基于全可变气门汽油机进气量测量和控制问题研究

基于全可变气门运动机构的气门参数控制燃烧技术是改善传统SI汽油机燃油经济性,提高动力性和降低排放的最为有效的途径之。但是这也对发动机进气量的测量和控制提出了更高的要求。本文通过仿真和试验相结合的方法,对基于全可变气门机构汽油机进气量测量和控制问题进行了探讨和研究。     

Improvements of nonlinear dynamic modeling of hot-film MAF sensor

The operating procedure of engine requires that the mass air flow (MAF) sensor can measure the pulsation air flow accurately. Therefore the MAF sensor must possess fast response speed. It is necessary to study the dynamic characteristic of the MAF sensor. Both the experimental equipments and method used by authors previously are improved to obtain the sensor response data accurately in this paper. The static and dynamic separable modeling method is adopted to build the uniform nonlinear dynamic model of the hot-film MAF sensor in the Hammerstein and Wiener forms, which can describe the large/small flow-rate and positive/negative step responses. The performance indexes are calculated by the actual and model responses.     

Microfluidics analysis of nanoparticle mixing in a microchannel system

The microfluidics of controlled nanodrug delivery to living cells in a representative, partially heated microchannel was analyzed, using a validated computer model. The objective was to achieve uniform nanoparticle exit concentrations at a minimum microchannel length with the aid of simple static mixers, e.g., a multi-baffle-slit or perforated injection micro-mixer. A variable wall heat flux, which influences the local nanofluid properties and carrier-fluid velocities, was added to ensure that mixture delivery to the living cells occurred at the required (body) temperature of 37°C. The results show that both the baffle-slit micro-mixer and the perforated injection micro-mixer aid in decreasing the microchannel length while achieving uniform nanoparticle exit concentrations. The injection micro-mixer not only decreases best the system’s dimension, but also reduces the system power requirement. The baffle-slit micro-mixer also decreases the microchannel length; however, it may add to the power requirement. The imposed wall heat flux aids in enhanced nanoparticle and base-fluid mixing as well.     

基于大规模定制的流程工业生产计划优化方法及应用研究

针对流程工业大规模定制生产过程的特点,对实施大规模定制的流程工业企业的生产计划优化 方法进行研究,把市场预测与出货反馈参数相结合,将单纯的“推式”计划体系改成“推―拉结合”的计划体 系,形成快速灵敏的反馈机制,使整个计划体系成为闭环的回路．通过应用实例说明,采用该生产计划优化 方法后,无论是生产精度、生产负荷还是库存状况都有了很大的改善．     

Parallel Cloth Simulation Using OpenGL Shading Language

The primary goal of cloth simulation is to express object behavior in a realistic manner and achieve real-time performance by following the fundamental concept of physic. In general, the mass–spring system is applied to real-time cloth simulation with three types of springs. However, hard spring cloth simulation using the mass–spring system requires a small integration time-step in order to use a large stiffness coefficient. Furthermore, to obtain stable behavior, constraint enforcement is used instead of maintenance of the force of each spring. Constraint force computation involves a large sparse linear solving operation. Due to the large computation, we implement a cloth simulation using adaptive constraint activation and deactivation techniques that involve the mass–spring system and constraint enforcement method to prevent excessive elongation of cloth. At the same time, when the length of the spring is stretched or compressed over a defined threshold, adaptive constraint activation and deactivation method deactivates the spring and generate the implicit constraint. Traditional method that uses a serial process of the Central Processing Unit (CPU) to solve the system in every frame cannot handle the complex structure of clothmodel in real-time. Our simulation utilizes the Graphic Processing Unit (GPU) parallel processing with compute shader in OpenGL Shading Language (GLSL) to solve the system effectively. In this paper, we design and implement parallel method for cloth simulation, and experiment on the performance and behavior comparison of the mass–spring system, constraint enforcement, and adaptive constraint activation and deactivation techniques the using GPU-based parallel method.     

基于海量数据分析的煤矿生产辅助决策支持系统的设计

以某煤矿自动化系统的建设为例,提出了一种基于海量数据分析的煤矿生产辅助决策支持系统的设计方案。该系统通过融合全矿井各传感器采集的数据,进行分系统的汇聚统计分析以及全系统的集成统计分析,可对煤矿生产过程中各机电设备的健康状况、故障、运行能耗作出判断,从而实现对煤矿生产的辅助决策支持。实际应用表明,该系统运行良好,提高了煤矿生产效率和管理水平。     

在线质谱分析仪的研制及应用

针对工业过程在线监测需求,研制了一种基于四极杆质量分析器的在线质谱分析系统,详细描述了该仪器的主要组成结构及各模块的功能特点,对该仪器进行了性能测试,结果显示该仪器技术指标已达到国际同类产品的指标要求。在钢铁冶金、石油化工以及生物制药等行业的应用结果表明,该系统具有响应时间快(<1 s),测量精度高,动态范围宽,可同时进行多流路多组分分析,维护成本低和可靠性高等突出优势,能够适用于多种复杂、恶劣的应用环境。     

Unsteady fluid mechanics effects in water based human locomotion

Computational fluid mechanics (CFD) has made substantial progress on modelling a variety of important problems in industry. However, there is still lack of reliable methods to model the motion of the body in water. This is a central issue in understanding animal and human propulsion in water not only to advance science but to explore the possibility of utilising such propulsion modes for man made vehicles. The presented work identified the added mass effect as the prime contributor to propulsive force generation. The use of boundary element method (BEM) proved very successful as it allowed reducing this dynamic problem to a quasi-static one without sacrificing accuracy in the model. The comparison between the experimental data and the simulation result was in the range of 95% (average accuracy) suggesting that the added mass effect and dynamic lift and drag are the most significant physical phenomena in propulsive force generation despite the fact that there is undoubtedly and the presence of turbulent effects that were not considered.     

Apparent mass matrix of standing subjects exposed to multi-axial whole-body vibration

This paper describes the experimental characterisation of the apparent mass matrix of eight male subjects in standing position and the identification of nonlinearities under both mono-axial and dual-axis whole-body vibration. The nonlinear behaviour of the response was studied using the conditioned response techniques considering models of increasing complexity. Results showed that the cross-axis terms are comparable to the diagonal terms. The contribution of the nonlinear effects are minor and can be endorsed to the change of modal parameters during the tests. The nonlinearity generated by the vibration magnitude is more evident in the subject response, since magnitude-dependent effects in the population are overlaid by the scatter in the subjects’ biometric data. The biodynamic response is influenced by the addition of a secondary vibration axis and, in case of dual-axis vibrations, the overall magnitude has a marginal contribution.

Practitioner Summary: We have measured both the diagonal and cross-axis elements of the apparent mass matrix. The effect of nonlinearities and the simultaneous presence of vibration along two axes are smaller than the inter-subject variability.     

MC环境下基于案例推理的零件相似度与工时估算研究

在MC环境下,为了使零件工时快速且准确的被估算出,以案例推理理论为基础,研究了零件相似度与工时之间的内在关系,提出了零件相似度的工时估算新方法。首先,通过CASE检索法和零件拓扑结构相似度在规范的案例库中检索并筛选出符合要求的相似零件样本;其次,根据零件相似性机理,确定零件相似度的内涵,构建零件相似度的计算模型,即零件拓扑结构相似度计算模型和零件特性相似度计算模型;最后,通过Matlab软件确定零件相似度与工时之间的关系函数,从而实现定制零件加工时间的快速估算,并用实例验证了该方法的有效性和可行性。