Modeling soil water dynamics in a drip-irrigated intercropping field under plastic mulch

Intercropping, drip irrigation, and the use of plastic mulch are important management practices, which can, when utilized simultaneously, increase crop production and save irrigation water. Investigating soil water dynamics in the root zone of the intercropping field under such conditions is essential in order to understand the combined effects of these practices and to promote their wider use. However, not much work has been done to investigate soil water dynamics in the root zone of drip-irrigated, strip intercropping fields under plastic mulch. Three field experiments with different irrigation treatments (high T1, moderate T2, and low T3) were conducted to evaluate soil water contents (SWC) at different locations, for different irrigation treatments, and with respect to dripper lines and plants (corn and tomatoes). Experimental data were then used to calibrate the HYDRUS (2D/3D) model. Comparison between experimental data and model simulations showed that HYDRUS (2D/3D) described different irrigation events and SWC in the root zone well, with average relative errors of 10.8, 9.5, and 11.6 % for irrigation treatments T1, T2, and T3, respectively, and with corresponding root mean square errors of 0.043, 0.035, and 0.040 cm³ cm^?3, respectively. The results showed that the SWC in the shallow root zone (0–40 cm) was lower under non-mulched locations than under mulched locations, irrespective of the irrigation treatment, while no significant differences in the SWC were observed in the deeper root zone (40–100 cm). The SWC in the shallow root zone was significantly higher for the high irrigation treatment (T1) than for the low irrigation treatment, while, again, no differences were observed in the deeper root zone. Simulations of two-dimensional SWC distributions revealed that the low irrigation treatment (T3) produced serious severe water stress (with SWCs near the wilting point) in the 30–40 cm part of the root zone, and that using separate drip emitter lines for each crop is well suited for producing the optimal soil water distribution pattern in the root zone of the intercropping field. The results of this study can be very useful in designing an optimal irrigation plan for intercropped fields.     

Crop water requirements for rainfed and irrigated grain corn in China

A basic parametric crop water use model (WATER) that employes climatic and environmental data to calculate temporal and spatial water consumption for a variety of major corps was applied specifically for grain corn to the region of China and Korea to investigate the evapotranspiration (ET) demand on grain corn and the associated irrigation water applications necessary for optimal crop production. A network of 241 stations provided the seasonal climatic input. The climatic input consisted of data averaged over approximately a 20 year period. Among the results, highest ET under full irrigation (first harvest) occurred in the northwestern inland sections of China, whereas least ET was found for the southeast. Under rainfed conditions, the relationship became nearly inverse. In order to achieve optimum crop yields, about 1000 mm of irrigation water was needed in the northwest, contrasted with none required in the south and east of China. A sensitivity analysis was applied to determine the degree of error introduced by faulty or uncertain environmental input data.     

在水泵制造企业中应用成组技术

通过水泵生产企业现状的调查分析，在为某水泵厂开发计算机辅助企业现代化管理系统的基础上，提出了水泵生产企业运用成组技术，强化企业内部管理的内容和方法。     

现代玻璃温室智能气动天窗系统设计与研究

为满足现代温室对室内环境越来越高的要求，采用快速、安全、可靠、低成本的气动自动化技术设计气动天窗系统，可以实现天窗系统开闭与开度的自动化调控。为此，讨论了气动天窗系统的原理，得出了驱动气缸负载模型以及各级风速下气缸负载特性，探讨了该系统可行性和特点。与传统技术比较，气动系统完全可以取代机械式开天窗，而且结构简单，操作方便，位置控制精度高，天窗开度和通风面积显著增加，增强了利用自然通风调节温室环境的能力。     

温室地下贮热系统设计研究

为了降低温室环境调控能耗。根据育苗不同阶段对气温与土壤温度的要求，设计了温室地下贮热系统，并阐述了系统的组成和贮热原理；同时，分析了各设计参数对系统贮热性能的影响。这样不仅为系统设计与理论分析奠定了基础，对其它类似地下贮热系统的设计、研究也具有参考意义。     

电动助力转向系统直流伺服技术的研究

针对电动转向系统原有单一控制方式的不足，根据直流脉宽调制伺服系统工作原理，提出了一种带有助力和阻尼两种模式的综合控制方式。通过对两种模式分别进行分析计算，提出了一种针对占空比和控制模式的修正方法。台架性能试验验证表明，采用这种伺服控制方式，电动助力转向系统快速回正时的平稳性有所提高。     

生物质气化发电技术相关问题的研究

随着我国经济的高速发展,能源短缺和环境污染问题日益严峻.生物质能作为一种理想的可再生能源,由于其在燃烧过程中二氧化碳净排放量近似于零,可有效地减少温室效应和环境污染,因而越来越受到世界各国的关注.为此,重点讨论了生物质气化发电技术的相关问题-气化炉的选取、焦油的处理、系统投资和运行成本,并进行了财务分析,从而得出生物质气化技术是生物质能最有效、最经济和最洁净的利用方式.     

基于Pro/E Wildfire的水泵叶轮精确建模

基于传统的叶片加工方式，从现有的二维水力木模图的型值点出发，基于Pro／E Wildfire软件，采用从点到线、从线到曲面、再从曲面到实体的方法，实现了泵叶轮空间扭曲叶片和圆柱形叶片的三维实体造型，利用制造模具的常用方法实现了泵叶轮和流道的造型，造型方法精确，为后续的流场数值模拟和数控加工奠定了基础。     

三七药材设施栽培荫棚的结构设计

近年来，随着现代化医药科技的发展和国内对三七开发研究工作的不断深入，文山三七正以其所特有的治疗、保健功效走向国际和国内市场．为世人健康造福。用先进的工程措施进行三七的栽培生产过程，有利于三七产品的优质、高效生产，符合云南省确定的用高科技改造传统产业的方针，是云南省委、省政府提出建设“绿色经济强省”目标的重要内容之一。三七荫棚是一种为三七生长创造适宜环境条件的构造设施，是三七设施栽培工程技术的主要组成部分，直接影响三七产品的质量和产量。为此，就传统三七荫棚的结构、材料应用等进行分析，并提出研究方向。     

基于组件技术的开放式数控系统体系结构

为实现开放式数控系统的可移植性、可扩展性及可互换性等特性,引进软件工程学思想,提出了基于组件技术的开放式数控系统体系结构。阐述了组件技术的原理及实现技术。软件设计采用双层面设计方式,利用CORBA组件模型并使用星式通讯机制,建立各组件之间的组成及通讯方式。以自主研发的混联式虚拟轴研抛机床为平台,进行了三维曲线加工轨迹仿真实验,表明基于该体系结构的数控系统具有良好的开放性及动态性能。