人工湿地植物对重金属铅的抗性

随着含铅废水污染引起的生态安全问题日益加重,以及处理要求的日益严格,含铅废水的处理已成为目前研究和工程实践的重点。由于植物修复技术操作管理方便,成本低廉,处理效率高和选择性强等优点,植物修复已成为处理含铅废水的较有潜力的和行之有效的优化技术。实验参照水体重金属污染现状,模拟设置不同铅浓度的水体,通过盆栽水培实验及实验室分析测试,分别研究了重金属铅对芦苇、香蒲、鸭跖草这3种植物生长的影响、分析各种植物对铅的抗性的表现及重金属在植物体内的积累和分布,为人工湿地植物的选择提供科学依据。     

Shift to continuous operation of an air-cathode microbial fuel cell long-running in fed-batch mode boosts power generation

Microbial fuel cells (MFCs) which are operated in continuous mode are more suitable for practical applications than fed batch ones. The aim of the present study was to characterize an air-cathode MFC operating in continuous mode and to determine the intrinsic properties for suitable performance and scalability. Air-cathode MFCs were constructed from plexiglass with a total working volume of 220 mL. Zirfon® separator used in this MFC had cross section area of 100 cm². The air cathode MFCs were operated in fed-batch mode and then shifted to the continuous mode. To determine the behavior of anode and cathode in long term operation (274 days), their contribution in MFC performance was evaluated over time. Once the active biofilm was formed, power production and substrate consumption rate were significantly higher. The internal resistance increased with the passage of time. After stabilization of biofilm when the MFC was placed in close circuit by connecting an external resistance, the anode-reference and cathode-reference electrode behavior showed that anode potential is near to the bacterial cell inside potential. The maximum open circuit voltage achieved was 623 mV and the highest power and volumetric power density were 38.03 mW/m² and 1296 mW/m³, respectively.     

中试螺旋式自循环厌氧反应器处理安乃近制药废水的稳定性能

以制药废水实验了50m3螺旋式厌氧反应器（SPAC反应器）的稳定性。采用AugmentedDickey—Fuller（ADF）单位根检验表明,螺旋式反应器具有良好的启动和运行稳定性。负荷冲击实验显示,SPAC反应器具有较好的耐浓度冲击能力和耐水力冲击能力,所能耐受的最大浓度冲击强度大于60000（mg·h）／L（进水浓度提升2倍）,所能耐受的最大水力冲击强度为300（m3·h）／d（进水流量提升50％）。SPAC反应器还具备受扰恢复能力。在反应液pH低于5．74,出水浓度、COD去除率和容积COD去除速率（VRR）分别为3500mg／L、22．30％和2．52kg／（m3·d）的工况下,经过30d恢复,出水浓度、COD去除率和VRR的恢复程度达到80％～90％。     

钻井废水的生物强化处理简

从受钻井废水污染的土壤样品中筛选菌株进行生物处理实验,确定7株菌进行菌剂配伍。通过正交实验剔除可能有抑制作用的菌株,并确定菌剂各组成菌株的最佳配比,制成复合微生物菌剂。考察5种添加物对菌剂的影响,结果显示,当硫酸铵的添加量为20 mg/L时降解率为60%,高于其他添加物。生物强化实验结果显示,投加菌剂的反应器对钻井废水的平均降解率为42%,比未投加菌剂的对照实验的平均降解率（16%）高,而且耐冲击负荷性和降解性能稳定性优于对照实验。     

家居环境PM_(2.5)控制用空气滤料

针对目前家居环境净化PM2.5的要求,在现有空气过滤材料的基础上,探讨一种适合于家居环境移动式空气净化装置用低阻、高效和长寿命的过滤材料。采用实验研究的方法对常用玻纤滤纸以及驻极体空气过滤材料进行了过滤特性、电镜、孔径测试的对比实验研究。结果表明,当过滤风速为5 cm/s时,3种驻极体滤料对粒径≤4.5μm的颗粒物的分级过滤效率要高于玻纤滤纸且都在90%以上,其过滤阻力在4.9~6.4 Pa之间,而高效滤纸的过滤阻力在57.8~78.6 Pa之间;在实验风速条件下,驻极体滤料对PM2.5的过滤效率和过滤阻力分别高于和低于高效玻纤滤纸;对驻极体滤料进行蒸馏水洗涤后,其对颗粒物的过滤效率下降,驻极体滤料静电效应具有不稳定特性;电镜测试发现,玻纤滤纸纤维层排布致密,纤维存在断裂现象,而驻极体滤料较为蓬松,无纤维断裂现象;孔径实验表明,驻极体滤料的平均孔径为玻纤滤纸的11.9~14.7倍,驻极体滤料具有良好的透气和容尘特性。     

Heat transfer of vapor chamber with different types of microchannels

Two 40-mm × 35-mm × 1.525-mm micro vapor chambers were fabricated by inductively coupled plasma etching on silicon substrates and tested in this study. One vapor chamber exhibited convergent microchannels, whose widest and narrowest width were 0.3 mm and 0.1 mm, respectively, and the other exhibited discontinuous microchannels having width of 0.3 mm. Those micro vapor chambers that were filled with deionized water in a filling ratio of approximately 48% were tested with various titled angles and input powers. The results showed that the thermal performance of the vapor chamber having discontinuous microchannels was inferior because the spacing between microchannelend and the micropostin both condensing and evaporating sections was too far to return the condensed fluid from condensing section to the evaporating section of the vapor chamber. On the contrary, the convergent microchannel in the other vapor chamber enhanced capillary force, so that the condensed liquid could be successfully forced from the condensing section to the evaporating section even with top heating mode (–90°). The thermal resistance of the vapor chamber having convergent micro channels with top heating mode was 2.08°C/W at 22 W, while the thermal resistance of the vapor chamber with horizontal heating mode was 1.46°C/W at 28 W.     

Growth and photosynthetic responses to copper in wild grapevine

The present study evaluates the tolerance and accumulation potential of Vitis vinifera ssp. sylvestris under moderate and high external Cu levels. A greenhouse experiment was conducted in order to investigate the effects of a range of external Cu concentrations (0–23 mmol L⁻¹) on growth and photosynthetic performance by measuring gas exchange, chlorophyll fluorescence parameters and photosynthetic pigments. We also measured the total copper, nitrogen, phosphorus, sulphur, calcium, magnesium, iron, potassium and sodium concentrations in the plant tissues. All the experimental plants survived even with external Cu concentrations as high as 23 mmol L⁻¹ (1500 mg Cu L⁻¹), although the excess of metal resulted in a biomass reduction of 35%. The effects of Cu on growth were linked to a reduction in net photosynthesis, which may be related to the effect of the high concentration of the metal on photosynthetic electron transport. V. vinifera ssp. sylvestris survived with leaf Cu concentrations as high as 80 mg kg⁻¹ DW and growth parameters were unaffected by leaf tissue concentrations of 35 mg Cu kg⁻¹ DW. The results of our study indicate that plants of V. vinifera ssp. sylvestris from the studied population are more tolerant to Cu than the commercial varieties of grapevine that have been studied in the literature, and could constitute a basis for the genetic improvement of Cu tolerance in grapevine.     

水石流概化水槽试验相似律的探讨

针对水石流粒粗,粘性小的特点,提出了利用水槽进行分段模拟水石流的设想,首次通过几何率解决难度较大的阻力相似问题,改变以往过度加糙的方式,通过变粒径尺度的方法消除了相模型沙级配不连续相似的问题,较好地实现了固体物质级配相停,达到了泥石流的密度相似和输沙相似,通过水槽概化模型实验实例,对本方法进行了验证。     

南亚热带丘陵土壤水分循环及其有效性的研究──Ⅶ.丘陵赤红壤-果树-大气连续体中水流阻力的变化及其分布规律

依据田间实测资料,运用水流的电模拟原理,定且分析了南亚热带丘陵赤红壤-果树（荔枝、芒果和龙眼）-大气连续体中水流阻力各分量的大小、变化规律及其相对重要性．结果表明,连续体中的水流阻力主要分布于从叶气孔腔到大气的扩散过程,荔枝、芒果、龙眼叶-气系统的水流阻力Rla占连续体水流总阻力Rsa的比例分别为93.65％～98.03、95.68％～99.03％、90.13％～98.71％;果树植株体的水流阻力Rp居其次,占Rsa的比例分别为1．97％～6．35％、0.97％～4.32％、0．08％～9．87％：土壤阻力Rs最小,占Rsa的比例小到可忽略不计,故叶-气系统的水流阻力是决定连缤体中水流速率的重要因素．     

VA菌根菌与植物的抗病性

VA菌根菌（VAM菌）与植物土传病害的关系受到广泛的研究。本文从VAM菌对植物抗病性的影响及其可能性机理和相应的农业管理措施等方面进行了介绍和评述,同时提出问题和展望,并强调该方面的研究在可持续发展农业中的重要性。