试谈突发环境污染事件的舆论引导

突发环境污染事件的舆论引导,是政府特别是环保部门应对突发环境污染事件,降低其对环境造成严重污染和破坏,减少对人身和财产造成重大损失的重要举措。本文全面分析了突发环境污染事件舆论引导工作的现实意义、基本要求,并提出建立突发环境污染事件的舆论引导机制。     

碱性过硫酸钾氧化-钼酸铵分光光度法测定水中的总磷及其不确定度的评定

经过消解前加入氢氧化钠和改用聚四氟乙烯消化管等方面的改进,碱性过硫酸钾氧化-钼酸铵分光度法的实际操作更简便,更适用于各类水样的监测。它具有较低的捡出限（O．004mg／L）,较高的精密度（RSD=1．1％）和较好的准确度（测定标样溶液相对误差1．6％,加标回收率为97．2％-102．1％）。测定IERM测量审核样的结果也较好（取得了合格证书）。不确定度的评定依照相关标准的原则进行,并使用残差来量化曲线不碹定度分量,减少了工作量。经评定,改进方法的扩展不确定度为3．2％。     

镇赉风电场地基基础设计研究

结合我国第一本风机基础设计规范及其配套设计软件,对镇赉风电场的风力发电机塔架基础进行方案设计,设计结果经济合理、安全可靠,以期为我国风机基础设计者提供有益的参考。     

上海市城市扩展格局及土壤无机碳分布特征分析

土地利用方式变更引起的土壤碳库变化对全球温室效应、全球碳循环有重大影响。基于1：250000多目标地球化学调查数据,利用RS影像和GIS统计技术研究了上海城市扩展进程中的土壤无机碳空间分布与演化特征。根据上海地区1980、2000．2005年3期遥感影像分析,上海市城区扩张以原市区为中心向周边快速扩展,1980～2005年间,城区面积由193．08km^2增加到1570．52km^2,城市用地面积比例由3．05％迅速上升到24．77％。比较城区,郊区、乡村地区土壤无机碳分布,城区表层土壤无机碳密度为（1．12±0．64）kg／m^2,深层土壤无机碳密度为（1．24±0．40）kg／m^2,表层土壤无机碳积累明显,深层土壤呈现轻度积累,城区土壤无机碳空间分布变异系数降低。比较1980年前建城区、1980～2000年建城区．2000～2005年建城区与郊区土壤无机碳密度分布,城区土壤无机碳分布呈现富集。并且随建城区年限的延长,土壤无机碳积累渐趋显著,城市土壤无机碳分布的空间异质性降低。本项研究提供城市化进程中的土壤无机碳分布演变趋势信息,可为土壤固定碳潜力研究提供数据支持,也为推动中国城市生态系统碳循环研究提供参考。     

一起有机硅工厂燃爆事故的应急监测案例分析

本文介绍了绍兴市袍江工业区"2.20"浙江恒业成有机硅有限公司燃爆事故的应急监测,在监测过程中确立了气、水等环境介质作为监测对象,确定含硅有机物和氯化氢作为主要监测因子,并根据实际情况合理地选择了监测方法,以为事故的应急处理提供借鉴。     

探析循环经济的发展

发展循环经济是人类对经济发展模式反思后的必然选择,是走可持续发展之路的本质要求。文章简要阐述了中国三种经济模式的特点,并分别与生态系统做了比较;分析了中国循环经济存在的不足,提出了发展循环经济的正确途径和解决方法。     

推行清洁生产 促进黑龙江省循环经济发展

当前,黑龙江省＂高污染、高消耗、低产出＂的传统经济发展模式越来越受到资源瓶颈和生态环境的制约,提高资源利用率,减少废弃物的产生成为当前迫切解决的问题。因此寻找促进发展循环经济的方法成为黑龙江省转变经济增长方式的必然选择。清洁生产,就是在确保产品满足人类物质文化需要的前提下,通过不断改进管理和推进技术进步等措施,达到提高资源利用率、减少乃至消除污染物的产生,使其生产过程和产品对人类和环境危害最小的目的。清洁生产是解决经济发展与环境矛盾的重要手段,是生态产业发展的基础,更是实现黑龙江省循环经济发展的重要途径。     

Selective removal of 2,4-dichlorophenoxyacetic acid from water by molecularly-imprinted amino-functionalized silica gel sorbent

A molecularly-imprinted amino-functionalized sorbent for selective removal of 2,4-dichlorophenoxyacetic acid(2,4-D) was prepared by a surface imprinting technique in combination with a sol-gel process.The 2,4-D-imprinted amino-functionalized silica sorbent was characterized by FT-IR,nitrogen adsorption and static adsorption experiments.The selectivity of the sorbent was investigated by a batch competitive binding experiment using an aqueous 2,4-D and 2,4-dichlorophenol(2,4-DCP) mixture or using an aqueous 2...     

Evaluation of phosphorus removal from wastewater by soils in rural areas in China

Low-cost, easy-maintenance and high-e ciency decentralized wastewater treatment technologies are urgently needed in rural areas of China. Processes with high potential for phosphorus removal are of great interest. However, commonly used treatment methods often do not meet the strict criteria for removing phosphorus from rural wastewater. In order to search an economic and simple technology for phosphorus removal from the common bio-technologies e uent, seven soil types collected from di erent rural areas in China were investigated for their ability to remove phosphorus. X-ray di raction (XRD) was used to analyse the mineral structure, and inductively coupled plasma optical emission spectrometer (ICP-OES) was used to analyse the geochemical composition of the soil samples. Three primary minerals – quartz, albite and montmorillonite – were clearly detected. The samples were divided into two soil types, acidic soils and alkaline soils, based on their pH values. The geochemical composition study indicated that a higher percentage of Ca and Mg occurred in alkaline soils (pH > 8) than in acidic soils (pH < 6.5). Adsorption isotherms from batch experiments fitted the Langmuir and Freundlich models well, the maximum P adsorption capacities ranged from 0.256 to 1.598 mg P/g, indicating a high phosphorus removal potential for all of these soils. The P fractions extracted revealed that the sum of NaOH-extracted inorganic P (NaOH-Pi) was the major P component in the acidic soils, and CaCO3-bound phosphorus (Ca-P) in the alkaline soils. Dynamic adsorption simulation showed that these soils have the ability to remove phosphorus from wastewater.     

Concentrations of heavy metals and polycyclic aromatic hydrocarbons in needles of Masson pine (Pinus massoniana L.) growing nearby di erent industrial sources

Emissions from industrial activities pose a serious threat to human health and impose the need for monitoring both inorganic and organic pollutants in industrial areas.We selected Masson pine (Pinus massoniana L.) as potential biomonitor and collected the current (C) and previous year (C+1) needles from three industrial sites dominated by petrochemical, ceramics manufacturing, and iron and steel smelting plants and one remote site to determine heavy metals (Cu, Cd, Pb, Zn, Cr, Ni and Co) and polycyclic aromatic hydrocarbons (PAHs) in unwashed and water-washed needles. Both unwashed and washed C+1 needles showed generally higher concentrations of heavy metals and PAHs than C needles, although the washed needles more clearly spotlighted the accumulation e ect of PAHs over exposure time. Water-washing resulted in a significant decrease in needle PAH concentrations with more significant e ects shown in C needles. By contrast, needle heavy metal concentrations were much less a ected by washing. Although heavy metals and PAHs might di er in adsorption and uptake strategies, their higher concentrations in the needles at the industrial sites indicated conspicuous contamination due to industrial emissions there. The PAH distribution patterns in pine needles accorded with the real types of energy consumption in the study sites and were e ciently used for pinpointing local pollutant sources.