Mathematical model for hydraulically aided electrokinetic remediation of aquifer and removal of nonanionic copper

One of the most cost-effective in situ technologies for soil and groundwater (i.e., aquifer) remediation is electrokinetic remediation. In electrokinetic remediation, electromigration due to electric field is combined with hydromigration due to hydraulic flow by purge water to remove pollutants from aquifers through the pore water. This study aims at investigating theoretically the role of electromigration (as active movement) of pollutants and the role of hydromigration (as passive movement) of pollutants in electrokinetic remediation, and making it clear that the control variables for electrokinetic remediation are the applied voltage and the hydraulic flow rate. These aims are pursued by construction of a mathematical model based on physico-chemical considerations and by model simulations of the electrokinetic remediation applied to the virtual aquifer polluted by heavy metals of copper sulfate. According to numerical simulations with the model: (1) heavy metal (nonanionic copper) is removed from the upstream anode region and accumulated in the downstream cathode region; (2) to carry away the heavy metal outside the aquifer (global removal), hydromigration by purge water flow is essential; and (3) electromigration contributes mainly to the redistribution of heavy metals within the aquifer (local removal and local accumulation).     

长江和长江口高含量无机氮的主要控制因素

根据1998－1998年长江和长江口河水和雨水的现场调查、历史资料以及相关文献，定量分析长江流域无机氮的主要来源和输送调查。估算表明，降水无机氮、农业非点源氮（化肥和土壤流失的氮）和点源污水氮的输入分别占长江口无机氮输出通量的62．3％、18．5％和14．4％。氮的降水输入是长江口高含量无机氮的主要来源，进入长江的降水氮仅仅大约占长江流域全部降水氮的36．8％。降水米要受控于化肥气态损失、化石燃料及动植物过程中释放的物质等。实际上，化肥N的气态损失和农业非点源流失大约占长江流域年化肥N使用量的60％，这是控制长江口高含量无机氮的关键因素。     

Molecular ecological study of <Emphasis Type="Italic">Siganus spinus</Emphasis> and <Emphasis Type="Italic">S. guttatus</Emphasis> from Okinawan waters based on mitochondrial DNA control region sequences

The mitochondrial DNA (mtDNA) control region was sequenced to examine the genetic variability and gene flow of juvenile Siganus spinus and S. guttatus. In total, 461 nucleotide sequences were obtained from 69 specimens of juvenile S. spinus from Okinawa Island and Ishigaki Island, in which 17 variable sites and 22 haplotypes were identified. Haplotype diversity (h) was high (0.9244 in Okinawa and 0.8984 in Ishigaki), whereas nucleotide diversity (π) was low (0.0063 in Okinawa and 0.0059 in Ishigaki). The two populations were not genetically distinct. Siganus guttatus, which do not form large schools at recruitment, in contrast S. spinus, were also analyzed by studying 152 individuals collected off Okinawa Island, Miyako Island, and Ishigaki Island. Of 476 nucleotide sequences, 50 were variable, and 42 haplotypes were identified. Genetic variability values were high (h = 0.8766 and π = 0.0151 in Okinawa; h = 0.9640 and π = 0.0192 in Miyako; h = 0.9161 and π = 0.0199 in Ishigaki). The Okinawa population was genetically isolated from the Miyako and Ishigaki populations. As a result, genetic diversity was high for each of these siganid populations despite their being target species for fisheries; however, the degree of inter-population gene flow was higher for S. spinus than S. guttatus, suggesting that these species exhibit different dispersal strategies.     

云南广南县老寨湾金矿地质特征及找矿标志

广南县老寨湾金矿位于滇、黔、桂“金三角”重要成矿区带上,金矿体矿体呈似层状赋存于断层构造破碎带或层间构造破碎带中,构造控矿明显。矿体围岩均为下泥盆统坡松冲组第一段(D1ps1)硅化石英砂岩;矿床成因属中-低温热液叠加改造型金矿床,断层构造、硅化等矿化蚀变及地球化学异常是重要的找矿标志。     

CaCO3生物矿化的研究进展——有机质的控制作用

生物CaCO₃是自然界分布最广泛的一类生物矿物,其组成除了无机相的CaCO₃外,还含有少量的有机质,包括水可溶(SM)和水不可溶有机质(IM),SM富含阴离子基团,是控制CaCO₃结晶的重要因素之一。通过有机—无机界面分子识别,有机质选择性地与CaCO₃晶体特定方向的面网相互作用,从而对CaCO₃的生长、形貌、多型及结晶学定向等产生明显的控制作用。有机—无机界面的分子识别机制包括静电、晶格几何匹配和立体化学互补等。仿生矿化的研究为进一步深入了解生物矿化的机理及制造高级复合材料提供了新的方法。     

预测细粒酒精模型冰物理和力学参数的实验关系

依据模型冰物理性质控制其力学性质的原则 ,利用能量平衡观点建立了冰内未冻结液体含量同制冰过程中的冰池温度、降温及升温时间、模型冰厚度 (喷雾时间×流量 )的理论关系 ,以其量纲表达式作为预测模型冰物理和力学参数的综合控制指标 ;通过系统测量酒精溶液冰点温度、冰池大厅气温、模型冰温度、冰内未冻液含量、冰密度、冰压缩强度、冰弯曲强度和冰变形模量 ,获得了不同冰点温度模型冰的物理和力学参数同该综合控制指标的实验关系 ;实现了用人为可控制因子定量控制模型冰物理和力学参数的目的     

自动定时编码控制器的研制

本文叙述了笔者研制的“自动定时编码控制器”的工作原理,给出了它的方框图和电路原理图,采用这一技术将旧的非自动化仪表改装成自动定时测量系统,具有成本低,稳定可靠等优点。     

洞庭湖滩地杨树抑螺防病林研究

在滩地杨树抑螺林12年轮伐期内,采取沿时间序列定位观测及以空间换时间的调查研究方法,对滩地杨树抑螺防病林的造林地选择、钉螺种群消长与水因子、林龄及整地措施的相关关系进行了研究,对滩地杨树林的防浪护堤、阻滞水流和泥沙、降低地下水位等生态效应进行了分析,对林下草本植物的物种多样性进行了动态监测和研究,为有螺滩地的综合治理和开发提供依据。     

汉江兴隆水利枢纽下游近坝河段枯水位下降及成因分析

汉江兴隆水利枢纽运行后,坝下游近坝段枯水位较建坝前下降明显,500~800 m³/s流量下,2021年较运行前坝下水位累计下降2.47~2.55 m,对工程安全及效益发挥带来不利影响。基于水文、断面、水下地形等观测资料,对枯水位下降的原因进行深入剖析。结果表明,兴隆水利枢纽的拦沙作用有限,皇庄以上沙量减少是兴隆以下河床冲刷加剧的重要原因,高水调平导致的年内枯水上滩几率下降和航道整治护滩工程是强冲刷过程中“滩淤槽冲”的核心因素。坝下游河段枯水河槽冲刷及汉口最低水位下降是造成兴隆近坝段枯水位下降的直接原因。随机森林算法分析显示,对兴隆坝下水位变化影响最大的因素为兴隆站输沙率的锐减。此外,航道整治工程、河床边界条件对枯水位下降也有十分重要的驱动作用。兴隆坝址及下游河段的河床组成偏细,2012-2022年虽然河床剧烈冲刷,但床沙组成没有出现粗化的现象,预计河床仍将继续冲刷下切,枯水位尚未达到稳定状态。     

单层FPS隔震结构的平移-扭转耦合性能分析

本文推导了FPS(Friction Pendu lum System)隔震结构在平移-扭转耦联情况下的动力反应方程,计算了单层框架结构的地震响应。分析了上部结构偏心对地震反应的影响,对比了结构在不同偏心时的反应并分析了FPS隔震装置的摩擦系数、滑道半径对其抗震性能的影响。