生物絮凝剂的研究与应用

介绍了近年来生物絮凝剂的研究和应用现状,详细总结了几种生物絮凝剂的絮凝机理,并对生物絮凝剂的分类进行了阐述,列举了生物絮凝剂的应用情况,文中还提到了近年来的研究新进展,特别是提到了复合型生物絮凝剂的研制情况,最后文章对未来生物絮凝剂的发展趋势进行了叙述.     

HPLC法分析苯酚超声/H2O2降解机理

利用超声/H2O2协同作用生成氧化能力极强的羟基自由基(.OH)降解苯酚。确定高效液相色谱分析的适宜条件为室温,检测波长277 nm,流动相配比55/45(V甲醇/水),流速为0.5 mL/min,测得各物质的回收率在95.2%100.3%之间,证明高效液相色谱法是测定苯酚及其中间产物的一种有效的分析方法。HPLC法分析苯酚的降解过程首先是由羟基自由基攻击苯环,生成对苯二酚、邻苯二酚,然后继续羟基化,生成顺丁烯二酸,进一步氧化,最终生成二氧化碳和水。     

五大连池水体中氮素分布及规律的初步研究

分析了2009年9月至2010年10月五大连池水体的总氮、氨氮、硝氮3项指标.得出水体氮素的年度变化规律及相关性,即总氮和氨氮、氨态氮与硝态氮两组指标的相关性很高,总氮与硝态氮之间相关性较弱.3种指标都是冬季明显高于其他季节,总氮在春季最低随后升高,氨态氮和硝态氮在春夏秋季均维持较低水平,且结合3者变化规律,夏季和秋季...     

中国废水排放量预测研究

文章在综合分析中国废水排放量影响因素的基础上,结合ARMA、多元线性回归方法构建了中国废水排放量预测模型,并对2013年-2015年中国废水排放量进行了预测,结果表明:2013年-2015年中国废水排放量将分别达到729.98亿吨、768.97亿吨、810.71亿吨;造纸印刷及文教用品制造业、化学工业等行业废水排放量及单位增加值废水排放量均较大,相关部门需对减排的各个过程进行规范和严格的监督。     

Investigation of methods for estimating hand bone dimensions using X-ray hand anthropometric data

This study examined two conversion methods, M1 and M2, to predict finger/phalange bone lengths based on finger/phalange surface lengths. Forty-one Korean college students (25 males and 16 females) were recruited and their finger/phalange surface lengths, bone lengths and grip strengths were measured using a vernier caliper, an X-ray generator and a double-handle force measurement system, respectively. M1 and M2 were defined as formulas able to estimate finger/phalange bone lengths based on one dimension (i.e., surface hand length) and four finger dimensions (surface finger lengths), respectively. As a result of conversion, the estimation errors by M1 presented mean 1.22?mm, which was smaller than those (1.29?mm) by M2. The bone lengths estimated by M1 (mean r?=?0.81) presented higher correlations with the measured bone lengths than those estimated by M2 (0.79). Thus, the M1 method was recommended in the present study, based on conversion simplicity and accuracy.     

由传统工业文明向生态文明的转型势在必行——《生态文明的中国觉醒》述评

《生态文明的中国觉醒》首先说明当今中国出现了环境严重污染的“生态墙”;进而阐述环境保护的严峻形势及建设生态文明的艰巨任务;然后论述我国正处环境问题的激化期,应借鉴世界各大工业国的经验教训,指明经济与生态双赢的方向;最后阐述生态文明建设势在必行。这篇重要文章提出了以下启示：中国发展打“消耗战”的路已经行不通,必须由传统工业文明向生态文明转型;必须坚持又好又快的发展,保持适当速度;提倡“合理消费”;大力实施“创新驱动战略”,为生态文明建设提供强大动力。     

Research on the development and planning of renewable energy in Tibet

With the rapid social and economic development of the Tibet Autonomous Region,the situation in regard to energy supply and demand is increasingly tense.Meanwhile,the development of renewable energy in Tibet has been given considerable practical significance by its peculiar ecological environment.Given the complementarity of renewable energies in Tibet,using the method of factor analysis,we derived four major factors:level of economic development,social development,industrial development,and energy endowment,which help to evaluate development conditions in different regions of Tibet.Treating these four factors equally,we used the hierarchical clustering method to determine the order of regional development.Thus we acquire a three-stage planning project for renewable energy.In the first stage,Lhasa plays a leading role in promoting the development of renewable energy,particularly that based on solar and wind energy.There are two phases in the second stage,the first being to simultaneously develop solar and wind energy in Xigaze and Nyingchi.The second is to develop solar and wind energy in accordance with the time of year in Qamdo,Nagqu,and Ali,with 1.145billion kWh electricity to be generated.The third stage is to develop energy production in Lhoka Prefecture,with 1.369billion kWh electricity to be generated.At the end of the three-stage project,consumption of available electricity will have reached 4.045 billion kwh,with major social and economic benefits.     

浅析化工企业环境风险评价

化工企业的许多产品、中间体、原料大都属于易燃、易爆或有毒的危险品,同时由于风险事故本身的不确定性,项目的环境风险定量分析难度很大。因此,化工企业环境风险评价已经成为中国建设项目环境影响评价工作中的重点及难点。笔者结合工作实践,对化工项目环境风险评价中风险识别、源项分析、后果计算、风险评价及风险管理等方面的评价方法进行了探讨。     

Floating particles with high copper concentration in the sea-surface microlayer

This study sought to clarify whether suspended particles containing high Cu concentrations are present in the sea-surface microlayer (S-SML). For this reason, suspended particles (10–2000 μm) in the S-SML were collected periodically from a ship mooring pond during 2018–2020, and the acid-soluble Cu concentration in the suspended particles was measured as particulate Cu (P-Cu). The highest concentration of P-Cu in the S-SML of the pond was 75 μg L^?1 with a 90th percentile value of 2.5 μg L^?1. This is below P-Cu values reported for the S-SML in North American ports, but 140 times higher than this found in bulk seawater in the Atlantic Ocean. The highest P-Cu concentration in the S-SML of non-organism (abiotic) origin was 17 μg L^?1, and the abiotic P-Cu to P-Cu ratio varied from 0.2 to 100%, likely depending on the quality and quantity of biogenic material in the S-SML samples. It is assumed that the S-SML particles examined here contain high Cu concentrations originating from ship antifouling paints.

     

Variation characteristics of fine particulate matter and its components in diesel vehicle emission plumes

A rapid reaction occurs near the exhaust nozzle when vehicle emissions contact the air. Twenty diesel vehicles were studied using a new multipoint sampling system that is suitable for studying the exhaust plume near the exhaust nozzle. The variation characteristics of fine particle matter (PM_2.5) and its components in diesel vehicle exhaust plumes were analyzed. The PM_2.5 emissions gradually increased with increasing distance from the nozzle in the plume. Elemental carbon emissions remained basically unchanged, organic carbon and total carbon (TC) increased with increasing distance. The concentrations of SO₄^2?, NO₃^? and NH₄⁺ (SNA) directly emitted by the vehicles were very low but increased rapidly in the exhaust plume. The selective catalytic reduction (SCR) reduced 42.7% TC, 40% NO₃^? emissions, but increased 104% SO₄^2? and 36% NH₄⁺ emissions, respectively. In summary, the SCR reduced 29% primary PM_2.5 emissions for the tested diesel vehicles. The NH₄NO₃ particle formation maybe more important in the plume, and there maybe other forms of formation of NH₄⁺ (eg. NH₄Cl). The generation of secondary organic carbon (SOC) plays a leading role in the generation of secondary PM_2.5. The SCR enhanced the formation of SOC and SNA in the plume, but comprehensive analysis shows that the SCR more enhanced the SNA formation in the plume, which is mainly new particles formation process. The inconsistency between secondary organic aerosol (SOA) and primary organic aerosol definitions is one of the important reasons for the difference between SOA simulation and observation.