黄土高原南部农田水分条件及其产量效应

黄土高原南部土层深厚疏松，质地中壤，土壤水分性质优良，作物具有良好的水分生态环境。对农田水分条件及其产量效应进行了定量评价，结果表明：东部是进塬农田水分亏缺率和减产率为３０％左右，西部旱塬为１０％在右。同时还对旱作水分产量潜势进行了估算，表明：在目前生产力条件下冬小麦旱作水分产量潜势为５３３０－６３００ｋｇ／ｈｍ＾２，春玉米为７７００－９００００ｋｇ／ｈｍ＾２。此外，水肥产量铲庆的研究指出，目前水     

退耕对滇池湖滨土壤理化性质与无机磷分布的影响

[目的]明晰退耕对滇池湖滨土壤理化性质和土壤磷素形态分布的影响,进而评价退耕的土壤恢复效应和环境效应。[方法]采用空间代替时间的研究方法,对比研究滇池湖滨缓冲带和设施农田剖面土壤理化性质以及无机磷剖面分布特征,并且以滇池湖滨3个区域(牛恋、海埂、兴隆)相同退耕方式为对照进行研究。[结果]退耕3a后,牛恋缓冲带浅表地下水埋深明显变浅,土壤有机碳和全氮含量明显增加,土壤全磷,Olsen-P,Al-P和Fe-P含量均明显降低,O-P含量明显增加。但是浅表地下水埋深较深的海埂缓冲带土壤理化性质和无机磷组分没有发生明显变化。兴隆缓冲带土壤有机碳和全氮含量明显降低。3a内退耕没有直接对土壤理化性质和无机磷组分产生明显影响,浅表地下水埋深改变是影响土壤恢复和无机磷组分变化的直接原因之一。[结论]滇池湖滨缓冲带和设施农田土壤磷素均存在淋失风险,退耕活动通过抬高浅表地下水位加速土壤磷素淋失从而降低土壤潜在淋失风险。     

秸秆和地膜双元覆盖对设施黄瓜根系生长和根际土壤养分的影响

[目的]研究秸秆和地膜双元覆盖条件对设施黄瓜结果期根系生长和根际土壤养分含量的影响,为北方寒旱区设施农业可持续生产提供理论依据和技术支持。[方法]以设施黄瓜为试材,采用日光温室试验和室内测定的分析方法。[结果]玉米秸秆加地膜的双元覆盖处理可明显增加根际土壤有机质、氮、磷、钾等养分含量,促进植株根系生长,其中0.72kg/m2秸秆量并覆膜处理效果和推广性最佳,与对照相比,在结果后期提高根际土壤有机质、全磷、全钾、碱解氮含量及根系数、根冠比、总根长、根表面积、根系活力分别达20.83%,22.83%,5.16%,5.53%,73.24%,32.76%,65.42%,45.94%和10.41%。[结论]秸秆和地膜复合的双元覆盖效果优于秸秆或地膜单一覆盖处理。     

电析土壤微粒悬浮液的维恩(Wien)效应及其影响因子

The electrical conductivity of suspensions and their supernatants from the electrodialyzed clay fractions of latosol, yellow-brown soil and black soil equilibrated with nitrate solutions were determined at different field strengths using a short high-voltage pulse apparatus to demonstrate the Wien effect in soil suspensions and to investigate factors affecting it. It was found that Wien effect was much stronger in suspensions with a clay content of 30 g kg-1 from the soils equilibrated with a 1 × 10-4 KNO3 solution than in their supernatants.The threshold field strength (TFS), at which the relative conductivity is equal to 1.05, i.e., the Wien effect begins to be obvious, of the yellow-brown soil suspensions (clay content of 30 g kg-1) equilibrated with different nitrate solutions of a concentration of 1 × 10-4/z mol L-1 , where z is the valence, varied with the type of nitrates, being lowest for NaNO3 (47 kV cm-1) and highest for Ca(NO3)2 (98 kV cm-1). At high field strengths (larger than 130 kV cm-1), the relative conductivities of yellow-brown soil suspensions containing different nitrates diminished in the order: NaNO3 ＞ KNO3 ＞ Mg(NO3)2 ＞ Zn(NO3)2 ＞ Ca(NO3)2. The rates and intensities of the Wien effect in the suspensions of the three soils equilibrated with 5 × 10-5 molL-1 Ca(NO3)2 solution were in the order of the yellow-brown soil ＞ the latosol ＞ the black soil. The results for the yellow-brown soil suspensions (clay concentration of 30 g kg-1) equilibrated with KNO3 solutions of various concentrations clearly demonstrated that the more dilute the solution, the lower the TFS, and the larger the relative conductivity of the suspensions at high field strengths. The results for yellow-brown soil suspensions with different clay concentrations indicated that as the clay concentration increased, the low field electrical conductivity, EC0, also increased, but the TFS decreased, and the Wien effect increased.     

用稀悬液Wien效应测量法来研究重金属离子与水稻土的相互作用

Interactions of three heavy metal ions, Cu²⁺, Cd²⁺, and Pb²⁺, and, for comparison, Na⁺ with electrodialytic clay fractions (less than 2 μm in diameter) of four paddy soils as well as a yellow-brown soil as a control soil were evaluated based on measurements of the Wien effect in dilute suspensions with a clay concentration of 10 g kg^?1 in four nitrate solutions of 2 × 10^?4/z mol L^?1, where z is the cation valence, and a nitric acid solution of 3 × 10^?5 mol L^?1. Field strengths ranging from 15 to 230 kV cm^?1 were applied for measuring the electrical conductivities (ECs) of the suspensions. The mean free binding energies between the various cations and all of the soils determined from exchange equilibrium increased in the order: Na⁺ < Cd²⁺ < Cu²⁺ < Pb²⁺. In general, the ECs of the suspensions in the sodium nitrate solution were smaller than those of the suspensions in the heavy metal solutions because of the lower electrophoretic mobility of sodium compared to the divalent cations. In terms of relative electrical conductivity-field strength relationships, relative electrical conductivity (REC) of suspensions containing various cations at field strengths larger than about 50 kV cm^?1 were in the descending order: Na⁺ > Cu²⁺ > Cd²⁺ > Pb²⁺ for all tested soils. A characteristic parameter of the REC-field strength curves, ΔREC₂₀₀, REC at a field strength of 200 kV cm^?1 minus that at the local minimum of the concave segment of the REC-field strength curves, characterized the strength of adsorption of the cations stripped off by the applied strong electrical field, and for all soils the values of ΔREC₂₀₀ were generally in the order: Na⁺ < Cu²⁺ ≤ Cd²⁺ ≤ Pb²⁺.     

基于粒子图像测速技术的液力变矩器涡轮内流场测试与分析

液力变矩器是自动变速器的主要部件,其在乘用车、载重汽车、公共汽车和机车上的应用广泛。液力变矩器内部流动特性影响其外部性能,为了深入研究其内部流动特性,基于粒子图像测速(particle image velocimetry,PIV)技术对液力变矩器涡轮内流场进行试验研究。采用帧频为1 000帧/s的CCD高速相机,在不同工况下(输入与输出的转速比分别取0、0.3、0.5、0.7)采集不同粒子直径、不同粒子浓度下的流动图像,经过图像预处理,对连续两帧图像进行互相关计算,获得涡轮径向切面的速度场和涡量场。通过对流场分布结构和流动区域上复杂流动现象的对比分析,发现投入流场中粒子浓度越高(1 500mL蒸馏水中投入2.4 g粒子)、粒子直径越小(10μm)时,识别并提取流动区域上的流动参数越丰富,流速场和涡量场信息越可靠。液力变矩器内部高梯度流场分布结构和非均匀流速场分布导致出现多尺度涡旋和反向流等复杂流动现象,造成液力变矩器内部流动能量损耗,随转速比提高,涡轮流场结构趋于规律,能耗逐渐降低。该文试验测量与分析结果对于液力变矩器结构优化和性能提升提供了参考。     

控制条件下水肥耦合对黄泥田还田秸秆腐解及土壤碳转化的影响

【目的】研究秸秆还田后不同水温和肥剂管理措施下土壤碳素转化特征。【方法】以华中双季稻区低产水稻土黄泥田为供试材料,模拟早稻和晚稻秸秆还田的田间环境,在实验室控制条件下,开展了两种温度环境中(15℃、35℃)不同水分(40%和100%最大田间持水量,即40%WHC、100%WHC)、配施氮肥类型(尿素、猪粪即U、M)、以及促腐菌剂添加对秸秆腐解效果及其过程中土壤碳素转化影响的研究。对水稻秸秆腐解过程中土壤CO2释放量、以及土壤可溶性有机碳(DOC)和总有机碳(TOC)含量在105天培养周期内变化特征进行动态监测分析。【结果】两种温度环境中整个培养周期内,各处理的CO2释放速率和释放总量通常表现为100%WHC-M100%WHC-U40%WHC-M40%WHC-U,即猪粪优于尿素的规律,而不论配施何种氮肥都存在100%WHC40%WHC(P0.01)的现象,同时40%WHC条件下辅施菌剂可显著提升CO2释放量;与此相反,两种温度环境下DOC含量都表现为40%WHC-M40%WHC-U100%WHC-M100%WHC-U(后两者差异小),即40%WHC条件下DOC含量显著高于100%WHC(P0.05),且配施猪粪处理优于配施尿素处理,但这两种氮肥处理间差异随培养时间延长而减小;以CO2-C释放量计算0 7 d、0 28 d、0 105 d内物料分解率,结果表明,35℃时100%WHC-U的处理中物料分解最快,15℃时40%WHC-M的处理中物料分解最慢。与之对应,105 d内TOC含量和净增量则在35℃时100%WHC-U的处理中最小(P0.01),而在15℃时40%WHC-M的处理中最大(P0.01);TOC的净增量和净损失量在相同温度条件下,尤其试验前期不同水分(P0.01)、氮素(P0.05)间均存在显著差异,且促腐菌剂添加普遍减小TOC含量;培养周期内所有处理的CO2释放速率与DOC含量间存在显著相关(P0.05)。【结论】水分状况对碳素的转化存在极大影响,其次是氮肥类型,且氮肥的影响作用随秸秆还田时间的延长而减弱;高湿条件更利于促进秸秆腐解,但导致土壤DOC含量较低,TOC的固持量也较少,而配施猪粪则可促进土壤DOC含量的提升及TOC的固持;促腐菌剂添加可促进秸秆腐解,但由于40%WHC条件下显著激发了CO2的释放而不利于土壤固碳。因此在华中低产黄泥田双季轮作稻区,早稻还田时由于气温高周期短,建议保持100%WHC、辅施适量尿素、并配合添加秸秆腐解菌剂,侧重秸秆快腐;而晚稻还田时气温低周期长,建议保持40%WHC并辅施缓效猪粪,侧重土壤固碳。     

基于FLUENT的歧管式催化器流场仿真分析

通过数值模拟和试验验证,分析岐管式催化器内部气流的速度场、压力场和气流分布状态。结果表明,随入口流量的增大,岐管式催化器内部气流流速增大、压力损失增大、径向分布的均匀性降低;气流的径向分布不同于常规催化器集中于轴线的轴对称形式,而是呈多中心分散状态,均匀性较常规催化器提高。     

两行一带式乔木固沙林带风速流场和防风效果风洞试验

研究在风速为10和15 m·s<'-1>的风洞试验条件下,覆盖度为20%和25%的3种两行一带模式固沙林内的水平和垂直方向的风速变化情况,以期对3种模式的风速流场和防风效果进行比较分析.结果表明:3种配置模式在0.31H高度形成了风影区和风速加速区相互组合的复杂流场结构,覆盖度25%的两行一带模式的防风效果高于覆盖度20%的两行一带模式.3种模式在不同高度的风速变化规律相同,可划分为3层:微变化层(1.54H和2H)、显著变化层(0.46H和0.92H)和稳定变化层(0.06～0.12H)3个层次.3种模式降低风速的效果为:D=4H(H为带间距)L=4 cm(L为行距)模式大于D=5H,L=0.08 m模式和覆盖度20%(D=5H,L=0.04 m),后2种模式相同.