谏壁发电厂泵站改造实践

为解决渣浆泵在运行时轴封水供应困难的问题，计算了谏壁发电厂松林山泵站的装置特必,天详细分析论证的基础上，确定了泵站的改造方案，进行了叶轮的优化设计。     

水电站虹吸式进水口的控制

在对河北省几座已建虹吸式进水口水电站的虹吸控制方式进行分析对比的基础上,给出了一种采用液气射流泵将虹吸体抽成“低管”正虹吸,用“Y”形管中的水封保持真空,事故时利用“高管”自动补气破坏真空的控制系统,并分析了该系统的特点,给出了设计计算方法及计算公式。     

针阀调节式液体射流泵的试验研究

介绍了多种不同结构参数的针阀调节式液体射流泵的试验结果，分析了结构参对泵性能的影响，推荐了合理的结构型式及参数，提出了计算泵性能的经验公式。     

细菌耐药拮抗剂的研究

本文介绍了具有拮抗细菌耐药性作用的物质的研究进展情况，包括灭活酶抑制剂、药物渗透促进剂、外输泵抑制剂、细菌生物被膜抑制剂、抗菌药物增强剂、耐药质粒消除剂等。     

黑木耳烘干控制系统的研究

黑木耳烘干控制系统，采用压缩式热泵，AT89C51单片机、SHT75型温湿度传感器、加热器等组成温湿度控制电路。控制干燥室内的温湿度，完成对干燥室内的黑木耳进行低温、高效率的去湿干燥。     

中小型水电站发电机专用断路器的选择

正确设计选择发电机保护断路器直接关系到水电站后期的电气设备合理投资、运行维护及保证水电站长周期安全经济地运行.过去中小型水轮发电机大都选用普通型的油断路器或真空断路器或SF6断路器等,近些年来选用普通真空断路器的越来越多.中小型水电站应根据不同接线方式、不同容量的发电机出口断路方法,选择发电机专用断路器.     

漠大原油管道SCADA通讯中断原因及应对措施

漠大原油管道SCADA控制系统通讯中断频繁,严重威胁管道的安全运行。基于漠大原油管道通讯中断数据,统计分析了通讯中断时长、通讯中断类型的比例分布特性,结果表明,时长2～12 h的通讯中断频次最高,占总中断次数的44.3%。探讨了漠大原油管道通讯中断原因,其中天气因素与设备故障是导致通讯中断的主要因素,共导致了74.4%的通讯中断时长。为了降低通讯中断频次,结合漠大原油管道的运营现状,提出了4项管理措施：加强天气监控及现场作业管理,做好应急预案;完善管道保护程序;积极开展维护修复工作;加快推进加格达奇以南光缆割接与测试工作。     

住宅建筑热泵的热源选择

指出了住宅建筑的暖通空调能耗占建筑能耗的比重大，较燃煤取暖而言，热泵技术的节能效果显著。从原理特点、适用性、限制条件、土建和设备建设难度和周期、后期管理维护等方面分析了空气、地表（下）水、土壤、太阳能和污水等热泵热源，探讨了住宅建筑热泵热源选择的总的原则。     

水泵机组状态监测与故障诊断系统研究

从20世纪60年代到21世纪，我国的泵站工程为输水、供水以及防洪减灾提供了有力保障。针对水泵机组的状态监测与故障诊断进行研究，建立水泵机组状态监测与诊断的软件及各分析模块与数据库，进行机组性能的预测研究，为水泵机组的状态维修提供支持。     

Contribution of incident solar radiation on leaves and pods to soybean seed weight and composition

The weight and composition of soybean seeds (Glycine Max L. Merrill) depend on changes in carbon and nitrogen assimilate supply during grain filling. Soybean pods and seeds are green, evidencing their capacity to capture light. However, the current physiological knowledge does not consider any effect of incident solar radiation reaching the pods on seed weight and composition. The objective of this work was to investigate the response of seed weight and composition to changes in assimilate supply from leaves, to the incident solar radiation reaching the pods and to the combination of both, changes in assimilate supply from the leaves and incident solar radiation on pods of soybean plants. Field experiments were performed during two growing seasons at Balcarce, Argentina. Treatments modified the amount of assimilates supplied by the leaves (plant shading, defoliation), the solar radiation reaching the pods (pod shading) or both (defoliation and pod shading) during seed filling. Plant shading and defoliation reduced seed weight, oil concentration and oil and protein content and increased the concentration of saturated and poli-unsaturated fatty acids while reduced oleic acid percentage. Pod shading increased the concentration of stearic acid and reduced the concentration of linolenic acid. When pods were shaded on defoliated plants, seed weight and oil and protein content decreased while fatty acid composition was similar to values obtained under defoliation treatment. Based on these results, a conceptual model that considers photoheterotrophic nature of reproductive structures of soybean is proposed. Seed weight, oil and protein content and oil fatty acid composition depended on assimilate availability for the seeds. The response of oil and protein content to assimilate supply depended on whether leaves were present or not. The effect of solar radiation incident on pods depended on the amount of assimilates available for the seeds: (i) when carbon allocated was low (defoliation treatments), pods contributed to seed carbon economy but solar radiation incident on them did not affect fatty acid composition; (ii) when carbon allocated to the seeds was high (intact plants), contribution of pods to seed carbon economy was not significant, but the amount of solar radiation incident on pods produced significant changes in fatty acid composition.