集合经验模态分解在长江中下游梅雨变化多尺度分析中的应用

基于长江中下游流域5个梅雨监测站1961~2012年的日数据,利用集合经验模态分解（EEMD）方法,对研究期内梅雨时间序列进行多尺度的分析,探讨其在不同时间尺度上的振荡模态结构特征。结果表明：近50多年来,长江中下游梅雨变化呈现出显著的年际和年代际尺度振荡特征,在年际尺度上表现出准3 a和6 a的周期变化,而在年代际尺度上显示准13 a和24 a的周期变化;各分量方差〖JP2〗贡献率显示,年际振荡在梅雨长期变化中占据主导地位;自1961年以来,EEMD分解的梅雨长期变化趋势表现出先增加后减少的倒“U”型特征,其中1961~1985年呈上升趋势,1985~2012年呈下降趋势,尤其是在2000年之后的下降趋势最为明显。由此可以看出,EEMD能够有效地揭示梅雨长期序列在不同时间尺度上的变化规律,可用于诊断非线性、非平稳性信号变化的复杂性特征     

中国省际碳排放效率的空间计量

本文基于至强有效前沿的最小距离法测算了我国1998-2011年的省际CO2排放效率,这种方法的优点是效率达到生产前沿后在投入或产出方面所做出的改动最小。然后在此基础上分析了我国省际碳排放效率的区域差异性以及空间相关性,最后运用1998-2011年我国30个省份的面板数据,建立空间面板数据模型,对我国碳排放效率的影响因素进行了实证研究。研究结果表明:样本期内,我国省际碳排放效率表现出较大的省际差异性,东部沿海省份的平均碳排放效率显著高于内陆省份。分地区看,东部地区的碳排放效率走势相对平稳,全国及中西部地区的碳排放效率则呈现出"U"型曲线的走势,并且东部地区的碳排放效率明显要高于中西部地区;空间自相关Moran’s I检验显示,省际碳排放效率在空间上存在着显著的空间自相关性,具有明显的集群趋势,而空间LISA图则表明省际碳排放效率不仅具有空间依赖性的特征,同时也有空间异质性的表现;经济规模、工业结构和能源消费结构对碳排放效率造成了较大的负面影响,对外开放、企业所有制结构以及政府干预对碳排放效率有正向影响,而产业结构对碳排放效率的影响则不显著。因此,对于将来中国提高碳排放效率工作的重点应该是实现经济增长模式由粗放型向集约型的转变,着重调整工业结构和能源消费结构,同时进一步提升对外开放的质量,加强政府的碳减排工作力度。     

Review of the application of quantum dots in the heavy-metal detection

Heavy-metal contamination is a major concern, as excessive heavy metals produce environmental pollution, and the cumulative effects of heavy metals in vivo pose a major threat to human health. There is an urgent need for a rapid, sensitive, and efficient method for detecting heavy metals. Quantum dots (QDs) are in the category of semiconductor nanocrystals whose radii are less than or close to the exciton Bohr radius. QDs possess a potential in the biological and medical fields to function as a new type of fluorescent marker, because of their unique and tunable photophysical properties, which include broad excitation spectrum, narrow emission spectrum, tunable emission wavelengths, and negligible photobleaching. In recent years, QDs made significant progress in quantitative analysis by providing a new approach for determination of chemical content analysis. The aim of this study was to review the research progress of QD detection of heavy metals in water and consider the challenges and future outlook for QD-based sensors for heavy-metal ions.     

Dosing low-level ferrous iron in coagulation enhances the removal of micropollutants, chlorite and chlorate during advanced water treatment

Drinking water utilities are interested in upgrading their treatment facilities to enhance micropollutant removal and byproduct control. Pre-oxidation by chlorine dioxide (ClO₂) followed by coagulation-flocculation-sedimentation and advanced oxidation processes (AOPs) is one of the promising solutions. However, the chlorite (ClO₂^–) formed from the ClO₂ pre-oxidation stage cannot be removed by the conventional coagulation process using aluminum sulfate. ClO₂^– negatively affects the post-UV/chlorine process due to its strong radical scavenging effect, and it also enhances the formation of chlorate (ClO₃^–). In this study, dosing micromolar-level ferrous iron (Fe(II)) into aluminum-based coagulants was proposed to eliminate the ClO₂^– generated from ClO₂ pre-oxidation and benefit the post-UV/chlorine process in radical production and ClO₃^– reduction. Results showed that the addition of 52.1-µmol/L FeSO₄ effectively eliminated the ClO₂^– generated from the pre-oxidation using 1.0 mg/L (14.8 µmol/L) of ClO₂. Reduction of ClO₂^– increased the degradation rate constant of a model micropollutant (carbamazepine) by 55.0% in the post-UV/chlorine process. The enhanced degradation was verified to be attributed to the increased steady-state concentrations of HO^· and ClO^· by Fe(II) addition. Moreover, Fe(II) addition also decreased the ClO₃^– formation by 53.8% in the UV/chlorine process and its impact on the formation of chloro-organic byproducts was rather minor. The findings demonstrated a promising strategy to improve the drinking water quality and safety by adding low-level Fe(II) in coagulation in an advanced drinking water treatment train.     

GSM移动通信基站电磁辐射环境影响分析

本文阐述了电磁辐射的相关理论、电磁辐射环境的评价标准以及基站的工作原理,对电磁环境进行了理论预测,对不同的天线增益下的电磁辐射功率密度值进行了计算,得到了在天线增益15dBi、17dBi和18dBi三种情况下与天线不同直线距离的预测点的功率密度预测值,并对功率密度预测值进行了分析。     

铁合金电炉烟尘的性质与低温固结研究

本文研究了硅铁电炉布袋除尘收集的烟尘性能，烟尘低温固结球团的性能和工艺方法。研究结果表明，硅铁电炉烟尘中ＳｉＯ２ 约占９０ － ９５ ％ ，其它组分含量较低，有利于进行回收利用。烟尘密度小、粒度细、表面活性差、成球性能差。采用添加粘结剂进行自然养护和低温固结处理，均能获得强度较好的固结球团，能够加入铁合金炉回收利用。     

聚合氯化铝与三氯化铁混凝剂在常规水处理中的运用

通过聚合氯化铅与三氯化铁在常规水处理的生产性实验，从经济成本、水质指标和实际使用存在的问题对其进行分析比较，并比较了两种混凝剂在常规水处理中的优缺点。     

产业园区规划环境影响评价工作重点及对策研究——以峨眉山市其亚绿色铝业产业园规划为例

产业园区规划环境影响评价旨在从源头预防或控制产业园区的环境污染和生态破坏,实现规划实施的经济、社会与环境效益之间以及当前利益与长远利益之间的相互协调。本文以峨眉山市其亚绿色铝业产业园为例,探讨规划环境影响评价工作重点,以此寻求工作思路和对策。     

邻菲罗啉对蒙脱石吸附镍离子性能影响

利用镍离子能与邻菲罗啉反应生成螯合物的性质,研究了加与未加邻菲罗啉条件下,蒙脱石对金属镍离子的吸附行为,考察了镍离子浓度、吸附时间、温度和溶液pH值等因素对吸附性能的影响.结果表明:加入邻菲罗啉后,蒙脱石对镍的螯合离子的吸附量明显增大;吸附平衡时间约为120min;蒙脱石对[Ni(phen)n]2+的吸附性基本不受pH值的影响.动力学研究表明该吸附过程符合准二级反应动力学模型,吸附量随温度升高而增大.二级动力学参数证明加入邻菲罗啉可显著提高蒙脱石对Ni2+的吸附性.蒙脱石对简单Ni2+的吸附符合Langmuir的单层吸附等温式;而蒙脱石对镍的螯合离子的吸附则符合Freundlich等温式.蒙脱石对Ni2+和[Ni(phen)n]2+的吸附均为自发、吸热和更无序的;XRD及FTIR研究表明,蒙脱石对[Ni(phen)n]2+的吸附以层间的物理吸附为主.