光伏电站远程监控系统设计

本文主要论述分散式光伏电站远程监控系统的设计与实现。远程监控系统主要由基于B/S的三层体系结构主站、基于ARM的智能终端以及基于单片机的数据采集装置组成。数据采集装置主要采集光伏电站的电压电流等信息,通过RS232串口传给智能终端;智能终端分析处理采集的数据,通过GSM短信机制和主站通信,从而实现光伏电站的远程监控。     

我国中厚板生产技术进步20年

综述了近 2 0年来我国中厚板生产技术的发展历程 ;并对其生产力、装备水平的提高 ,新工艺技术、自动控制系统的运用及产品开发等方面进行了较详细的分析和介绍     

基于虚拟仪器的水电机组在线状态监测系统的研究*

随着水电机组状态检修的不断开展, 需要实现对机组的状态监测, 及时了解机组的运行情况并能及时处理。考虑到水电机组状态监测的多样性和复杂性, 结合实际, 提出水电机组在线状态监测的项目和基于PXI 总线仪器和LabVIEW 的具体实施方案。状态监测系统通过对水电机组状态量的采集、处理和分析, 来实现水电机组运行状态在线实时监测, 极大地提高了机组利用率。该系统在水电机组的状态检修中得到了实际应用。     

Quantifying relationships between subsidence and longwall face advance using DInSAR

Surface subsidence that results from longwall mining can be large magnitude and can affect significant areas. Conventional methods for subsidence monitoring include leveling, global positioning system(GPS), and photogrammetric surveys. Remote sensing techniques including, aerial LiDAR, terrestrial laser scanning, and satellite-based Differential Interferometric Synthetic Aperture Radar(DInSAR), are also used to measure deformation associated with subsidence. DInSAR data are different than data from conventional subsidence surveys. Images capture data over large areas(hundreds of kilometers), and each pixel(data point) in an image quantifies the average displacement over an area of square meters.DInSAR data can have fairly high time resolution; imaging periods typically range from weeks to months.DInSAR data can be useful to monitor subsidence sequentially over short periods. Regularly monitoring subsidence may help define if caving is progressing normally and can establish relationships between surface deformation and longwall face advance, which has potential to help quantify possible risks to mine stability. In this study, subsidence at a longwall trona mine is monitored over short periods, typically 12 days, as the longwall face is advanced through a panel. C-band interferometric wide swath synthetic aperture radar(SAR) images from the sentinel satellites are used to quantify the subsidence. The onset of subsidence occurs close in time to the beginning of the longwall face advance, and overall,the development of subsidence closely follows the longwall face advance.     

混凝土桥及其高性能材料2020年度研究进展

为了解2020年混凝土桥及其高性能材料研究方向的发展动态,并在总结其研究内容、方法和成果的基础上更好地开展后续研究,从混凝土桥、高性能混凝土材料及高性能加劲筋材3方面着手,查阅近期文献,并进行分类、总结和评述。研究发现：目前,混凝土桥方向较为关注运维阶段的耐久性能、极端环境下的工作性能及混凝土桥运营事故等问题;高性能混凝土材料的研究进展在高性能、绿色环保以及智能化3个方面表现突出;高性能筋材则主要围绕强度更高、更耐久的FRP筋展开研究,其在梁、板、柱等构件上的应用得到积极的探索。对现有研究的不足和有待深化的问题提出初步建议,期待与相关学者共同努力,为该方向的进一步发展做出贡献。     

Developing a talent training model related to chemical process safety based on interdisciplinary education in China

While chemical industrial development in China is growing rapidly, the corresponding safety training resources remain inadequate, which may often lead to increased risk of chemical accidents. These accidents are often associated with the negligence of safety management, poor safety hazard awareness, and lack of safety practice. In order to alleviate these prominent risk factors in chemical industries in China, our study develops a talent training model related to chemical process safety. First, we propose an approach for establishing the “talent training model” related to chemical process safety, consisting of three steps: analyzing the current status and existing problems of talent training related to chemical process safety, determining the theoretical basis and training objectives for developing interdisciplinary talents, and designing a new talent training model. Second, we establish a talent training model using the proposed method, which includes a comprehensive curriculum system, a diversified teaching pattern, and a quintuple evaluation method. Furtherly, we determine the expected outcomes of the talent training model. The research results provide an innovative chemical process safety training method that is applicable nationwide, also it works as a reference for other rapidly developing countries in the chemical process industry to improve safety within the chemical industry.     

二维层状纳米片材料制备及在电解水中应用的研究进展

高效、清洁的氢能被认为是化石能源最有潜力的替代能源之一。制氢方法中电解水制氢是非常简便、且易于规模化的一种方法,但是电解水过程中存在制氢能耗增加、成本升高等问题,因此制备能耗低、具有稳定催化效率的催化剂成为能源领域的研究热点。层状双金属氢氧化物（LDHs）由于具有独特的二维层状结构,使其组成易于调节、结构易于调控,因此具有高效的电催化活性。但是,LDHs存在尺寸大、厚度高的问题,导致电催化剂的活性位点的数目受限、本征活性低和电导率低,最终会影响LDHs的电催化性能。主要论述了LDHs的结构和电解机理以及作为电解水催化剂的研究现状,对目前存在的问题以及解决方法进行了归纳,并对未来的研究方向进行了展望。     

Progress in flotation de-silica

1　INTRODUCTIONBayer sprocessisatypicalmethodtoproducea luminumoxidefrombauxite .Forthediasporic baux ite ,theBayer sprocesscaneconomicallyproducealu minumoxideonlywhenthemassratioofAl2 O3toSiO2 >10 .However ,inChina ,thealuminumoxidewasmainlyproducedbyusing“sinteringprocess”or“in parallelBayer sinteringcombination process”technologiesbecausethediasporic bauxiteischarac terizedbyhighcontentofaluminumoxideandsilicabutlowAl2 O3/SiO2 (average 5 6 ) .Thesetwotech nologieshavetheproble…     

关于中国加入WTO后影视高等教育体系的构想

关于中国加入WTO以后,如何适应新的形势和面对新的竞争,从而构建新的影视高等教育体系?本文从以下三个方面进行了论述:21世纪是彩色读图时代,影视知识技术是人才所必备的三大基本知识技术之一;中国的影视教育必须构建学历教育、职业技能教育和成人继续教育相结合的国民教育体系以及四合一的教育教学模式和产学研相结合的人才培养体制及其运行机制。