高活性自由基在烟气脱硫脱硝中的应用

从高活性自由基强氧化性的新视角,分析了几种基于不同自由基反应的燃煤电厂烟气脱硫、脱硝工艺,详细介绍了它们的反应机理、研究现状、应用以及最新进展,并分析了这些技术的优缺点,最后对其发展前景作了展望。     

钯/铝双金属体系对3-氯酚的脱氯降解

研究了钯/铝双金属体系对水相中3-氯酚的催化脱氯降解效果,通过置换沉积制备了钯/铝双金属颗粒,考察了该双金属颗粒的稳定性以及溶液pH和钯负载量对脱氯效果的影响。结果表明,pH在4.0以下的酸性条件,钯负载量在1.43%时,可实现水相中3-氯酚的有效脱氯,反应30 min后0.389 mmol/L的3-氯酚转化率可达99%以上,产物主要为苯酚,而钯/铝颗粒在重复测试中能保持较好的稳定性,这与铝基材表面自发形成的氧化膜有关。钯/铝材料表征的结果表明,钯颗粒高度分散在铝基材表面,并极大地提高了铝基材的表面积,从而有助于后续的脱氯反应。     

生物法降解养殖场臭气中H_2S的反应器启动

畜禽养殖场臭气成分复杂,完全去除较为困难。生物法是目前应用较广泛的脱臭方法,其中能否将生物膜附着在填料上是影响生物法去除恶臭气体效率的重要因素。本实验采用定时定量投加Na2S的方式驯化活性污泥,并选用MLSS浓度和SO42-浓度增量变化2个指标作为污泥驯化成熟的指标,比传统的以MLSS作为污泥驯化成熟的指标更准确。采用循环污泥的挂膜方式,运行2 d后,通入新鲜的空气和H2S气体,2周后反应器启动成功。     

油污土壤中柴油去除的影响因素

以柴油为污染物,通过一维砂柱实验模拟油污土壤中柴油去除过程,从油水界面张力(IFT)角度分析溶液pH、淋滤速度和表面活性物质对除油效果的影响。结果表明,延长油水接触时间、升高或降低蒸馏水pH值均使油水界面张力下降,低淋滤速度下单位孔隙体积水中石油浓度较大,而水溶液pH的变化对除油效果影响不明显。十二烷基硫酸钠(SDS)和乙醇使油水界面张力显著下降,因此表面活性物质的除油效率明显高于蒸馏水,乙醇溶液的除油效率随着体积浓度的增加而升高。从石油释放动力学方程计算的柴油累积释放量看,50%乙醇除油效率最高,8 mmol/L SDS溶液次之,在淋洗初期柴油去除效果最为明显,而在中期和后期除油率增加幅度逐渐减小。     

固定化膜生物反应器处理含抗生素污水

采用细菌固定化技术包埋活性污泥浓缩液,并利用A/O膜生物反应器处理含抗生素生活污水,考察了膜生物反应器在抗生素存在条件下降解有机物及氮素的性能,并对土霉素为代表的抗生素的去除效果进行分析。结果表明,人工模拟抗生素污水的COD、TOC、NH4+-N、TN及土霉素浓度分别为325～413、101.35～206.10、15.51～24.54、15.00～25.30和0.17～0.47 mg/L,水力停留时间为6、12和24 h的条件下,系统的出水平均COD、TOC、NH4+-N和TN分别维持在50、20、1和3 mg/L以下,对土霉素的平均去除率分别达到64%、72%和75%;研究还发现固定化膜生物反应器对进水中氨氮的波动具有良好的抗冲击负荷能力且可以延缓膜污染,正确调整水处理工艺的运行工序可以在提高水处理效率的同时有效降低水环境中的抗生素药物含量。     

饮用水源突发性铬污染去除方法的比较研究

通过对水源水中铬污染的不同去除方法的比较实验及验证实验,研究pH值、FeSO_4、NaHSO_3和活性炭的投加量对铬的去除效果的影响。实验结果表明,当原水中铬的含量为0.5 mg/L时,未调节pH值的条件下,亚硫酸氢钠与活性炭对铬的最高去除率为50%左右;硫酸亚铁还原沉淀在FeSO_4·7H_2O:Cr~(6+)投加比=16:1时,滤后出水中Cr~(6+)的去除率达到96.8%,中试出水中未检出Cr~(6+),出水的总Cr、总Fe等指标完全达到《生活饮用水卫生标准》(GB 5749-2006)的要求。     

Adsorption removal of phosphate from aqueous solution by active red mud

Red mud is the waste of alumina industry and has high TiO_2 and Fe_2O_3 content which are active components for the adsorption of anion pollutants.In this study,the uptake of phosphate by red mud activated by heat treatment and acid-heat treatment was investigated. The factors influencing the adsorption were also investigated.The result showed that the red mud sample treated using acid-heat method at 80℃with 0.25 mol/L HC1 for 2 h achieved the highest phosphate removal.For the heat-activated red mud,the sample heated at 700℃for 2 h preformed better than the other heat treatment.Phosphate removal by the activated red mud was significantly pH dependent,and pH 7 was the optimal pH for phosphate removal.The adsorption fits Langmuir isotherm model well and the maximum adsorption capacities of the acid-heat activated red mud and the heat activated samples were 202.9 mgP/g and 155.2 mgP/g,respectively.     

中央空调净化系统的改进措施

介绍了室内空气净化技术及其特点.针对中央空调系统的特点,提出了将活性炭吸附技术、TiO2光催化技术与静电除尘技术结合的静电活性炭-TiO2光催化复合技术,这一组合技术可能成为今后空调系统空气净化系统重要的改进措施.     

福宁湾活性磷酸盐和无机氮的时空变化特征

根据2002至2003年福宁湾海域的监测资料,研究该海域PO4-P、DIN的时空变化特征、营养程度现状以及本海域的营养盐限制因子.研究表明：PO4-P、DIN含量均呈冬季最高、夏季最低;福宁湾海域季度平均E值为1.48,水体已呈现富营养化状态;N/P〉16并不是福宁湾海域爆发赤潮的必要条件;福宁湾海域N/P值长期保持较高,秋、冬季N/P值较为稳定;PO4-P为福宁湾海域浮游植物生长营养盐限制因子.     

Alum split applications strengthened phosphorus fixation and phosphate sorption in high legacy phosphorus calcareous soil

High phosphorus (P) saturation arising from historic P inputs to protected vegetable fields (PVFs) drives high P mobilisation to waterbodies. Amendment of soils with alum has shown potential in terms of fixing labile P and protecting water quality. The present 15 month pot experiment investigated P stabilisation across single alum application (Alum-1 treatment, 20 g alum/kg soil incorporated into soil before the maize was sown), alum split applications (Alum-4 treatment, 5 g alum/kg soil incorporated into soil before each crop was sown i.e. 4 × 5 g/kg) and soil only treatment (Control). Results showed that the Alum-1 treatment caused the strongest stabilisation of soil labile P after maize plant removal, whereas the P stabilisation effect was gradually weakened due to the transformation of soil non-labile P to labile P and the reduced active Al³⁺ in soil solution. For the Alum-4 treatment, soil labile P decreased gradually with each crop planting and was lower than the Alum-1 treatment at the end of the final crop removal, without any impairment on plant growth. The better P stabilisation at the end of Alum-4 treatment was closely correlated with a progressive supply of Al³⁺ and a gradual decrease of pH, which resulted in higher contents of poorly-crystalline Al, Fe and exchangeable Ca. These aspects were conducive to increasing the soil P stabilisation and phosphate sorption. In terms of management, growers in continuous cropping systems could utilise split alum applications as a strategy to alleviate P losses in high-P enriched calcareous soil.