生态系统结构对太湖有机聚集体理化性质的影响

2007年1~12月对太湖4个不同生态类型湖区水体中有机聚集体(organic aggregates,OA)的丰度、有机质含量和营养盐(N、P)含量及其它水环境因子进行了同步监测.结果表明,①OA是太湖水体中营养盐的一个重要来源,其N、P含量分别占水体中TN、TP的16.5%及43.3%;②水体中OA的丰度与水体的富营养化程度密切相关,随着水体富营养化水平的提高和浮游植物生物量的增加,OA丰度及其中有机质的含量也呈现逐渐上升的趋势;③风浪扰动对太湖水体中OA的理化性质影响较大.OA作为营养盐的一个重要载体,可能是浅水湖泊营养盐循环中的一个关键点.     

絮体性能及其工艺调控的研究与进展

絮体结构和强度特征是絮凝过程的重要参数.在简要回顾絮体分形结构研究的基础上,对絮体结构与强度的测定方法、絮体结构形成的影响因素及其工艺调控的研究进展进行了概括性介绍.结合部分实验研究,着重讨论了水力条件对于絮体性能的影响和絮体重组、历史的演化机理,结果表明,逐步增强的水力剪切条件有助于改善絮体的结构和强度.     

絮凝条件对絮体分形结构的影响

在85kg/m³的含沙高浊水中投加阳离子高分子聚合物,借助图像分析技术与沉降技术分析探讨了不同絮凝条件下泥沙絮凝形态学参数:絮体粒径、絮体有效质量密度、絮体自由沉速、浑液面沉速与上清液余浊等的变化规律.利用表征参数“分维”定量控制不同絮凝条件(如搅拌速率、搅拌时间、高分子浓度等)对含沙高浊水絮体结构分形特性的影响.实验证明,不合适的絮凝条件将导致絮体分形构造疏松脆弱,分维值低.絮凝条件合适时(快速絮凝强度为:r₁=300r/min,t₁=10s;慢速絮凝强度:r₂=120r/min,t₂=180s;CP浓度:0.1%),絮体分形结构处于最佳状态.该状态下的絮体具有粒径较大、沉速快、有效质量密度高、粒度分布均匀,分维值最高(D₃=2.16)的特点.而且,由静沉实验测得浑液面沉速高,上清液余浊也低.泥沙絮体分形结构达最佳时的混凝性能、沉降性能与结构密实性均较理想.     

Recycled sand in lime-based mortars

The increasing awareness of the society about safe guarding heritage buildings and at the same time protecting the environment promotes strategies of combining principles of restoration with environmentally friendly materials and techniques. Along these lines, an experimental program was carried out in order to investigate the possibility of producing repair, lime-based mortars used in historic buildings incorporating secondary materials. The alternative material tested was recycled fine aggregates originating from mixed construction and demolition waste. Extensive tests on the raw materials have been performed and mortar mixtures were produced using different binding systems with natural, standard and recycled sand in order to compare their mechanical, physical and microstructure properties. The study reveals the improved behavior of lime mortars, even at early ages, due to the reaction of lime with the Al and Si constituents of the fine recycled sand. The role of the recycled sand was more beneficial in lime mortars rather than the lime–pozzolan or lime–pozzolan–cement mortars as a decrease in their performance was recorded in the latter cases due to the mortars’ structure.     

生物炭对塿土土壤温室气体及土壤理化性质的影响

通过田间小区试验,分别向塿土土壤中添加0、20、40、60、80 t·hm~(-2)的苹果果树枝条生物炭后,分析了生物炭对土壤温度、土壤团聚体、NO_3~--N、NH_4~+-N、微生物量碳以及土壤温室气体排放的影响.结果表明,生物炭可以缓解土壤温度的变化,增加土壤大团聚体的数量,尤其是5 mm、5~2 mm和1~0.5 mm的团聚体数量.与对照相比,随着生物炭施用量的增加,土壤NO_3~--N、NH_4~+-N、微生物量碳分别增加了4.9%~33.9%、9.1%~41.1%和11.8%~38.5%.本研究中生物炭对土壤温室气排放的影响主要表现为:添加生物炭后,土壤CO_2的排放量以及CH_4的吸收汇分别增加了6.73%~23.35%和3.62%~14.17%;施用20 t·hm~(-2)和40 t·hm~(-2)的生物炭降低了土壤N_2O的排放和综合增温潜势(GWP),而当生物炭施用量大于等于60 t·hm~(-2)时反而增加了土壤N_2O的排放和综合增温潜势(GWP).说明生物炭作为一种土壤改良剂和碳减排剂,能够改善土壤质量,提高土壤肥力,提高农田土壤增汇减排的作用,此外,选择合适的生物炭施用量至关重要.     

Experimental study of recycling lightweight concrete with aggregates containing expanded glass

The focus is on the issue of waste management when constructing and recycling lightweight concrete (LWC) with aggregates containing expanded glass. The paper analyses the recycling of concrete from lightweight aggregates, and on the important issue of environmental and waste management. The characteristics of recycling LWC such as density, compressive strength and thermal conductivity are investigated, and compared with normal existing concrete from lightweight aggregates. The results indicate that it is possible to recycle lightweight concrete construction waste. The described method shows great possibilities for increasing the use of construction waste materials from LWC containing expanded glass, in order to benefit from better use of the available capacity from existing construction waste. The characteristics of density, compressive strength and thermal conductivity from the new recycled material were compared with normal existing concrete from lightweight aggregates, such as changes in dependency on the type and parts of waste as well as its new binding components. Thus, a new recycled material has been created with new characteristics of density, compressive strength and thermal conductivity, which is conform to the compressive strength class and rules on heat protection and energy efficiency use in buildings (SI OJ RS No. 42/2002). Laboratory density, compressive strength, and thermal conductivity tests results showed that LWC can be produced by the use of waste LWC with aggregates containing expanded glass. However, the use of waste LWC with aggregates containing expanded glass seems to be necessary for the production of cheaper and environmentally friendly LWC.     

反硝化除磷污泥聚集体内原位除磷活性及有机物浓度的影响

以SBR系统反硝化除磷污泥为对象,利用氧化还原电位、溶解氧和磷酸盐微电极定量研究了污泥聚集体内除磷菌的原位除磷活性及有机物浓度的影响.结果发现,厌氧初期污泥聚集体内最大净体积释磷速率为3.29mg·（cm³·h）^-1,是缺氧初期最大净体积吸磷速率的3倍左右;厌氧末期释磷速率明显降低,最大净体积释磷速率仅为厌氧初期的一半.在缺氧末期,最大净体积吸磷速率降至0.14mg·（cm³·h）^-1,且在1800 μm以下深层区域发生了"二次释磷"现象.随着COD浓度由350 mg·L^-1降至250 mg·L^-1和150 mg·L^-1,反硝化除磷菌的最大净体积释磷速率由3.27 mg·（cm³·h）^-1降至2.44 mg·（cm³·h）^-1和2.01 mg·（cm³·h）^-1,且快速吸磷区域整体向污泥聚集体表层收窄.     

再生水灌溉对土壤团聚体中有机碳、氮和磷的形态及分布的影响

为了解再生水灌溉对砂质紫色土土壤有机碳、氮和磷的形态及其在不同粒级团聚体中分布的影响,比较了四川省彭州市灌溉年限分别为3a和8a的2个再生水灌溉区土壤中不同粒径团聚体中有机碳、氮和磷的分布及化学形态.结果表明,再生水灌溉区土壤有机碳、氮和磷主要分布在>2mm和2mm的大粒径团聚体所占比例下降,向较小粒径转化;>0.25mm团聚体中有机碳和氮含量显著上升,在所有5个粒级的团聚体中磷素含量都有显著提高.再生水灌溉还有利于紫色土重颗粒态有机碳和颗粒态氮的形成,且灌溉时间越长,效果越明显.在除<0.053mm的其它4个粒级团聚体中,再生水灌溉区土壤中交换态磷及钙结合态磷比例上升,而铁铝结合态磷比例下降.综上,再生水灌溉有效的改善了砂质紫色土土壤的有机碳库、氮库和磷库,长期灌溉可以减少人工施肥量.     

焦化厂污染场地表层土壤有机-矿质复合体中多环芳烃的分布

采用湿法物理分级方法将湖南省某焦化厂遗留场地表层土壤分成4种粒级的有机-矿质复合体组分,即粘粒(<2μm)、粉粒(2—20μm)、细砂(20—200μm)和粗砂(>200μm),并研究了美国EPA优先控制的16种多环芳烃(PAHs)在其中的分布特征及土壤不同有机-矿质复合体组分中有机质和矿物质组成的差异对PAHs赋存分布的影响.研究结果表明,不同粒级有机-矿质复合体中PAHs的含量顺序为粗砂>粉粒>细砂>粘粒,低环PAHs(环数≤3)在粘粒中的含量较高,达到56.3%,而高环PAHs(环数≥4)在粉粒、细砂和粗砂中的分布较高含量分别是79.37%、72.7%和71.63%,各粒级矿质复合体中PAHs含量与土壤有机碳有较好的相关性.通过对有机-矿质复合体进行X射线衍射分析发现,场地土壤粘粒和粉粒中粘土矿物含量较高,这也在一定程度上影响了污染物质在其中的分布.     

生物质炭对果园土壤团聚体分布及保水性的影响

向土壤中施用生物质炭是增加碳吸存和改善土壤理化性质的一种重要途径.利用干筛法获得土壤不同级别团聚体,探究了果园施用不同水平、不同性质生物质炭对土壤团聚体分布及其有机碳含量、土壤孔隙度和田间持水量的影响.结果表明,与不施生物质炭的处理(CK)相比,施用生物质炭在0~10 cm土层主要减少了土壤5~8 mm、0.25 mm团聚体含量,增加了1~2 mm、2~5 mm级别团聚体含量,其中1~2 mm团聚体随生物质炭施用量增加而显著增加.施用生物质炭使0~10cm土层土壤团聚体的平均质量直径有所减小,稳定性降低.与CK相比,添加生物质炭显著增加了土壤团聚体中有机碳含量,其中1~2 mm团聚体有机碳提高幅度最大,达70%以上.施用生物质炭显著提高了1 mm级别团聚体的吸湿系数,增加了土壤总孔隙度和田间持水量.