有机物对紫外光照下亚硝氮生成的影响

通过静态间歇试验,对紫外光照下水中无机氮的转化进行了研究,重点考察了有机物在反应过程中对亚硝氮生成的促进作用,分类比较了不同有机物的作用效果.结果表明:在紫外光照下,氨氮不能转化为亚硝氮,硝氮可以转化为亚硝氮;有机物的投加可以促进亚硝氮的生成;不同有机物对亚硝氮形成的促进作用大小与有机物的还原性有关,还原性愈强,促进作用愈大;有机物促进作用大小的顺序如下:相同碳链醇>醛>酸>酮、官能团愈多促进作用愈大,相同官能团碳链愈长促进作用愈大.     

A Fuzzy Logic Approach to Assess Groundwater Pollution Levels Below Agricultural Fields

A fuzzy logic approach has been developed to assess the groundwater pollution levels below agricultural fields. The data collected for Kumluca Plain of Turkey have been utilized to develop the approach. The plain is known with its intensive agricultural activities, which imply excessive application of fertilizers. The characteristics of the soils and underlying groundwater for this plain were monitored during the years 1999 and 2000. Additionally, an extensive field survey related to the types and yields of crops, fertilizer application and irrigation water was carried out. Both the soil and groundwater have exhibited high levels of nitrogen, phosphorus and salinity with considerable spatial and temporal variations. The pollution level of groundwater at several established stations within the plain were assessed using Fuzzy Logic. Water Pollution Index (WPI) values are calculated by Fuzzy Logic utilizing the most significant groundwater pollutants in the area namely nitrite, nitrate and orthophosphate together with the groundwater vulnerability to pollution. The results of the calculated WPI and the monitoring study have yielded good agreement. WPI indicated high to moderate water pollution levels at Kumluca plain depending on factors such as agricultural age, depth to groundwater, soil characteristics and vulnerability of groundwater to pollution. Fuzzy Logic approach has shown to be a practical, simple and useful tool to assess groundwater pollution levels.     

化学氮肥对蔬菜硝酸盐污染影响的研究

蔬菜是一种容易富集硝酸盐的作物,菜农为了获得高产,而超量施用化学氮肥,致使蔬菜硝酸盐累积量剧增,品质恶化。研究表明：筛选出氯化铵和硫酸铵两种氮肥;施氮剂量每hm²以200kg为临界值;施氮安全始期,以追氮后8天上市为宜;化学氮肥与厩肥、土杂肥配用,能有效控制和降低蔬菜硝酸盐的累积分别达67.4％和45.7％。硝酸盐是亚硝胺的前体物,应减轻其对人体健康的潜在危害,并提高蔬菜品质。     

北京市燕山地区大气颗粒物中NO3－和SO42－浓度变化规律及其与O3

用ＫＢ－１２０型大气颗粒采样器采样,离子色谱法分析其中水溶性无机阴离子组分。结果表明,北京市燕山石油化工区大气颗粒物中和浓度随季节变化显著,夏季和平均浓度分别为９．４０μｇ／ｍ３和２８．２２μｇ／ｍ３;秋季分别为４．１２μｇ／ｍ３和３．８０μｇ／ｍ３。     

甲醇燃料发动机排气中的亚硝酸甲酯和硝酸甲酯的分析

为了测定使用甲醇燃料的发动机排气里的亚硝酸甲酯(MeONO)和硝酸甲酯(MeONO_2)含量,建立了色谱分析方法。本方法的最小检测限MeONO为20ppb,MeONO_2为50ppb。对自制的MeONO和MeONO_2进行了质谱鉴定,并对所制备的一定浓度的样品进行了稳定性考察。应用本方法测定了甲醇机排气中的MeONO含量为5ppm—250ppm,MeONO_2含量为<50ppb。     

土壤中硒酸盐还原作用与硝酸盐脱氮化作用的相关关系

在查明土壤中硒酸盐还原作用与硝酸盐脱氮化作用的相关关系,在不同类型土－水系统中,加入一定量的ＫＮＯ３和ＮａＳｅＯ４溶液,观察ＮＯ＾－３和ＳｅＯ＾２－４的化学形态转变过程。实验结果表明,硒酸盐的还原作用和硝酸盐的脱氮化作用在时空变化上具有一致性。     

Water quality indices appraisal and health risk assessment of nitrate,mercury and lead in water distribution network: A case study of Robat Karim in Tehran,Iran

Groundwater is a basic source of drinking water supply for urban and rural areas. This is especially the case for communities located in arid and semi-arid regions that rely on groundwater for drinking purposes. The present study set out to assess the potential health impacts of water impurities and to investigate the qualitative status of drinking water in Robat Karim rural areas, located in southwest Tehran, Iran. A total of 66 samples were collected from the water distribution network of 11 villages (33 sampling points, on two occasions) during September 2020 and were tested in terms of the most common quality parameters such as pH, mercury (Hg), lead (Pb), copper (Cu), zinc (Zn), chloride (Cl^–), chlorate (ClO₃^–), nitrite (NO₂^–), nitrate (NO₃^–), and flouride (F^–). Multiple methods and indexes including water quality index (WQI), hazard quotient (HQ), and hazard index (HI), were worked out to assess the quality of water and health risk assessment of NO₃^– Pb²⁺ and Hg²⁺. The results revealed that 33% and 90% of sampling sites have significantly high nitrate and total hardness (TH) concentrations, exceeding the maximum permissible limits set by World Health Organization (WHO; 50 and 200 mg/L, respectively). Furthermore, five sampling points exhibited poor WQIs mainly related to NO₃^– and TH. HQ values higher than 1 for nitrate were noticed in most sampling locations. Except for one sampling point, the HQ obtained for Pb²⁺ and Hg²⁺ were below 1 indicating no obvious health hazard. This study represents that children and infants are at higher risk of chronic toxicity by excess NO₃^– intake. The health hazard that is yet imposed on the community by NO₃^– necessitates regular monitoring of drinking water, the use of advanced technologies to purify water or otherwise alternative resources should be proposed.     

基于Fe~0的PRB去除地下水中硝酸盐的模拟研究

由于地下水中硝酸盐污染的普遍性、难去除性和对人体健康的潜在危害性而引起人们的广泛关注。本研究通过柱实验,研究了不同条件(进水pH、砂/Fe0体积比和添加锯末)对基于Fe0的模拟渗透性反应墙(permeable reactivebarrier,PRB)去除地下水中硝酸盐的影响。结果表明,由于黄土的碱性和缓冲作用,进水pH的影响不显著;5~6∶1的砂/Fe0(S/Fe)体积比既可提高铁粉利用率,又有利于硝酸盐的还原并延长PRB的有效期;铁腐蚀产物引起铁粉粘固而导致PRB的渗透性和反应性降低,尤其在反应区的进水口端;虽然酸预处理Fe0有助于硝酸盐的还原,但更容易引起堵塞,而在Fe0体系中加入活性炭不仅可提高硝酸盐的去除率,还可延长PRB的有效期,是一种很好的辅助填料;同时添加锯末和Fe0的生物-化学联合法更有助于硝酸盐还原并提高出水水质,具有很好的应用潜力;不同条件下,出水中的氨和亚硝酸盐的浓度相差较大,但可溶性铁浓度均低于饮用水标准(0.3 mg/L)。Fe0的化学还原和锯末的生物反硝化是硝酸盐去除的主要机理。本研究表明,基于Fe0的PRB用于去除中性或偏碱性地下水中的硝酸盐污染具有很大的潜力。     

纳米铁-微生物耦合体系去除硝酸盐的影响因素研究

采用液相还原法制备出纳米铁粒子,并与自养反硝化细菌耦合,以解决单独使用生物反硝化和纳米铁还原法的不足。本实验在纳米铁-微生物耦合体系可以有效还原硝酸盐的基础上,研究了pH、温度和DO等环境因素对该耦合体系脱氮速率和产物的影响,以期通过优化参数达到最好的脱氮效果。结果表明,该体系在中性条件下能够快速将硝酸盐还原,随pH升高,氨氮比例无显著变化,均在40%左右,但还原速率有所下降;随温度的升高,氨氮比例有所上升,而反应速率明显升高,但该体系在5℃时仍能将硝酸盐完全去除;耦合体系中的DO过高或过低都会导致产物中氨氮比例的增加,0.4 mg/L左右为较适宜DO水平,但对硝酸盐还原速率的影响不大,当DO为0.8 mg/L时,硝酸盐仍可以在8 d内完全去除。因此,该耦合脱氮体系对pH、温度和DO的适应能力较强,有利于实际地下水的原位修复。     

硝酸异辛酯热安定性的实验研究

使用加速量热仪(ARC)研究硝酸异辛酯(EHN)的热分解,得到热分解温度随时间的变化曲线,自放热速率、分解压力随温度的变化曲线以及分解压力随升温速率的变化曲线。分析在绝热条件下硝酸异辛酯的热分解反应动力学和热分解过程,计算表观活化能、指前因子和反应热等参数。根据绝热热分解的起始温度和反应热数据,给出硝酸异辛酯在反应危险度等级中的分类,并计算在75℃时的反应风险指数。