摘要: 当今社会正在高速发展,人们在电的使用上呈高速发展,为了电网的稳定性,大多数电厂在夜晚和白天发电量几乎不变,但由于昼夜用电量的不同,导致了电力资源遭到严重的浪费。从而储能装置应运而生,大量的储能设施运用到了许多高耗电行业,以降低生产成本, 随着储能装置的大量运用,保证系统安全,稳定的运行,针对储能的监控系统研究具有重要的意义,在监控系统中,对现场实时数据的检测极为重要, SVG( ScalableV ector Graphics)是基于XML的可扩展二维矢量图形格式,其高扩展性成为了监控系统界面ui生成的基础。80880
本文将围绕svg图形进行对储能监控系统的设计与开发,实现一套高可用的储能监控系统,通过scada采集系统得到数据供监控系统使用,最后对实时数据进行展示和针对一些特殊数据进行告警监视。
毕业论文关键词: 储能;svg解析;监控系统;嵌入式; 分布式;
Abstract Today's society is developing rapidly, it was the rapid development in the use of electricity, to the stability of the power grid, most power plants almost unchanged in the daytime and night time power generation, but due to the diurnal electricity, the electricity resources have been seriously waste。 Thus the energy storage device came into being, a large amount of energy to use facilities many of the high power industry, in order to reduce the production cost, with the use of a large number of energy storage devices, ensure the safety of the system, stable operation, the monitoring system of energy storage has an important significance in the monitoring system, detection of real-time data is very important, SVG (Scalable Vector Graphics) is a XML extension the two-dimensional vector graphics format based on its high scalability has become the basic interface of monitor system for UI formation。
This article will carry on the storage monitoring system design and development based on SVG graphics, to achieve a high availability storage monitoring system, monitoring system for the data obtained by the SCADA acquisition system, finally the real-time data display and alarm monitoring for some special data。
Keywords: Energy storage; SVG analysis; supervisory control system; embedded system; distributed;
目录
第一章。 绪论 4
1。1。背景及意义 4
1。2。国内外发展动态 5
1。3。本章小结 6
第二章。 系统涉及的关键技术 6
2。1 svg图形介绍 6
2。1。1 svg图形基本概念 7
2。1。2 svg图形文件结构及其特点 7
2。1。3 SVG的基本元素 7
2。1。4 SVG文档结构 8
2。2 Qt框架介绍 9
2。2。1 Qt简介 9
2。2。2 Qt具有的优势 10
2。2。3 Qt中Graphics View Framework的介绍 10
2。3 SVG分布式储能监控系统的设计与实现:http://www.youerw.com/zidonghua/lunwen_94161.html