863 resultados para Atm


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Gas permeability coefficients of a series of aromatic polyetherimides, which were prepared from 1,4-bis(3,4-dicarboxyphenoxy) benzene dianhydride (HQDPA) with various aromatic diamines, to H-2, O-2 and N-2 have been measured under 7 atm and at the temperature range 30-100 degrees C. A significant change in the permeability and permselectivity resulting from the systematic variation in chemical structure of the polyetherimides was found. Among the polyetherimides, that were prepared from phenylenediamine and methyl substituted phenylenediamines, the increase of permeability is accompanied by a decrease of permselectivity. The polyetherimides that were prepared from 3,5-diaminobenzoic esters have lower permselectivity than the others. However, the polyetherimide from 3,5-diaminobenzoic acid possesses much higher permselectivity than the others due to cross-linking. Copyright (C) 1996 Elsevier Science Ltd

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The vapor phase esterification of acetic acid with ethanol and n-butanol catalyzed by SiW12 supported on activated carbon was studied in a flow fixed-bed reactor in the range of 358 to 433 K. The effects of the reaction temperature, liquid hourly space velocity (LHSV) as well as the molar ratio on the catalytic activity have been investigated. The kinetic studies showed that the rate of esterification was dependent on the partial pressures of the reactants and the addition of argon, an inert diluent in the system when the total pressure was kept at 1 atm. Also the alcohol structure has a profound effect on not only the rate of esterification, but also on the mechanism of esterification changing from a dual site mechanism for ethanol to a single site mechanism for n-butanol.

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Permeability coefficients of H-2, O-2, and N2 were measured under 10 atm at the temperature from ambient temperature up to 150 degrees C in a series of structurally different aromatic homo- and copolyimides, which were prepared from 4,4'-oxydianiline (ODA) or 4,4'-methylene dianiline (MDA) with various aromatic dianhydrides. The study shows that the molecular structure of the polyimides strongly influences gas permeability and permselectivity. As a result, the permeability coefficients of the polyimide membranes for each gas vary by over two orders of magnitude. In general, among the polyimide membranes studied, the increase in permeability of polymers is accompanied by the decrease in permselectivity, and the MDA-based polyimide membranes have higher permeability than ODA-based ones. Among the polyimides prepared from bridged dianhydrides, the permeability coefficients to H-2, O-2, and N-2 are progressively increased in the order BPDA < BTDA < ODPA similar to TDPA < DSDA ( SiDA < 6FDA, while H-2/N-2 and O-2/N-2 permselectivity coefficients are progressively decreased in the same order. The copolyimide membranes, which were prepared from 3,3',4,4' biphenyltetracarboxylic dianhydride (BPDA), bis(3,4-dicarboxyphenyl)dimethylsilane dianhydride (SiDA), and ODA, have favorable gas separation properties and are useful for H-2/N-2 separation applications. (C) 1996 John Wiley & Sons, Inc.

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Gas permeability coefficients of a series of aromatic polyetherimides, which were prepared from 1,4-bis(3,4-dicarboxyphenoxy) benzene dianhydride (HQDPA) and various aromatic diamines, to H-2, CO2, O-2, N-2 and CH4 have been measured under 7 atm pressure and over the temperature range 30-150 degrees C. A significant change in permeability and permselectivity, which resulted from a systematic variation in chemical structure of the polyetherimides, was found. Generally, increases in permeability of the polyetherimides are accompanied by decreases in permselectivity. The order of decrease of the permeability coefficients is as follows: HQDPA-IPDA > HQDPA-DDS > HQDPA-MDA > HQDPA-ODA > HQDPA-DABP > HQDPA-BZD. However, HQDPA-DMoBZD and HQDPA-DMoMDA, with bulky methoxy side-groups on the aromatic rings of the diamine residue, display both high permeability coefficients and high permselectivity. The favourable gas separation property, excellent thermal and chemical stability, and high mechanical strength make HQDPA-DMoBZD and HQDPA-DMoMDA promising candidates for membrane-based gas separation applications.

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Gas permeability coefficients of a series of aromatic polyetherimides prepared from 1,4-bis(3,4-dicarboxyphenoxy) benzene dianhydride (HQDPA) and four (methylene dianiline)s with a methyl side group to H-2, CO2, O-2, N-2, and CH4 were measured under 7 atm and within a temperature range from 30 to 150 degrees C. The gas permeabilities and permselectivities of these polymers were compared with those of the HQDPA-based polyetherimides from methylene dianiline (MDA) and isopropylidene dianiline (IPDA). The number and position of the methyl side groups on the benzene rings of the diamine residues strongly affect the gas permeabilities and permselectivities of the HQDPA-based polyetherimides. The gas permeability of the polyetherimide progressively increases with an increase in the number of the methyl side groups. Both the gas permeability and permselectivity of the polyetherimides with methyl side groups are higher than those of HQDPA-MDA. The polyetherimide prepared from 3,3'-dimethyl 4,4'-methylene dianiline (DMMDA1) possesses both higher permeability and permselectivity than the polyetherimides prepared from 2,2'-dimethyl 4,4'-methylene dianiline (DMMDA2). However, two of the polyetherimides prepared 2,2',3,3'-tetramethyl 4,4'-methylene dianiline (TMMDA1) or 2,2', 5,5'-tetramethyl 4,4'-methylene dianiline (TMMDA2) possess almost the same gas permeability and permselectivity.

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The partitioning of Y and Ho between CaCO3 (calcite and aragonite respectively) and seawater was experimentally investigated at 25 degrees C and I atm. Both Y and Ho were observed to be strongly partitioned into the overgrowths of calcite or aragonite. Their partition coefficients, D-Y and D-Ho, were determined to be similar to 520-1400 and similar to 700-1900 in calcite, similar to 1200-2400 and similar to 2400-4300 in aragonite, respectively. Y fractionates from Ho during the coprecipitation with either calcite or aragonite. Within our experimental conditions, the fractionation factor, k = D-Y/D-Ho, was determined to be similar to 0.62-0.77 in calcite and similar to 0.50-0.57 in aragonite, respectively. The aqueous complexation of Y and Ho, which is a function of solution chemistry, probably plays an important role in both the partitioning and the fractionation. Further analyses suggest that the difference in covalency between Y and Ho associated with changes in their coordination environments is the determinant factor to the Y-Ho fractionation in the H2CO3-CaCO3 System.

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本文主要阐述运用稳定加液-反应系统,在实验室环境下模拟海水中方解石和文石形成时微量元素共沉淀现象,主要研究微量元素固-液体系中的迁移、转化和分配。进而在对其定量描述的前提下,研究各靶元素的共沉淀行为对各种反应条件的响应,从中提取出可以用于古海洋研究的替代性指标。所研究的微量元素和部分常量元素包括非金属元素硼和砷、碱土金属元素镁、过渡金属元素(锰、钴、镍、铜、和镉)、铀系元素(铀、钍和铅)以及钇和稀土元素。 本实验首先运用pH测试、高精度滴定分析等手段测定了实验的一些基本参数,如[H+]、碱度和[Ca2+],根据计算获得了各碳酸体系要素,并以此为基础建立了5℃、15℃和25℃及pCO2=0.0015 atm.=0.0030atm.下的人工海水中方解石或文石的沉淀动力学方程。研究表明: 1)在各个条件下,方解石或文石的沉淀速率(R)和其在海水中过饱和度(Ω)存在很好的相关性,可基本表达为Log R=k*Log(Ω-1)+b; 2) pCO2对会严重改变海水中的碳酸钙过饱和度,进而影响相应的沉淀速率,但对方解石或文石的沉淀动力学方程没有明显影响; 3)不同温度下所得的方解石或文石各自的沉淀动力学方程存在明显差异,表明这一过程受热力学元素控制。 在方解石和文石沉淀实验中,通过人为添加各种微量元素对它们的共沉淀行为进行模拟。首先通过直接溶解稀释法结合ICP-MS或采用离线螯合系统前处理结合ICP-MS测定海水、固体样品中各靶元素的浓度。在此基础之上通过换算得出各靶元素在海水([Me]sol’n)和方解石或文石沉淀([XMe]overg)中的含量,然后 计算出单个实验中各靶元素介于碳酸钙沉淀和海水之间的分异系数。 实验中通过改变晶核类型(方解石和文石)、温度、pCO2、碳酸钙过饱和度(2-12,以方解石计)、沉淀速率和靶元素起始浓度等参数,得到在不同反应条件下各靶元素的分异系数。基于分异系数之间的差异,各靶元素在方解石和文石沉淀过程中的共沉淀行为被加以分类和界定。在方解石中Mn、Co、Ni、Pb、Th、Cd、Cu、Mg等表现为相容元素。而在文石中Mn、Co、Ni、Cd等都属不相容元素。B、As、U与其他金属离子不同的是这三种元素是以BO33-、AsO33-、UO22+等基团的形式参予共沉淀的,其中BO33-和AsO33-是替代CO32-而UO22+取代Ca2+。 进一步总结各靶元素和反应条件的关系,初步得出碳酸钙沉淀动力学机制、温度、离子半径、碳酸钙矿物的晶格结构、溶液化学组成及其变化是影响微量元素随方解石和文石共沉淀过程的重要因素,并对各靶元素共沉淀模式进行了探讨。最后我们结合实际工作主要是文献中报导的有孔虫、珊瑚等生物钙质壳体或骨架中各靶元素的结果,对比我们的实验从中提取出了一些可应用于古海洋研究的潜在替代性指标,如: 1) 海水中CO32-浓度代用指标——文石U/Ca、Cd/Ca比,方解石U/Ca比; 2) 海水pH 代用指标——文石B/Ca、As/Ca 比; 3) 氧化还原代用指标——方解石Mn/Ca 比; 4) 海水化学代用指标——方解石Co/Ca 比、U/Ca 比文石Cu/Ca、Pb/Ca 比。 5)稀土元素代用指标——方解石质载体中的YREE/Ca比。 还有几种元素组合也非常具有价值,如Mn-Co-Ni 组合、B-U 组合。此外指出了现有微量元素古海洋指标应用过程中被忽略了的一些关键性因素,如文石Mg/Ca比受到文石沉淀速率的限制、方解石Cd/Ca 比受到沉淀速率和温度的双重影响等。

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本文主要运用稳定加液-反应系统对海水中方解石和文石形成时稀土元素的共沉淀现象进行了分析,研究了稀土元素在固-液体系中的迁移、转化和分配。进而在对其定量描述的前提下,研究了稀土元素共沉淀对各种反应条件的响应,并对共沉淀行为的机制进行了探讨。 本实验首先运用pH测试、高精度滴定分析等手段测定了实验中的一些基本参数,如[H+]、碱度和[Ca2+],根据计算结果获得了各碳酸体系要素,并以此为基础建立了5℃、15℃和25℃及pCO2=0.003atm下海水中方解石或文石的沉淀动力学方程。实验结果表明: 1)在各条件下,方解石或文石的沉淀速率(R)和其在海水中过饱和度(Ω)存在很好的线性相关性,即海相碳酸盐的沉淀动力学方程可以通过下面的基本表达式来表示:LogR=k*Log(Ω-1)+b ; 2)过高的稀土元素浓度会对文石或方解石的沉淀产生抑制作用,进而对共沉淀过程中YREEs的分异和分馏产生一定的影响。相比方解石而言,文石的沉淀动力学过程承受稀土元素的干扰能力更强; 3)不同温度下得到的方解石或文石各自的沉淀动力学方程存在明显的差异,表明这一过程受热力学因素控制。相对于方解石而言,温度对文石的沉淀动力学的影响更为显著。 与前人研究不同的是,本实验中YREEs的浓度设定在非常低的范围内,从而避免了过高浓度YREEs对方解石或文石沉淀动力学过程的干扰。在最终的反应液中,各种实验条件非常接近自然环境。有关稀土元素的共沉淀行为主要得出以下定性或定量化结论: 1)YREEs在随方解石或文石的共沉淀过程中,均发生了强烈的分异作用。在方解石实验中,稀土元素的分异系数分布曲线呈凸状分布;而在文石实验中,稀土元素的分异系数随原子序数的增加逐渐减小,遵循镧系收缩的规律。总的来说,稀土元素,尤其轻稀土元素在文石中的分异作用要强于方解石。 2)无论是方解石还是文石,沉淀速率对YREEs的分异作用都有着明显的影响。在方解石中,YREEs的分异系数随沉淀速率的增加呈一致性递减趋势;而在文石中,其分异系数对文石沉淀速率有着截然不同的响应:轻稀土元素(La, Ce, Nd, Sm, Eu, Gd)的分异系数随文石沉淀速率的增加而下降,而重稀土元素(Ho, Y, Tm, Yb , Lu)的分异系数则随文石沉淀速率的增加呈上升趋势。 3)在方解石中YREEs的分异系数之间存在非常好的相互关系,表明这些元素是以成比例的方式参与共沉淀。整个谱系呈现中等强度的分馏,MREE相对于LREE和HREE要更为富集;在文石中由于沉淀速率的作用不同,只有Y、Ho、Yb、Lu等元素的分异系数之间有较好的相互关系。YREEs出现了差异性的强烈分馏,在新生成沉淀中轻稀土元素相对于重稀土元素强烈富集。 4)YREEs在溶液中和碳酸盐晶体表面的碳酸根配位形式对YREEs在共沉淀过程中的分异作用极为重要,YREEs在碳酸盐晶体表面的吸附是整个谱系发生分馏效应的关键环节。对于文石来讲,晶体中有效YREE离子和Ca离子半价大小之间的相近程度是其分馏效应的关键因素;而对于方解石来说,YREEs在方解石晶格中的安置就是其分馏效应的关键控制因子,但在晶格安置中起到关键作用的是YREEs和方解石中O原子之间离子键M-O的键长,而非离子半径。 5)综合YREEs在方解石中的分异作用和分馏效应,我们认为M2(CO3)3-CaCO3和MNa(CO3)2-CaCO3是最为可能的两种固体溶液形成模式。 最为重要的是,对比我们的实验结果与前人在灰岩、叠层石、微生物成因碳酸盐等方解石质载体中的研究成果,两者之间出现了非常好的一致性。我们认为方解石质载体将是重建古海水中稀土元素相关信息的重要工具。相比之下,文石质载体不适合作为类似的载体。

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Partial pressure of CO2 (pCO(2)) was investigated in the Changjiang (Yangtze River) Estuary, Hangzhou Bay and their adjacent areas during a cruise in August 2004, China. The data show that pCO(2) in surface waters of the studied area was higher than that in the atmosphere with only exception of a patch east of Zhoushan Archipelago. The pCO(2) varied from 168 to 2 264 mu atm, which fell in the low range compared with those of other estuaries in the world. The calculated sea-air CO2 fluxes decreased offshore and varied from -10.0 to 88.1 mmol m(-2) d(-1) in average of 24.4 +/- 16.5 mmol m(-2) d(-1). Although the area studied was estimated only 2 x 10(4) km(2), it emitted (5.9 +/- 4.0) x 10(3) tons of carbon to the atmosphere every day. The estuaries and their plumes must be further studied for better understanding the role of coastal seas playing in the global oceanic carbon cycle.

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The seasonal evolution of dissolved inorganic carbon (DIC) and CO2 air-sea fluxes in the Jiaozhou Bay was investigated by means of a data set from four cruises covering a seasonal cycle during 2003 and 2004. The results revealed that DIC had no obvious seasonal variation, with an average concentration of 2035 mu mol kg(-1) C in surface water. However, the sea surface partial pressure of CO2 changed with the season. pCO(2) was 695 mu atm in July and 317 mu atm in February. Using the gas exchange coefficient calculated with Wanninkhof's model, it was concluded that the Jiaozhou Bay was a source of atmospheric CO, in spring, summer, and autumn, whereas it was a sink in winter. The Jiaozhou Bay released 2.60 x 10(11) mmol C to the atmosphere in spring, 6.18 x 10(11) mmol C in summer, and 3.01 x 10(11) mmol C in autumn, whereas it absorbed 5.32 x 10(10) mmol C from the atmosphere in winter. A total of 1.13 x 10(11) mmol C was released to the atmosphere over one year. The behaviour as a carbon source/sink obviously varied in the different regions of the Jiaozhou Bay. In February, the inner bay was a carbon sink, while the bay mouth and the Outer bay were carbon sources. In June and July, the inner and Outer bay were carbon sources, but the strength was different, increasing from the inner to the outer bay. In November, the inner bay was a carbon source, but the bay Mouth was a carbon sink. The outer bay was a weaker CO2 Source. These changes are controlled by many factors, the most important being temperature and phytoplankton. Water temperature in particular was the main factor controlling the carbon dioxide system and the behaviour of the Jiaozhou Bay as a carbon source/sink. The Jiaozhou Bay is a carbon dioxide source when the water temperature is higher than 6.6 degrees C. Otherwise, it is a carbon sink. Phytoplankton is another controlling factor that may play an important role in behaviour as a carbon source or sink in regions where the source or sink nature is weaker.

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结合目前我国高速公路通信传输网络的建设现状和收费系统数据通信的需求,从 结构、性能等方面分析了适应高速公路通信的3种网络技术SDH、ATM和宽带IP技术,以及这 3 种技术的综合集成模型ATM Over SDH、IP Over ATM、IP Over SDH、IP Over WDM。提出 比 较适合于高速公路收费系统联网的技术方案,并设计了网络通信管理和维护的具体内容 。

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贵州的乌江流域属典型的喀斯特地貌,也是我国严重的酸雨区之一。酸沉降可以导致土壤中盐基离子的流失并释放出具有植物毒性的元素,对植被和生态造成破坏。即使在酸沉降停止后,土壤的退化也会持续,pH值仍可继续降低。因此,加强乌江流域的酸沉降对土壤及生态系统破坏的研究十分必要。乌江中上游地区广泛分布高硫煤和矿床硫化物,煤中的还原态硫化物(主要是黄铁矿)和矿床硫化物经过氧化风化会产生大量的溶解态金属和H2SO4,在污染环境的同时会大大加速碳酸盐岩的化学侵蚀。 本研究在导师刘丛强研究员主持的中国科学院知识创新工程重要方向重大项目(喀斯特地区(贵州乌江流域)物质的水文地球化学循环及其环境效应,批准号:KZCX2-105;乌江流域典型喀斯特土壤-植被生态系统生源要素生物地球化学研究,批准号:KZCX3-SW-140)课题的支持下,选择贵州喀斯特地区的典型河流为研究对象,利用化学质量平衡、同位素地球化学研究手段,探讨了硫酸风化碳酸盐岩对河水化学组成的影响,溶解硫酸盐的来源及硫同位素组成的时空变化,定量计算了丰水期乌江流域硫酸风化碳酸盐岩的侵蚀速率及其对大气CO2释放的影响,并对土壤总硫和硫酸盐的生物地球化学循环进行了同位素示踪研究。获得的主要结论揭示了水-岩作用和人类活动对硫的生物地球化学循环的控制机理,以及硫循环在碳酸盐岩化学风化中的作用,为了解喀斯特地区硫的循环演化及其环境效应提供了重要的基础科学依据。主要结论如下: 硫酸侵蚀碳酸盐岩对河水化学组成的影响 乌江枯、丰水期河水SO42−平均浓度分别为0.65mmol/L和0.48mmol/L,占阴离子总量的25%以上。干流河水SO42−浓度具有从上游到下游逐渐降低的趋势,支流河水SO42−浓度具有明显的区域性差异特征,枯水期上游和下游地区支流的SO42−平均浓度分别为0.80mmol/L和0.26mmol/L,丰水期河水也有类似的特征。SO42−、NO3−、Cl−与Na+浓度比值的相互关系表明河水SO42−具有人为来源。沅江水系河水SO42−含量远低于乌江河水,枯水期平均浓度0.22mmol/L,丰水期平均0.14mmol/L。 乌江流域不同来源H2SO4参与下的碳酸盐岩风化是影响河水化学组成最主要的因素。舞阳河水中的溶质主要来自H2CO3风化白云岩,不存在硫酸风化碳酸盐岩的迹象。清水江河水离子组成则同时受到H2CO3、H2SO4风化碳酸盐岩和H2CO3风化硅酸盐的影响。由此可见,喀斯特地区不同河流的河水化学组成受H2SO4风化碳酸盐岩的影响是不同的。 水-岩作用模拟表明:乌江枯水期河水的CSI在−0.2 ~ 1之间,绝大多数河水处于对CaCO3过饱和状态,丰水期河水的CSI较枯水期平均高0.3,CaCO3全部过饱和。河水PCO2,river相对大气PCO2,atm一般是过饱和的。因此,喀斯特地区河水即具有沉积性又具有向大气释放CO2的趋势。舞阳河水方解石和白云石在枯、丰水期全部过饱和,DSI平均值在两季均远高于CSI,这与舞阳河流域分布着大量的白云岩有关。而清水江大部分河水的方解石和白云石处于不饱和状态。流域不同的地质背景决定了河水中方解石和白云石的饱和状态,在同一地质背景条件下又取决于河水中的CO2分压。 扣除乌江丰水期河水化学组成中H2SO4溶解碳酸盐岩的贡献之后,部分河水由对方解石和白云石过饱和变为不饱和,溶解沉淀性质发生了根本的改变。由此可见,H2SO4风化碳酸盐岩通过改变河水的化学组成,对河水的化学稳定性也存在很大影响。 河水硫同位素地球化学与碳酸盐岩侵蚀 枯水期乌江河水硫同位素δ34S值的变化范围为−15.7‰ 到18.9‰,宽广的δ34S值范围反映了不同河段汇入的SO42−来源于流经具有不同同位素组成特征地质背景的支流。丰水期δ34S值的变化范围小于枯水期,在−11.5‰ 到8.3‰之间。两个季节河水SO42−的δ34S值均随着SO42−浓度的增加而降低。乌江硫酸盐的硫同位素组成具有明显的季节性变化,丰水期干流河水的δ34S值在−6.7‰ ~ −3.9‰之间,平均值较枯水期低3‰。支流河水的硫同位素组成具有明显的区域性差异。舞阳河河水富集34S,清水江河水富集32S,硫同位素组成的季节变化和支流差异远不如乌江明显。 硫同位素示踪显示:乌江上游河水硫酸盐主要来自煤中黄铁矿的氧化、矿床硫化物氧化及雨水;下游河水硫酸盐的硫同位素组成主要介于雨水和蒸发岩端元之间,煤中黄铁矿氧化的贡献较少。不同端元的硫同位素组成表明:丰水期水量增加时,煤中黄铁矿氧化来源的硫酸盐的贡献增加,导致了乌江河水δ34S值的降低。雨水δ34S值季节性变化对河水硫同位素组成的季节性变化的影响是次要的。 乌江河水向贵州省外输出的SO42−通量为170×1010g/a,丰水期占全年SO42−输出总量的72%,上游地区输出的SO42−占年输出总量的80%。煤中黄铁矿风化、雨水、矿床硫化物风化、蒸发岩溶解对丰水期乌江河水SO42-的贡献分别为45%、27%、24%和4%。硫化物氧化产生H2SO4,而后H2SO4侵蚀碳酸盐岩,这是研究区内两个非常重要的硫循环过程。丰水期H2SO4侵蚀碳酸盐岩的速率为35.1t/ (km2•a),约合17.5mm/ka。总的CO2释放通量约为8.1 t/ (km2•a)。通过推导丰水期乌江流域碳酸盐岩侵蚀方程可知,丰水期乌江流域碳酸盐岩的侵蚀有52%是由H2SO4风化造成的。 喀斯特流域土壤硫的生物地球化学 黄壤的总硫含量一般小于0.1%,而石灰土的总硫含量全部大于0.1%, 同一剖面同样深度黄壤总硫含量夏季生长期高于冬季休眠期,但是石灰土则恰恰相反。一般情况下,土壤总硫含量首先与土壤类型有关,其次可能受到植被的影响。即使是同一土壤类型,随着剖面深度的增加总硫含量变化趋势也并不一致。 土壤无机硫酸盐的含量与土壤类型密切相关,黄壤SO42−含量明显高于石灰土。黄壤表层土硫酸盐形态硫占总硫的2.4% ~ 6.4%,随着剖面加深土壤硫酸盐形态硫的含量出现先增加后降低的趋势,最高可占总硫的20%以上,这种现象应该是铁、铝氧化物或氢氧化物对硫酸盐的吸附造成的。同样是黄壤,也可能由于上覆植被的不同造成不同剖面土壤硫酸盐在含量上的差异,或同一剖面不同季节含量上的差异。石灰土硫酸盐形态硫在总硫中的百分含量不超过3%,而且易受淋溶而流失,即使在有植被覆盖的情况下也是如此。 所有样品总硫的δ34S值均为正值且总是大于同层SO42−的δ34S值。随着黄壤剖面的加深δ34S值呈逐渐增加的趋势,有机硫循环过程不断富集34S可能是产生这种现象的原因。 硫同位素组成表明黄壤剖面表层土SO42−应来源于大气沉降。夏季表层土SO42−的δ34S值稍高于冬季,明显高于贵阳夏季大气降水的硫同位素组成,可能是大气总沉降的反映,也可能是不同季节土壤有机硫的矿化水平的不同造成的。黄壤剖面无论冬季还是夏季SO42−均随剖面的加深逐渐富集34S。在剖面上层SO42−的δ34S值与SO42−含量正相关,可能是有机硫矿化生成的SO42−加入的结果。下层土壤硫酸盐δ34S值与含量明显反相关,可能是硫酸盐还原菌发生作用导致了较大的同位素分馏。 从乌江上游至下游,石灰土表层土壤SO42−的硫同位素逐渐富集32S。硫同位素组成表明中、下游石灰土SO42−的来源很可能是大气降水,而上游样品还存在矿山硫的来源。 土壤无机硫酸盐对乌江河水硫酸盐的贡献还不明确,但它不应是乌江河水硫酸盐的主要来源。

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大气中不断增加的温室气体浓度,将对气候、生态环境和人类活动等一系列问题产生重大影响,因此其“源”﹑“汇”效应备受关注。水库,作为人为活动对大气温室气体浓度影响的一个重要方面,也越来越受到国、内外学者的关注。本论文对贵州省喀斯特地区两个富营养水库(红枫湖、百花湖)中主要温室气体(CO2﹑CH4﹑N2O)在不同月份的水体中的分布规律进行研究,并结合两湖具体水环境条件,分析了影响两湖水体中CO2﹑CH4﹑N2O变化的因素,进而阐明两湖水体中CO2﹑CH4﹑N2O产生与释放的机理。本论文得到的结论如下: 1.由于地理位置和气候条件类似,所以两库水体中pCO2变化规律类似:两库表层水中pCO2在6月、8月明显低于大气CO2分压,其他月份则明显高于大气CO2分压。从全年角度来说,红枫湖表层水pCO2为874.2±774.4µatm,百花湖为1131.7±1164.0µatm,都是大气CO2的“源”。两湖pCO2与Chla之间存在的显著负相关,说明浮游植物光合作用与细菌呼吸作用共同影响是两湖pCO2出现季节变化的主要原因。 2.夏季,水体中光合作用产生的有机质发生降解产生CO2对温跃层中CO2的增加起重要作用;沉积物中有机质降解导致静水层中CO2积累,这种作用在秋﹑冬季有所降低,可能与水温有关。而秋冬季,随着温跃层的消失,在水体混合作用下,夏季水体中积累的CO2重新释放到表层水中使其pCO2升高。 3.通过与国内、外其他地区湖泊(水库)表层水中CO2的比较,发现:(1)由于红枫湖与百花湖地处喀斯特山区,陆源输入的有机碳比北部温带地区少,所以表层水中CO2低,对大气CO2释放的贡献较小。(2)由于富营养化现象,两库夏季表层水体成为大气CO2的“汇”。并且,就全年而言,表层水中CO2低于北部温带地区,说明两库光合作用固定的C返回大气的程度可能较低。 4.两湖表层水中CH4浓度的变化规律为:枯水期>丰水期,但在所有采样期间两湖始终是大气CH4的“源”。就全年而言,红枫湖两采样点HF-N和HF-S表层水中CH4浓度分别为0.19±0.09µmol/L和0.48±0.53µmol/L,百花湖两采样点BH-1和BH-2分别为0.32±0.29µmol/L和0.29±0.20µmol/L。两湖表层水中CH4浓度变化可能由以下几方面原因造成:(1)枯水期,水体滞留时间长,水体中的CH4得到积累;(2)丰水期,藻类初级生产造成表层水中DO含量增加,表层水体中CH4被氧化的程度较高;(3)丰水期,径流及降雨的增加也可能造成表层水体中CH4被稀释。 5.两湖湖底水体中CH4浓度的变化规律为:枯水期〈丰水期。就全年而言,HF-N和HF-S点底层水中CH4浓度分别为16.49±26.16µmol/L和8.80±15.30µmol/L,BH-1和BH-2分别为6.03±7.07µmol/L和4.41±7.00µmol/L。浮游植物光合作用产生的有机物及湖底水温﹑含氧状况是影响CH4产生的主要因素。SO42-也对湖底CH4的产生起一定抑制作用。 6.夏季,两湖湖水表层藻类的初级生产与湖水底层沉积物的降解对水体中CH4产生有影响。而热分层和两湖静水层中缺氧环境使得CH4得到积累。而到了秋冬季节,在水体混合作用下这部分CH4在水体中重新分布,并且由于氧化作用加强而被损耗。 7.两湖表层水中N2O的变化规律为:夏季N2O明显低于其他季节,但在所有采样期间内两湖都是大气N2O的“源”。从全年来看,红枫湖HF-N和HF-S两采样点表层水中N2O浓度分别为;46.31±29.65nmol/L,36.93±18.41nmol/L;百花湖BH-1和BH-2两采样点表层水中N2O浓度分别为102.13±79.53nmol/L,99.51±75.77nmol/L。硝化反应是影响两湖表层水中N2O季节变化的主要原因,并受表层水温﹑DO及NO3-等共同影响。 8.通过比较水体中NO3-﹑NH4+及N2O的分布特征,发现:春季,红枫湖水体中以硝化反应为主;夏季,两湖温跃层以上水体中以硝化反应为主,湖底以反硝化作用为主;秋﹑冬季节,虽然有个别采样点出现硝化或反硝化反应,但总体上两湖水体中N2O以水体混合作用为主。

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Direct methanol fuel cells (DMFCs) consisting of multi-layer electrodes provide higher performance than those with the traditional electrode. The new electrode structure includes a hydrophilic thin film and a traditional catalyst layer. A decal transfer method was used to apply the thin film to the Nafion(R) membrane. Results show that the performance of a cell with the hydrophilic thin film is obviously enhanced. A cell with the optimal thin film electrode structure operating at I M CH3OH, 2 atm oxygen and 90degreesC yields a current density of 100 mA/cm(2) at 0.53 V cell voltage. The peak power density is 120 mW/cm(2). The performance stability of a cell in a short-term life operation was also increased when the hydrophilic thin film was employed. (C) 2002 Elsevier Science B.V. All rights reserved.

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In the present investigation, the electrochemically-assisted oxidation of benzene in a H-2-O-2 proton exchange membrane fuel cell (PEMFC) for electricity and phenol cogeneration is studied. Experiments were carried out in a PEMFC electrochemical reactor using Pd black as cathode electrocatalyst at 60 and 80 degrees C, respectively and 1 atm back pressure. Indeed, it was found that the only product detected under the examined experimental conditions was phenol. The online GC product analysis revealed that it is impossible to produce phenol when the fuel cell circuit is open (I = 0) under all the examined experimental conditions. When the fuel cell circuit was closed, however, the phenol yield was found to follow a volcano-type dependence on the cur-rent of the external circuit. It was found that the maximum phenol yield was 0.35% at 100 mA/cm(2) at 80 degrees C. At the same time, the PEMFC performance was also investigated during the phenol generation process. Furthermore, experiments with the rotating ring disc electrode (RRDE) technique showed that the intermediate oxidation product, i.e. H2O2 existed during the oxygen electro-reduction process. The cyclic voltammograms showed that benzene was strongly adsorbed on the Pd surface, leading to a degradation of the PEMFC performance. (c) 2005 Elsevier B.V. All rights reserved.