Effects of physical and chemical characteristics of surface sediments in the formation of shallow lake algae-induced black bloom

Surface sediments are closely related to lake black blooms. The dissolved oxygen （DO） distribution and its penetration depth in surface sediments as well as the migration and transformation of redox sensitive elements such as Fe and S at the sediment-water interface are important factors that could influence the formation of the black bloom. In this study, dredged and undredged sediment cores with different surface properties were used to simulate black blooms in the laboratory. The Micro Profiling System was employed to explore features of the DO and ∑H2S distribution at the sediment-water interface. Physical and chemical characteristics in sediments and pore waters were also analyzed. The results showed that sediment dredging effectively suppressed the black blooms. In the undredged treatment, DO penetration depth was only 50 μm. Fe^2＋ concentrations, ∑H2S concentrations, and ∑H2S production rates were remarkably higher in surface sediments and pore waters compared to control and dredged treatments. Furthermore, depletion of DO and accumulation of Fe^2＋ and ∑H2S in surface sediments and pore waters provided favorable redox environments and necessary material sources for the blooms. The study results proved that physical and chemical characteristics in surface sediments are important factors in the formation of the black bloom, and could provide scientific guidance for emergency treatment and long-term pre-control of black blooms.     

Electrochemical and spectroscopic characteristics of dissolved organic matter in a forest soil profile

Dissolved organic matter （DOM） represents one of the most mobile and reactive organic compounds in ecosystem and plays an important role in the fate and transport of soil organic pollutants, nutrient cycling and more importantly global climate change. Electrochemical methods were first employed to evaluate DOM redox properties, and spectroscopic approaches were utilized to obtain information concerning its composition and structure. DOM was extracted from a forest soil profile with five horizons. Differential pulse voltammetry indicated that there were more redox-active moieties in the DOM from upper horizons than in that from lower horizons. Cyclic voltammetry further showed that these moieties were reversible in electron transfer. Chronoamperometry was employed to quantify the electron transfer capacity of DOM, including electron acceptor capacity and electron donor capacity, both of which decreased sharply with increasing depth. FT-IR, UV-Vis and fluorescence spectra results suggested that DOM from the upper horizons was enriched with aromatic and humic structures while that from the lower horizons was rich in aliphatic carbon, which supported the findings obtained by electrochemical approaches. Electrochemical approaches combined with spectroscopic methods were applied to evaluate the characteristics of DOM extracted along a forest soil profile. The electrochemical properties of DOM, which can be rapidly and simply obtained, provide insight into the migration and transformation of DOM along a soil profile and will aid in better understanding of the biogeochemical role of DOM in natural environments.     

LNAPLs污染物在层状非均质多孔介质中的运移试验研究

文章通过室内试验研究层状非均质多孔介质中轻非水相液体(Light Non-Aqueous Phase Liquid,LNAPL)的运移机制与分布特性。首先,在二维砂槽上进行LNAPL的入渗试验,试验过程中用数码相机进行拍照,把LANPL的扩散过程以图像的形式记录下来;然后,用AutoCAD对图片进行分析处理,得出不同时刻LNAPL的入渗锋面变化图。结果发现,介质结构突变面改变了LNAPL的迁移模式。在LNAPL由中砂进入细砂层后,由于受到毛细作用的增强,其运移速度加快;而由中砂进入粗砂,受粗砂介质阻滞作用增强的影响,LNAPL运移速度变小。当LNAPL由干砂进入湿润砂体时,由于孔隙水浮托力增大,LNAPL先产生纵向运移,随后以横向迁移的形式在地下水位上部聚积。当达到一定厚度后,LNAPL的压头足以克服浮托力,驱替孔隙水进入砂土孔隙。另外,LNAPL的厚度足够大时,方可克服饱水层受到的浮托力,在地下水位上形成LNAPL池,并因孔隙水向周围砂体排泄,LNAPL池周围的水位上升。     

氧化沟半宽导流墙偏心距对水力特性的影响

针对氧化沟弯道水流流态复杂的特点,基于计算流体力学软件(Fluent)对氧化沟弯道设置半宽导流墙前后沟内的水力特性进行了模拟,考察了弯道半宽导流墙的偏心距对氧化沟水力特性的影响,通过灰色关联分析法对不同工况下的模拟结果进行了对比研究,结果发现导流墙偏心距在0²25 mm即约等于氧化沟半宽的1/8时,沟内的水力特性优于无导流墙的情况;偏心距离为225 mm时,过高和过低流速面积均最小,在0.3225 mm即约等于氧化沟半宽的1/8时,沟内的水力特性优于无导流墙的情况;偏心距离为225 mm时,过高和过低流速面积均最小,在0.3⁰.5 m/s内的速度占总体面积的45%,氧化沟内水力特性最佳;导流墙偏心距过大,对氧化沟内水力特性的改善不能起到促进作用,反而会形成较大的低流速区;氧化沟内设置同心半宽弯道导流墙后,同等条件下叶轮消耗的功率将会增加。     

不同来源生物黑炭特性对比及其在农业环保中的应用

生物黑炭是生物有机体转化的稳定性碳物质,作为土壤添加剂近年来在土壤改良、温室气体减排以及受污染环境修复等方面具有广阔的应用前景。虽然近年国际上对生物黑炭的农业应用研究进展很快,但关于不同来源生物黑炭理化性质的调控及其在农业环境保护方面的应用研究还不够深入,未达成统一认识。而我国在该领域的研究才刚刚起步。为推动我国生物黑炭农业应用技术的开展,文章从生物黑炭的来源、不同生物炭理化特性的对比,及其在农业环境保护中的应用等方面进行了综述与探讨,并对生物黑炭的开发和利用存在的潜在问题和今后的研究热点进行了简要的展望,以期为我国发展低碳农业和循环农业提供依据和参考。     

辽宁省某典型500kV变电站电磁污染分布特性研究

为了了解500 kV变电站电磁污染分布特性,利用EFA-300电磁场强分析仪对变电站内500 kV配电区、220 kV配电区、变电站主要设备及变电站周边不同类型环境的工频电场强度与磁感应强度进行检测,从中找出其工频电磁场污染分布特性。共检测92个测点,结果显示电场强度、磁感应强度均在允许范围内。但是,变电站的个别设备附近电场强度接近职业标准限值,做防护措施时需重点关注。     

一种新复合型絮凝剂的制备与混凝应用研究

利用煤矿开采后产生的固体废弃物煤矸石制备一种新复合型絮凝剂聚合氯化铝铁钙(PAFCC)。制备工艺中溶出反应最优化条件为煅烧温度750℃,保温2h;盐酸的酸溶反应时间为3h,酸溶反应中盐酸的用量为0.70g/g;碱化聚合反应的最佳工艺条件:反应温度为60℃,pH值为3.7,反应时间为30min;以高岭土废水水样为处理对象,煤矸石制备的聚合氯化铝铁钙絮凝剂废水浊度去除率高于工业聚合氯化铝PAC的浊度去除率。     

云系对环境灾害关系研究

云系降水是水资源可持续利用的重要来源以及防灾减灾工作的研究对象之一。新疆地区因地理环境特殊部分地域极易形成暴雪。迄今为止,国内针对新疆地区暴雪云特征的研究匮乏。本文利用CloudSat卫星资料对某次新疆地区暴雪云云水柱含量进行初步研究,愿为环境灾害的研究出贡献。     

餐厨垃圾处理技术及其应用探讨

每一天,我们都会制造很多的生活垃圾。因此,本文将日常的餐厨垃圾作为出发点,对于其特性以及相关的处理技术进行了探讨。     

金属丝网隔振器的研制与试验研究

研制了一套适用于某航空机载设备的金属丝网隔振器,包括三个不同型号。通过测试机载设备三个方向的载荷和激励频率,确定了减振器的固有频率和刚度,设计了与机载设备重心参考坐标面非对称的减振器布置形式。减振器的隔振效率为81%。进行了动态特性和耐久性验证试验,结果表明,该套金属丝网隔振器能有效抑制共振峰,具有较好的缓冲和宽频带隔振效果,可以作为航空机载悬置系统的隔振元件。