长沙-株洲-湘潭-体化中道路交通发展目标初探

在提出长株潭道路交通总体规划设想的前提下,分析长沙市路网,提出道路交通发展目标.     

论木材运输管理的问题与对策

木材运输管理是森林资源管理的主要环节和重要手段，是对森林采伐限额制度执行情况监督的必要措施，由于受短期和局部利益的驱动，一些木材经营者为追求高利润，采取不法手段，千方百计地进行木材违法运输，也有部分木材检查站由于管理不善，也存在执法不严和违纪犯法现象，为此，提出了加强对木材检查站的领导和建设、建立巡警队或稽查队加强对木材运输的检查、实行县（市）内木材运输证制度、进一步完善林业法律、法规和规章及强化宣传等措施。     

Matlab在经济管理中的应用

Matlab是功能强大的计算机软件，它在自动控制、机电和土木工程以及经济管理领域有着广泛的应用．我们给出了扩展的指派问题，且证明了该问题与原指派问题的最优值相同，然后利用Matlab语言，得到了指派问题的Matlab算法，对运输问题也给出了该问题的Matlab算法．计算实例表明，新的解题方法，既简易又精确．     

汽车运材费用的多因素分析

本文应用多元统计分析方法对汽车运材费用进行分析，影响运材费用的主要因素按其对单位成本影响的贡献大小排序，依次是单位养路费、单位燃润费、单位保修费和单位大修费．     

福建林区运材汽车评价模式的探讨

根据福建林区道路状况，结合农用货车性能特点，建立运材汽车评价模式，对福建林区四种有代表性的运材汽车进行了评价、并按综合性能优劣进行排序。研究结果发现：HFC1060为最优车型，NJ1060为次优型。     

用简易诊断法检查判断液压系统各元件的工作性能

故障的排除首先在于判断，目前基层维修网点大多数没有检测仪器和设备，出了故障乱拆乱卸，导致液压元件工作失灵，甚至整车液压系统瘫痪。拖拉机液压系统产生故障的主要原因是液压元件工作性能恶化引起的。为此，介绍了在没有检测仪器和设备的条件下，如何应用简易诊断法检查判断各液压元件的工作性能。     

手动比例复合阀在中高压液压绞纲机中的应用

中高压液压技术在海洋捕捞机械—绞纲机中的使用推动了我国渔业机械的发展,手动比例复合阀在中高压液压技术上的应用则大大加快了液压绞纲机在国内渔业生产中的普及。目前,我国浙江、江苏、福建、广东和山东等省沿海渔民使用的绞纲机普遍采用带手动比例复合阀的液压系统。为此,对手动比例复合阀换向、溢流、调速集成等功能进行了分析。     

中银输油管道冬季运行工艺研究

针对中银输油管道冬季运行状况进行了全面的分析和研究，通过收集运行数据及相关计算，描述了加热炉投用前后的管道压力波动情况，分析了加热炉投用前后管道的运用压力变化以及管道当量结蜡厚度变化的原因。指出该管道投用加热炉后，解决了2号阀室至银川管段的压力波动问题，有效地延长了清管周期，但同时有两段管道发生了严重结蜡，给清管工作带来一定难度，提出了在中银输油管道2号阀室安装收发球筒装置的改进建议。     

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。     

Impact on soil physical properties of using large-grain legumes for catch crop cultivation under different tillage conditions

In Central Europe, various plant species including large-grain legumes and their mixtures are grown as catch crops, particularly between grains harvested early and subsequent summer crops. This article investigates the question of how soil structure in the topsoil is influenced when catch cropping with large-grain legumes (experimental factor A: without catch crop, with catch crop) under different ploughless tillage conditions during catch crop seeding (experimental factor B: deep tillage/25–30 cm, shallow tillage/8–10 cm). Five one-year trials were performed using standard machinery at various sites in Germany. Soil core samples extracted from the topsoil in the spring after catch crop cultivation served to identify air capacity, saturated hydraulic conductivity and precompression stress. The above-ground and below-ground biomass yields of the catch crops were also determined at most of the sites. In addition, the soil compaction risk for the working steps in the experiments was calculated using the REPRO model.The dry matter yield of the catch crops varied considerably between the individual trial sites and years. In particular, high levels of dry matter were able to form in the case of early seeding and a sufficient supply of precipitation. The soil structure was only rarely affected positively by catch crop cultivation, and catch crops did not contribute in the short term to loosening already compacted topsoils. In contrast, mechanical soil stresses caused by driving over the ground and additional working steps used in cultivating catch crops often led to lower air capacity in these treatments. This is consistent with the soil compaction risks calculated using the REPRO model, which were higher in the treatments with catch cropping. Catch crop cultivation also only resulted in improved mechanical stability at one location. The positive effect of deep ploughless tillage on air capacity and saturated hydraulic conductivity, however, became more clearly evident regardless of catch crop cultivation. In order for catch crop cultivation with large-grain legumes to be able to have a favourable impact on soil structure, it is therefore important that cultivating them does not result in any new soil compaction. In the conditions evaluated, deep tillage was more effective at loosening compacted topsoil than growing catch crops.