD)的水解机理,结果表明,TCMCD在水中发生不可逆的水解反应,生成2,5-二氯-3-羟基-4-甲氧基-环戊-2,4-二烯酮(DHMCD)和3-氯-2-羟基-4-甲基-5-氧-2,5-二(氢)-呋喃-2-甲酸(CHMDFC)或二者的镜像异构体,CHMDFC继续反应生成3-氯-2-甲氧基-4-酮-戊-2-烯二酸(CMPE),pH值升高,水解速率加快,而温度对高pH值条件下TCMCD的水解影响更大.     

生物强化对MBR系统生物特性及群落结构的影响

采用高效菌强化膜生物反应器对溴氨酸废水进行处理,考察了生物强化前后系统对溴氨酸的降解能力及其内部微生物生理状态变化.并采用核糖体基因间隔序列分析技术(RISA)解析了高效菌投加前后污泥系统的群落变化.实验表明,投菌后在进水负荷增加的条件下,上清液和膜出水的溴氨酸脱色率分别约为50%和65%,相应的COD去除率分别约为25%和50%,和投菌前基本保持一致;TTC-脱氢酶活性和胞外聚合物(EPS)浓度略有波动,但是运行一段时间后即恢复到投菌前水平.群落分析表明高效菌可以在系统中稳定存在,并且不对原菌群结构造成较大影响.     

农村纪念性景园的生态环境保护探讨——以朱德故居纪念园为例

以朱德故居纪念园的环境保护规划为实例，分析了朱德故居纪念园在旅游开发中面临的生态环境问题：旅游基础设施建设的负面影响，旅游活动引起的环境恶化，当地社会经济发展的压力，忽视人文生态保护。提出了针对农村纪念性景园旅游开发中生态环境治理和建设的综合性保护对策。     

黄土高原旱塬地冬小麦水分生产潜力与土壤水分动态的模拟研究

在EPIC模型介绍和模拟精度验证的基础上,利用EPIC模型对黄土高原旱塬地冬小麦水分生产潜力和土壤水分动态进行了中期(12a)和长期(30a)评价定量模拟研究。结果表明:(1)在12a实时气象条件下的模拟时段内,旱塬地小麦水分生产潜力随降水量变化呈现波动性降低趋势,3m土层土壤有效含水量也表现为剧烈波动性和逐渐下降趋势,土壤干燥化趋势明显;(2)在30a模拟气象条件下的模拟时段内,旱塬地小麦水分生产潜力呈现波动性轻微降低趋势,3m土层土壤有效含水量季节性和年际间波动性显著,但土壤干燥化趋势并不明显;(3)综合分析认为,在降水量减少幅度不显著的情况下,旱塬地麦田土壤干燥化只是一种短期现象,不会导致长期性土壤强烈干燥化现象发生,但产量随降水量变化的波动性不可避免。     

生化—光催化氧化工艺处理印染废水中污泥活性研究

从生物处理单元中污泥活性的角度，研究了生物氧化－光催化氧化过程中各相关因素的影响。采用BOD测定仪连续测定了驯化前后污泥耗氧曲线，采用第一段斜率表征污泥呼吸活性。并通过电镜观察驯化过程生物相的状况。实验结果表明，微生物呼吸活性的变化与微观生物相的变化一致，并与处理效果具有良好的相关性。     

四川雅砻江官地水库岩溶渗漏研究

官地水库的库首由雅砻江自身河弯形成了一个近东西向的单薄分水岭,该分水岭南北方向上长仅1 880m,沿南北向展布的石炭系-二叠系碳酸盐岩贯穿了水库内外,构成了潜在的库水外渗通道.笔者在现场地质、水文地质调查和观测资料综合分析的基础上,构建了该地区的水文地质概念模型,运用数值模拟方法对天然和水库正常蓄水条件下的地下水流场特征进行了模拟,通过对不同条件下地下水流场特征的分析研究,认为天然条件下地下水分水岭已经消失,水库正常蓄水条件下存在水库渗漏问题.水库正常蓄水条件下地下水渗流场的模拟结果表明,其水库渗漏量约3 670 m3/d,其中通过平川组上段、马坪组中段和阳新组上段地层渗漏的水量约占总渗漏量的77%,因此防渗的关键是封堵这三套地层.