不同类型有机物料的有机磷组成及生物有效性

[目的]研究不同有机物料的有机磷组成及其作为磷源施用后的供磷能力,为化肥磷的有机替代奠定理论基础.[方法]供试有机物料包括粪肥类(猪粪、羊粪)、绿肥类(豌豆、苜蓿和绿豆)、秸秆类(小麦秸秆、玉米秸秆和油菜秸秆).分析了8种有机物料的全磷、有机磷含量和C/P值,采用Bowman-Cole方法测定了有机磷中的活性(LOP)...     

不同覆盖材料对耕层土壤温度及玉米出苗的影响

在玉米沟垄集雨种植模式下对沟内覆盖普通地膜、生物降解膜、液体地膜及秸秆的耕层土壤温度及玉米出苗状况进行了观测.两年结果表明,普通地膜和生物降解膜覆盖均能显著提高土壤温度,在5～25 cm耕层平均温度比不覆盖分别增加2.51℃～3.77℃和1.30℃～2.19℃,液体地膜覆盖与对照差异很小,增温值为0.13℃～0.56℃,而秸秆覆盖与不覆盖相比有明显的降温作用,其5～25 cm土层温度比对照降低1.25℃～2.19℃.普通地膜和生物降解膜覆盖分别使玉米提前4 d和3 d出苗,秸秆覆盖使出苗期推迟2 d,液体地膜覆盖与对照的出苗期无差异.     

黄土坡地径流收集膜下自流出滴灌溉系统设计及其生态效益研究

黄土坡地径流收集及膜下自流出滴灌溉技术可有效地收集丰雨期地表径流,就地储存,旱季利用自然高差灌入集水袋,经自流管进行膜下自流灌溉,可有效地提高该区降水利用率,有效地解决黄土高原地形破碎、渠系难以浇灌的难题.造林试验表明,该技术可明显地提高20～70 cm土层含水量,可使刺槐、油松、枣树造林成活率分达到97.7%、91.4%、90.5%,比对照分别提高了57.0%、77.8%和69.4%;结合幼树根基覆膜技术,在栽植第2年即可使刺槐、油松、枣树之主径分别比对照提高26.9%、55.2%和49.6%,树冠投影面积分别比对照提高90.9%、74.2%和51.8%.同时可明显地降低坡地土壤侵蚀模数,在降雨387 mm的情况下,处理区径流发生量及土壤侵蚀模数分别较对照下降38.3%和102.7%.具有良好的生态效益和社会效益,在立地条件差、地形破碎的黄土丘陵沟壑区是一项投资少、效益高、简单易行的抗旱新技术,在我国西北同类型干旱地区有着较好的推广前景.     

基于社会单元制图的徽州古村落景观格局分析——以宏村为例

社会单元制图是通过公众在日常活动,对区域内不同类型空间的使用、感知和经历进行评价,并将评价结果以图谱形式展现出来.社会单元价值图谱不仅能展示不同空间的社会价值,显示公众使用相应空间的尺度、范围和所属级别,还能够呈现公众对于空间使用的偏好与评价.该研究将社会单元图谱引入徽州古村落的保护与规划,可有效地将公众参与引入古村落...     

Design,construction and erection of seawater intake system to establish a biofouling test facility

Large amount of seawater is used in coastal industries, like power generating plants, desalination plants and aquatic culture farms. A similar requirement exists in Department of Atomic Energy campus at Kalpakkam, Tamil Nadu, India. Seawater in large quantities is required for its nuclear power stations and desalination plants erected on the east coast of Bay of Bengal situated in southern part of India. Such seawater systems have biofouling problems. Hence a seawater intake system has been designed, constructed and erected so that virgin seawater will be available for biofouling studies that was proposed to be carried in a once through flow test facility. A major criterion for the test facility was that continuous supply of seawater should be available at the rate of 160 m³/h. To meet this requirement, centrifugal pumps were installed at about 150 m away from the shoreline and connected to an intake structure using 600 m long, 355 mm OD, high density polyethylene pipeline laid on the seabed. Details of site selection, options of construction methods, materials selection, pressure drop calculations, sizing of pipes and anchor blocks, stability of intake pipeline, deployment criteria and project cost and planning have been discussed in this paper.     

太阳能与发电余热复合沼气增温系统设计

为了实现大中型沼气工程在北方寒冷地区的应用推广。该文针对北方寒冷气候特点,以哈尔滨双城市沼气工程为例构建了1套太阳能-发电余热中温厌氧发酵增温系统,阐述了该增温系统的设计原理,并对沼气发酵热负荷、发电机组余热回收利用率、太阳能集热装置热效率等关键参数进行了理论计算。计算得出该沼气工程全年平均每日热量的损失为6659.2 MJ,太阳能-发电余热中温厌氧发酵增温系统全年平均每日集热量为7017.6 MJ。通过对增温效果与该工程的热量损失进行对比,表明12、1、2月份系统需沼气发电机组额外提供372.2、369.4、208.3 kWh电量增温,其余月份系统可以实现发酵工程每日热量损失的补充,保证该工程的稳定运行。在8月份对示范工程的一次发酵罐体进行了增温效果测试,表明该增温系统在28 d左右可将该发酵罐内物料温度提升到中温发酵水平。该文为北方寒冷地区大中型沼气增温保温设备的配套建设提供参考。     

Monitoring of subaqueous depots with active barrier systems for contaminated dredged material using dialysis samplers and DGT probes

Background, Aims and Scope  Disposal of dredged material in subaqueous depots is increasingly considered an economic and ecologically sound option in managing contaminated dredged material. The concept of subaqueous disposals capped with active barrier systems has been developed to minimize this risk of contaminant release. As such a depot represents a permanent installation within a sensitive ecosystem, it requires a thorough monitoring concept. It is the goal of this work to develop such a concept regarding general considerations and results of laboratory and field investigations. Methods  In addition to the state-of-the-art techniques developed for other under-water constructions, this monitoring concept is developed with particular respect to the chemical isolation of the dredged material from the overlying water body. It comprises the use of seepage meters, dialysis samplers, and DGT gel probes for determining the migration of selected target solutes. The capability of the dialysis samplers is demonstrated by comparing field results with model calculations. The appropriateness of DGT probes to assess the impact of humic substances on trace metal speciation and on copper toxicity is demonstrated with the aid of laboratory experiments. Results and Discussion  The experimental results show that, by using dialysis samplers, the temporal changes in concentration-depth-profiles of heavy metals in the pore solution can be monitored. Additionally, the application of DGT probes facilitates the in situ detection of labile species of a metal in the presence of dissolved humic substances, which serves to reflect its toxicity. Conclusions. Three subsequent monitoring phases are distinguished on the basis of both general considerations and the findings from field results: A hydraulic phase that is characterized by compaction and pore water expulsion, a geochemical phase in which the demobilization of pollutants can occur due to substantial changes in the physico-chemical conditions (pH, EH), and a steady-state-phase where pore water flow and geochemical conditions are approaching their minimum. Recommendations and Outlook  The monitoring concept suggested here provides a versatile tool to assess the chemical isolation of subaqueous sediment depots and other contaminated sediment sites. This is of great importance as subaqueous disposal is increasingly considered a future management strategy as space for upland disposal is limited and treatment, in general, proves to be too costly.     

基于物质平衡原理的贝类循环水养殖系统的设计与试验

为恢复和保护濒危淡水贝类资源,该文根据物质平衡原理,以具有代表性的淡水彩虹贝类为研究对象,设计并构建了一套小型的室内淡水彩虹贝循环水养殖系统,该系统由养殖池、生物过滤器、蓄水池、循环水泵、充氧系统和自动投饵装置等环节组成。并在该循环水系统中对钩介幼虫2日龄的彩虹贝幼贝进行了为期60 d的养殖(2011年6月21日到2011年8月20日),整个养殖周期内,彩虹贝幼贝养殖系统环境稳定,水质稳定良好,彩虹贝幼贝壳长日增长量为15.2μm/d,彩虹贝幼贝的最大相对增长率发生在第40天到第50天,其相对生长率为32.4%,和之前池塘流水、跑道式等养殖模式相比,该循环水系统养殖的彩虹贝幼贝获得了更高的生长率。该研究可为淡水贝类的人工繁育和养殖提供参考。     

Yield components,light interception and marker compound accumulation of stevia (Stevia rebaudiana Bertoni) affected by planting material and plant density under western Himalayan conditions

A field experiment was conducted to study the effect of planting material and plant density on stevia (Stevia rebaudiana Bertoni) under western Himalayan conditions during 2011 and 2012. The experiment conducted in a split plot design consisted of two types of planting material (rooted slips and fresh seedlings) in the main plot and five inter- and intra-row spacing in subplots with three replications. Yield attributes and dry leaf biomass yield of stevia were not affected by the type of planting material; however, plant density significantly influenced the yield attributes and leaf and stem dry biomass. Although the wider spacing (60 × 45 cm) gave more leaves, higher leaf area index, higher leaf dry mass per plant as compared to closer spacing, it resulted in lower values of these attributes per unit area. Plants spaced in 30 × 30 cm accumulated 41.2% and 42.8% more total biomass than 60 × 45 cm. Steviol glycoside content did not change due to different planting materials and plant densities; however, closer plant spacing (30 × 30 cm) recorded 114.8% and 70.0% higher steviol glycoside accumulation compared to wider row spacing (60 × 45 cm) in 2011 and 2012, respectively.     

鸡蛋壳膜分选装置相似设计及设计程序开发

鸡蛋壳膜分选装置用来分选分离后的鸡蛋壳膜混合物,目前在实验室中已经完成了壳膜分选装置的研究和设计,达到了很好的分选效果。为了使研究结果具有普遍适用性,便于工厂化应用,缩短设计周期,基于相似理论,以已研制的鸡蛋壳膜分选装置为模型,提出一种鸡蛋壳膜分选装置的相似设计方法。当固体负荷率分别为6、12、18、24 kg/s时,对根据该方法设计的装置进行仿真,同时进行了比例尺为1.2倍的原型试验,验证了相似设计方法的正确性和可行性。运用Visual Basic 6.0对CATIA、AutoCAD进行二次开发,编写程序,可直接获得三维模型、二维图纸及工作参数,提高了鸡蛋壳膜分选装置的设计效率,降低了成本,实现了分选装置的快速设计。