木粉/壳聚糖接枝丙烯酸-丙烯酰胺吸附树脂对二元重金属离子溶液中Pb^2＋的吸附

采用自制木粉/壳聚糖接枝丙烯酸-丙烯酰胺吸附树脂R1、R2、R3对二元金属离子Cu2＋/Pb2＋和Zn2＋/Pb2＋溶液中的吸附性能进行了较系统考察。Pb2＋离子溶液中存在竞争离子Cu2＋、Zn2＋时,随竞争离子浓度增加,3种吸附树脂R1、R2、R3对Pb2＋的吸附量明显下降,而竞争离子吸附量显著增加。二元溶液中各金属离子浓度相同时,3种树脂对竞争离子Cu2＋、Zn2＋的吸附量大于对Pb2＋的吸附量;各溶液中分别加入NaCl及NaNO3、尿素后,对Pb2＋离子的吸附量下降迅速。随吸附树脂用量增加,竞争离子Cu2＋、Zn2＋的吸附量逐渐减小,Pb2＋的吸附量在吸附树脂用量0.10 g/L（Zn2＋/Pb2＋溶液）或0.15 g/L（Cu2＋/Pb2＋溶液）时出现最大值。溶液pH值对树脂吸附性能有显著影响。3.0     

商业SCR烟气脱硝催化剂钙中毒研究

使用2种不同浓度的前驱体溶液(Ca(NO3)2和Ca(CH3COO)2溶液)浸渍新鲜商业SCR(selective catalytic reduction)烟气脱硝催化剂,并对浸渍中毒后催化剂的性能进行了研究。实验结果表明,物理中毒在本研究中占主导位置,化学中毒并不明显。采用离子色谱、氮气吸附-脱附分析、红外光谱分析、X射线衍射分析、扫面电镜分析等多种表征技术对中毒后催化剂进行了表征。结果表明,中毒后催化剂孔结构性质发生了变化,特别是Ca(CH3COO)2溶液浸渍催化剂,内部孔道堵塞较为严重。X射线衍射分析和扫描电镜分析也从另一方面说明了CaCO3的出现及积累导致催化剂脱硝效率降低。此外,催化剂红外光谱分析从表面活性位的角度说明了本研究催化剂化学中毒现象并不明显。     

混合胺MEA＋DETA吸收CO2的影响因素

以MEA为主体,DETA为添加剂,考察1h内,在温度298～338K,压力300～700kPa,混合胺溶液初始浓度（质量分数）4％～20％范围内,MEA＋DETA不同配比的混合吸收剂吸收CO2的特性。获得MEA＋DETA混合胺吸收CO2的最佳吸收条件为：308K、500kPa、总胺质量浓度为20％,MEA与DETA的配比为8：2。     

电动力学作用下多溴联苯醚在土壤中的迁移特性

以4,4′-二溴联苯醚(BDE-15)为研究对象,探讨了电极电压、初始土壤pH、β-环糊精加入量、NaCl加入量等工艺条件对多溴联苯醚在土壤中迁移效果的影响。实验结果表明:在电极电压为5~15V范围内,随着电极电压的升高,土壤中BDE-15的迁移效果增强;初始土壤为酸性时、加入β-环糊精或NaCl后,土壤中BDE-15的迁移效果均增强。本实验选择的最佳工作条件为:电极电压15V,初始土壤pH3,β-环糊精的加入量3g,NaCl加入量5g。     

城市污泥微波干化工艺及干化特性研究

采用微波和烘箱结合及全程烘箱2种方式对城市污泥干化进行对比研究,考察了不同粒径、微波干化预处理、预处理时间及烘箱温度对污泥干燥特性的影响。结果表明,同一温度条件下,微波预处理时间越长,污泥干化速率越快。最优条件下,全程烘箱污泥达到最大干化速率的含水率为77%。微波干燥污泥具有时间短、干燥速率大的特点,微波和烘箱结合对比全程烘箱干化速率高且能耗低。     

混凝法去除城市生活污水中抗性基因

采用聚合氯化铝(PACl)和聚合硫酸铁(PFS)混凝处理城市生活污水(格栅出水和二级出水),考察混凝剂投加量、p H值对污水中抗生素抗性基因(ARGs)的去除率影响。结果表明,随着PACl和PFS投加量的增加,污水中目标基因的去除率先升高后降低;在p H 3~10的范围内,PACl对目标基因的去除效果随p H值的增加而降低,PFS对目标基因的去除随着p H值的增加先升高后降低。对于格栅出水,PACl和PFS的最佳投加量为400 mg/L,基因的去除率分别达到2.33~2.97 log和0.98~2.11 log,对于二级出水,PACl和PFS的最佳投加量分别为200 mg/L和150 mg/L,基因的去除率分别为1.85~2.64log、1.81~2.46 log;混凝去除最优p H条件分别为p H=3(投加PACl)及p H=5~6(投加PFS)。PACl的处理效果优于PFS。     

Effects of alkaline and bioorganic amendments on cadmium,lead, zinc,and nutrient accumulation in brown rice and grain yield in acidic paddy fields contaminated with a mixture of heavy metals

Paddy soils and rice (Oryza sativa L.) contaminated by mixed heavy metals have given rise to great concern. Field experiments were conducted over two cultivation seasons to study the effects of steel slag (SS), fly ash (FA), limestone (LS), bioorganic fertilizer (BF), and the combination of SS and BF (SSBF) on rice grain yield, Cd, Pb, and Zn and nutrient accumulation in brown rice, bioavailability of Cd, Pb, and Zn in soil as well as soil properties (pH and catalase), at two acidic paddy fields contaminated with mixed heavy metals (Cd, Pb, and Zn). Compared to the controls, SS, LS, and SSBF at both low and high additions significantly elevated soil pH over both cultivation seasons. The high treatments of SS and SSBF markedly increased grain yields, the accumulation of P and Ca in brown rice and soil catalase activities in the first cultivation season. The most striking result was from SS application (4.0 t ha^?1) that consistently and significantly reduced the soil bioavailability of Cd, Pb, and Zn by 38.5–91.2 % and the concentrations of Cd and Pb in brown rice by 20.9–50.9 % in the two soils over both cultivation seasons. LS addition (4.0 t ha^?1) also markedly reduced the bioavailable Cd, Pb, and Zn in soil and the Cd concentrations in brown rice. BF remobilized soil Cd and Pb leading to more accumulation of these metals in brown rice. The results showed that steel slag was most effective in the remediation of acidic paddy soils contaminated with mixed heavy metals.     

工业园区水污染防治的问题与对策探讨

随着快速工业化发展,尤其是新建工业项目"入园进区"的推进,工业园区水污染防治越来越成为工业污染防治的重中之重。本文通过从园区准入、适用标准、管理体系等方面对当前工业园区水污染防治中的问题的梳理,对工业园区系统化的工业园区环境行政管理体系进行探讨,研究建议:在园区设立时,应突出区域上资源、能源、环境三元优化与统一,园区企业入园突出环境准入尤其是有利于园区的生态化与循环化改造;在园区企业水污染防治中,应探索园区企业协同治污的差异化排放标准,建立全过程控制水污染防治路线;在环境管理体制创新中,应以排污许可管理为主线,构建园区环境管理相关方协同的系统管理机制。     

Study on preparation method of <Emphasis Type="Italic">Zanthoxylum bungeanum</Emphasis> seeds kernel oil with zero trans-fatty acids

The seed of Zanthoxylum bungeanum (Z. bungeanum) is a by-product of pepper production and rich in unsaturated fatty acid, cellulose, and protein. The seed oil obtained from traditional producing process by squeezing or extracting would be bad quality and could not be used as edible oil. In this paper, a new preparation method of Z. bungeanum seed kernel oil (ZSKO) was developed by comparing the advantages and disadvantages of alkali saponification-cold squeezing, alkali saponification-solvent extraction, and alkali saponification-supercritical fluid extraction with carbon dioxide (SFE-CO₂). The results showed that the alkali saponification-cold squeezing could be the optimal preparation method of ZSKO, which contained the following steps: Z. bungeanum seed was pretreated by alkali saponification under the conditions of adding 10 %NaOH (w/w), solution temperature was 80 °C, and saponification reaction time was 45 min, and pretreated seed was separated by filtering, water washing, and overnight drying at 50 °C, then repeated squeezing was taken until no oil generated at 60 °C with 15 % moisture content, and ZSKO was attained finally using centrifuge. The produced ZSKO contained more than 90 % unsaturated fatty acids and no trans-fatty acids and be testified as a good edible oil with low-value level of acid and peroxide. It was demonstrated that the alkali saponification-cold squeezing process could be scaled up and applied to industrialized production of ZSKO.     

农药行业规划环境影响评价中的风险评价

针对专项工业规划环境影响评价中环境风险评价应用尚不成熟的现状,建立了一套专项工业规划环境风险评价方法,并将其应用到江苏省农药行业总体规划环境影响评价分析中。从环境风险角度分析行业发展方向、强度和布局的合理性,提出规划调整和行业风险管理的建议,以降低事故发生的概率和影响,保障行业的健康稳定发展。通过对江苏省农药行业规划明确的产品结构、产业组织结构、创新体系和技术发展目标等进行风险识别、分析和评价,得出生产和使用光气的定点企业、使用液氯的企业、产生硫化氢的企业的环境风险防护距离（以生产装置为起点）应至少设置为1 000,500,250 m。