农机液压技术的应用与发展

液压技术的应用已成为现代化农业机械的典型标志。为此,介绍了农机液压技术的应用现状;并根据科学技术的发展,简要分析了农机液压技术的发展趋势。     

生物结皮生长发育对黄绵土抗侵蚀性能的影响

[目的] 黄土高原退耕还林(草)工程驱动的生物结皮发育可显著抑制土壤侵蚀,为探明土壤抗侵蚀性能随生物结皮生长发育的变化特征及其响应机制。[方法] 设置藻结皮、藓结皮和自然演替结皮3个处理,培育176天,系统研究生物结皮不同发育阶段及其类型差异对黄绵土抗侵蚀性能的影响。[结果] (1)生物结皮盖度、厚度、生物量、叶绿素和粗糙度随生长时间均显著增加,培育初期藓结皮较高,培育末期自然演替结皮反而最高。(2)随生物结皮发育,土壤黏结力呈幂函数增强,较初期增加39.8%~60.3%;质量损失率呈指数函数减小,较初期降低45.6%~57.3%;饱和导水率变化趋势较为复杂,但培育末期均最低(0.08~0.12 mm/min)。(3)土壤黏结力随生物结皮盖度、厚度、叶绿素、生物量和表面粗糙度的增加呈幂函数增长,质量损失率随生物结皮盖度、厚度、叶绿素、生物量和表面粗糙度的增加呈指数函数下降。(4)土壤抗侵蚀综合指数(C_ser)可表示为盖度(Cov)、厚度(T)和生物量(B)的幂函数(C_ser=0.279 Cov^0.194 T^0.188 B^0.119, R²=0.73, p＜0.05)。[结论] 黄土高原生物结皮发育可显著提高黄绵土抗侵蚀性能,藓结皮效果最强。     

农用运输车用液力缓速器的设计与仿真分析

为解决农用运输车长时间制动造成的热衰退问题,参考THB40液力缓速器,基于相似理论设计了一款液力缓速器。计算确定了其设计制动力矩值和定转子叶轮参数,运用Pro/E构建了其三维结构,并在CFX14.5平台上以SST-kω湍流模型进行仿真计算。结果表明:制动力矩符合设计要求,流场的特征与THB40流场特征高度一致,为设计适合农用车用液力缓速器提供了借鉴。     

Calculation Method of Hydraulic Characteristics for Direct-Return Chilled Water System

In order to optimize design and operation, it is necessary to calculate accurately hydraulic characteristics large central air-conditioning systems. Simplified Model can not be applied to hydraulic calculation of large pipe network topological structure for its large calculation error. Taking into account the regulating characteristics of terminal branch temperature regulating valve, a direct-return chilled water system is studied, an accurate mathematical model of pipe network hydraulic characteristics has been established and a computer logic algorithm with virtual flow has been given. A direct-return pipe network with ten AHU branches is used as simulation calculation object, the pipe network supply-return water pressure difference is calculated, and also the temperature regulating valve opening and actual flow of each branch are calculated in the condition of different supply-return water pressure difference. The calculated results accord with the natural characteristics of high pressure difference unbalanced for direct-return pipe network. The calculation method can ensure calculation convergence.     

壁面粗糙度对轴流泵水力性能影响的研究

采用全三维雷诺时均Navier-Stokes方程和标准κ-ε湍流模型,数值模拟了包括叶轮、导叶、泵壳和轮毂等过流部件壁面粗糙度对轴流泵水力性能的影响。计算结果表明,壁面粗糙度对轴流泵的水力特性影响显著。通过机械抛光或表面处理等方法,降低过流表面的粗糙度,可有效地提高轴流泵的扬程和效率。水泵的效率对叶片表面的粗糙度更加敏感,应给予更多的关注。研究还发现,水泵出口断面轴向流速分布均匀度和速度加权平均偏流角也随壁面粗糙度改变而改变。     

不同突扩比下空间淹没水跃的水力计算

突扩能够使局部范围内水流紊动剧烈,可以作为水利工程中消能工的一种重要方式．为了探讨突扩比对下游流体水力特性的影响规律,基于RNG k-ε紊流模型和PISO压力-速度耦合算法,采用非均匀结构网格技术,建立了三维紊流数学模型,对突扩比分别为1000,0833,0.667,0500,0333等5种空间水跃进行了多工况数值模拟,结合试验数据,计算结果量纲一化,讨论了不同突扩比大小对下游水力性能的影响,并分析了下游流速、紊动能及消能率等随突扩比的变化规律．数值计算结果表明:突扩比对下游流速、紊动能及消能率影响显著,突扩比越小,下游流速变化越显著,主流在空间内扩散愈迅速,流态转变越明显;随着突扩比的减小,紊动应力愈小,紊动能量愈小,而消能率越大;突扩水跃较典型水跃消能效果明显增强,当突扩比小于0500时,消能率增大不再显著．     

履带式稻(麦)联合收割机液压——机械式行走系统的研究

液压行走系统因其结构简单、操纵方便、转向灵活等特点已广泛在联合收割机中采用。该文分析了液压一机械式联合收割机行走系统的工作过程，并以某联合收割机为例，对液压行走系统的配置方案、液压元件的选型、液压系统主要参数的确定、液压系统的性能验算和实测等方面进行了研究。研究结果表明，此液压行走系统的设计是合理的、可行的，完全可以满足联收机实际使用条件和较恶劣的工况。这为我国联合收割机液压行走系统的设计和配置提供重要的参考价值。     

水分胁迫对紫花苜蓿根系吸水与光合特性的影响

变水条件下(利用PEG-6000模拟水分胁迫48 h,ψs=0.2MPa,之后复水48 h),测定紫花苜蓿(Medicago sattva L,品种阿尔冈金和陇东苜蓿)幼苗根系水力学导度与光合参数变化规律,旨在研究变水条件下紫花苜蓿光合作用的响应机制、植株水分吸收能力的变化规律及地上与地下部可能的相关关系.结果表明:干旱胁迫使得紫花苜蓿根系水力学导度(Lpr)受到显著影响.随着水分胁迫时间的延长,根系吸水能力呈现快速--缓慢下降趋势,即根系水力学导度逐渐下降,气孔导度(Gs)、蒸腾速率(Tr)、净光合速率(Pn)和叶片水势亦随之而显著降低,胞间二氧化碳浓度(Ci)先随之降低但最终上升而累积.复水后,根系水导呈现缓慢--慢速的恢复趋势,Pn、Gs、Tr、叶片水势随着根系水导速率的增加而逐渐恢复;Ci则随复水时间的延长而逐渐下降.但各参数除Ci外,均没有恢复到胁迫前水平.紫花苜蓿根系水导与光合参数在复水后的恢复程度说明,紫花苜蓿对干旱逆境的抵御与适应能力相对较弱,但陇东苜蓿对水分胁迫的忍耐能力强于阿尔冈金.     

液压限位缓冲结构在汽车减振器上的应用

在分析普通双筒式减振器结构和工作原理基础上,提出一种加装双活塞液压限位缓冲器的汽车减振器,并对其工作机理进行分析;建立了具有液压限位缓冲结构的汽车减振器等效液压系统模型,对其阻尼特性进行分析.分析结果表明：在汽车减振器内部加装液压限位缓冲结构,可以产生附加阻尼力,使减振器具有更好的减振功能,有效地提高汽车恶劣行驶工况下的平顺性.     

Amendment of drilling fluid-affected soils with calcium salts

Land disposal of waste drilling fluid is an environmental concern because of the high salt content and the presence of potential toxic elements. A water-based drilling fluid was tested in a laboratory column study to determine the feasibility of leaching excessive salt without mobilizing chromium (Cr). The drilling fluid-affected two Alfisols with similar mineralogy, acidity, and texture were treated with gypsum (CaSO₄ · 2H₂O), calcium carbonate (CaCO₃), or calcium phosphate (CaHPO₄) (0 to 2% of weight). The electrical conductivity (EC) increased and the sodium adsorption ratio (SAR) decreased with increasing Ca-salt concentration. The pH did not vary significantly with the changes in the concentrations of gypsum and calcium phosphate. The pH of the mixtures increased in proportion to the concentration of added calcium carbonate. The hydraulic conductivity increased and the mobility of the soil particles decreased with increasing Ca-salt concentration. The Cr mobility decreased by gypsum and CaCO₃ treatments but it increased by calcium phosphate treatment. The soil with a higher content of organic matter and cation exchange capacity (CEC) showed a higher hydraulic conductivity and lower Cr mobility than the other soils at the same levels of the treatment. The results of this study suggest that the amendment of drilling fluid-affected soils with CaCO₃ and gypsum can enhance the leaching of excessive salt and reduce the Cr mobility. Among loamy soil, those with a higher CEC and organic matter content are more suitable for land disposal of drilling fluid.