Ru-Ta/Ti阳极电解深度处理垃圾渗滤液

采用Ru-Ta/Ti三元电极为阳极,以不锈钢电极为阴极对垃圾渗滤液生物处理出水进行了电解处理研究,以COD为控制指标.重点研究了电解电压、电解时间、pH值、曝气量、电解质的添加等因素对电解处理效果的影响.研究结果表明:电压为7 V、处理时间为30 min、pH=9、曝气量为0.04m3/h、添加电解质为MnⅡ的条件下电...     

不同含磷物质对重金属污染土壤-水稻系统中重金属迁移的影响

通过水稻盆栽试验研究磷酸氢二钠(DSP)和羟基磷灰石(HAP)对污染土壤中重金属(Pb、Cd、Zn)向水稻迁移的影响.结果表明,①DSP和HAP都显著提高了土壤pH值和有效磷含量(p0.05),降低了土壤中Pb、Cd、Zn交换态含量,且HAP降低重金属交换态的效果较DSP好.水稻地上部分重金属含量与土壤中重金属交换态含量呈明显正相关关系,说明DSP和HAP通过降低土壤中重金属交换态含量从而达到减少重金属向水稻中迁移的目的.②DSP和HAP明显降低了水稻各器官Pb、Cd的含量,同时使水稻根、壳、糙米中Zn含量降低,但增加了茎叶中Zn的含量.与对照相比,DSP和HAP分别使糙米中Pb、Cd、Zn最大降低了48.72%、22.22%、25.35%和62.82%、66.67%、39.88%,但是糙米中Pb、Cd含量仍未达到食品卫生标准限值(GB2762—2012).③DSP和HAP处理都使水稻根干重逐渐减少,使茎叶、壳、糙米干重先增加后降低,在0.12 g·kg-1时使水稻糙米产量最大.综上,DSP和HAP都能有效控制土壤中Pb、Cd、Zn向水稻中迁移,且HAP效果比DSP好,但磷添加量不宜过高.     

黏土矿物原位修复镉污染稻田及其对土壤氮磷和酶活性的影响

分别以黏土矿物坡缕石和海泡石作为钝化材料,对重金属镉污染的酸性水稻土壤进行原位钝化修复田间示范试验,考察了两种黏土矿物在不同添加剂量下对稻谷产量、糙米镉含量及土壤中有效态镉含量等变化的影响,用以表征修复效果.同时,深入研究了两种黏土矿物对土壤pH、土壤水解氮、有效磷含量及相关酶活性的影响以表征其对土壤环境质量的影响,并对各项理化指标之间的相关性进行分析.结果表明,田间示范条件下两种黏土均提高了土壤pH,降低了土壤中镉的生物有效性,明显降低了糙米中镉含量.其中,经2.00 kg·m-2坡缕石和2.25 kg·m-2海泡石处理后,糙米镉含量最大降幅分别为54.6%和73.5%,分别降低至0.32和0.18 mg·kg-1.土壤过氧化氢酶、脲酶、酸性磷酸酶及蔗糖酶的活性均得到不同程度的提高,表明经钝化修复后土壤中相关代谢反应得到恢复;两种黏土矿物对土壤中水解氮含量无明显影响,但降低了土壤有效磷含量.综合总体表现,两种黏土矿物可被推荐作为镉污染酸性稻田土壤的原位钝化修复材料.     

负载型Mn-Co/TiO2催化剂的制备及其低温NH3选择催化还原NO

采用浸渍法制备了一系列以成型TiO2为载体的Mn-Co/TiO2低温SCR催化剂,研究分析了活性组分担载量、Mn含量、焙烧温度、焙烧时间等制备参数和进口NO浓度、空速、O2体积分数、NH3/N2摩尔比等操作条件对催化剂脱硝反应活性的影响.结果表明:活性组分担载量为30%,Mn/(Mn+Co)摩尔比为80%,在500℃下焙烧6 h得到的Mn-Co/TiO2催化剂具有较高的NO转化率;在进口NO浓度为600×10-6、O2体积分数6%、空速10000 h-1、150℃条件下,NO脱除率接近100%.     

粉煤灰负载Fe2O3脱除气态单质汞的试验研究

在固定床反应器中研究了利用燃煤电厂固废粉煤灰(FA)负载Fe2O3所制备的Fe2O3/FA催化剂对气态Hg0的脱除情况,发现Fe2O3/FA具有较高的脱除Hg0的能力.同时,考察了Fe2O3负载量、温度、空速、Hg0浓度、烟气成分等对Fe2O3/FA脱除Hg0的影响.结果表明,Fe2O3/FA对Hg0的脱除能力随Fe2O3负载量(1%~10%)的增加和温度(120~200℃)的升高而增强;Fe2O3/FA在较低的空速和Hg0浓度条件下表现出了更高的脱除Hg0的活性;HCl和O2促进了Fe2O3/FA对Hg0的脱除,而SO2和H2O抑制了Fe2O3/FA对Hg0的脱除.逐级化学提取实验结果证实,Fe2O3将Hg0氧化为Hg2+的化合物并吸附在FA上,这是Fe2O3/FA具有较高的脱除Hg0能力的原因.     

EM菌处理垃圾渗滤液的微生物生态学及机理分析研究

通过DNA提取,PCR扩增和DGGE分离,用BLAST程序进行相似性比较分析体系中微生物群落多样性。所有序列与数据库中16S rDNA序列的相似性在94%~100%之间。从整个挂膜过程考虑,挂膜时间应在8天左右。渗滤液中污染物的去除与投加EM有很大的关系,但是渗滤液中原始菌种的贡献同样不可忽视。投加EM菌剂促进了渗滤液中群落结构演替和功能优化,并最终通过EM菌剂和渗滤液中原始菌群的共同作用实现渗滤液处理系统效能提高和完善。     

三峡库区典型消落带土壤微生物生物量碳、氮的变化特征及其影响因素探讨

本文以三峡库区王家沟一典型消落带为研究对象,选择180、175、165和155 m这4个高程以探讨水位变化对土壤微生物生物量碳(SMBC)和微生物生物量氮(SMBN)的影响.其中,175、165和155m高程坐落在消落带内,分别表现为短、中和长期淹水,180 m高程作为对照,为永不淹水的陆地.土壤样品的采集深度为0~20 cm,每周采集一次.结果表明,180 m高程处土壤有机碳(SOC)和全氮(TN)均无明显的季节变化,而175 m高程处SOC和TN季节变化明显,表现为春夏季高于秋冬季;各高程上的SMBC和SMBN及其分配比例呈现出秋高夏低的季节变化形态,表明消落带夏季高温低湿的土壤环境限制了微生物活性及土壤有机碳氮的周转速率.数据分析表明,与180 m高程相比,消落带上的175 m和165 m高程SOC、TN、SMBC及微生物商、SMBN及其分配比例均得到不同程度的升高,而155 m高程除了SMBN及其分配比例与对照无显著差异外,其他指标均显著低于对照,表明与未淹水对照点相比较,中短期淹水有利于提高消落带土壤碳氮含量及周转速率和微生物生物量,而长期受到江水淹没胁迫的土壤则会抑制土壤碳氮以及SMBC含量,并降低SOC的周转速率.相关分析表明,SMBC和SMBN均与地下5 cm处温度和p H呈极显著负相关,说明地下5cm处的温度以及p H对土壤微生物生物量有强烈的影响.     

三峡库区水质和水龄数值模拟研究

三峡水库是我国重要的生态屏障和水资源战略储备库,保护水库的水质安全对于国家经济发展和社会稳定具有重要战略意义.本文基于EFDC模型模拟了2010-2014年三峡库区及主要支流的水动力水质过程,重点研究上游来水和重点支流对库区水质的影响及水龄变化特征,结果表明:①模型可定量研究重点支流输入对库区水质的影响,17条支流中仅...     

事故车辆影响下的城市三车道道路交通流仿真

为探究事故车辆对城市三车道道路交通影响机制,首先,分析考虑事故车辆的城市三车道道路交通流特征;然后,构建左车道优先且考虑主动抢道和被动抢道行为的元胞自动机交通流模型;最后;研究事故持续时间td变化时事故车辆分别位于M道和R道的城市道路交通流演化.结果 表明:事故车辆会形成交通瓶颈,呈现上游车辆聚集下游车辆稀疏的时空特征...     

Diffusion pollution from livestock and poultry rearing in the Yangtze Delta,China

BACKGROUND: The Yangtze Delta is one of the most developed regions in China and includes Shanghai, eight cities in Jiangsu province and eight cities in Zhejiang province. Meat consumption in this region has increased with economic growth, and most of the consumed meat is produced locally. The water quality of surface waters has deteriorated in recent years. An example was the huge blue-green algae bloom in Tai Lake in late May 2007, which affected millions of people's daily drinking water. However, animal husbandry is considered to be one of the main pollution sources. METHODS: Pollutants (NH3-N, total phosphorus (TP), and total nitrogen (TN)) excreted by livestock and poultry, and the resultant COD (chemical oxygen demand) and BOD (biochemical oxygen demand), were estimated using two different methods based on different data sets. RESULTS: The number of livestock and poultry has remained stable in the Yangtze Delta over the four years from 1999 to 2002, with the average number of pigs, cattle, sheep and poultry being 21.1 M, 0.4 M, 7.7 M and 597.6 M, respectively. Pollutants in livestock and poultry excreta estimated by Method I were: 0.12 Mt NH3-N, 0.11 Mt TP and 0.29 Mt TN, resulting in COD and BOD of 1.34 Mt and 1.30 Mt, respectively, while the estimations based on Method II were: 0.18 Mt NH3-N, 0.15 Mt TP and 0.40 Mt TN, resulting in COD and BOD of 1.95 Mt and 1.80 Mt, respectively. DISCUSSION: Pollutants excreted annually by livestock and poultry in the Yangtze Delta are estimated to be: 0.17 Mt NH3-N, 0.16 Mt TP and 0.42 Mt TN, giving rise to a COD of 1.86 Mt and a BOD of 1.72 Mt. Approximately 25% of this pollution was estimated to enter water bodies, which means that the annual pollutant load is 43,700 t NH3-N, 39,400 tTP, 104,600t TN with a COD of 465,000 tand a BOD of 430,100 t. Pollutants from animal husbandry were similar in magnitude to those from industrial wastewater. Pigs produced the most pollution, followed by poultry, cattle and sheep. The pollution load from animal husbandry in the Yangtze Delta is about twice the average level of the whole of China. CONCLUSIONS: Domestic wastewater was the main pollution source in the Yangtze Delta, followed by pollution from raising livestock and poultry and from industrial wastewater. The pollution load in Shanghai and Jiaxing were the greatest, followed by 7 cities of Jiangsu province (except Suzhou) and other cities of Zhejiang province and Suzhou. Pigs and poultry produced about 90% of the total pollutants from animal husbandry. RECOMMENDATIONS AND PERSPECTIVES: The local governments, especially in Shanghai and Jiaxing, should focus their attention on the pollution produced by livestock and poulrry. Controlling pollution from pigs and poultry will have the greatest impact in this region. Control of pollution will be facilitated by the development of large-scale livestock and poultry farming units and a shift away from small scale husbandry.