萨拉康水利水电工程水情自动测报系统设计与实现

发布时间：2018-11-14 09:25

【摘要】：水利水电工程水情自动测报系统是应用遥测、通信、水文预报、计算机和网络等技术,完成流域水文、气象、工情等要素的实时采集、传输、处理,进行水情预报,发布水情信息,为水利水电工程建设和商业运行任务服务的自动化信息系统。本文选择位于老挝人民民主共和国境内的萨拉康水利水电工程水情自动测报系统为研究对象,设计开发水情自动测报系统。在搜集和分析现有成果的基础上,对萨拉康水利水电工程基于ACS300-MM数据采集器的水情自动测报系统的设计与实现进行综述,对其构成进行分析。根据本工程项目的水情自动测报的要求,组建一套水情自动测报系统设备。系统以软件工程理论为基础,完成了需求分析,基于C/S的架构设计和系统模块的实现,本系统由用户登录、数据采集、数据传输、数据处理模块组成。本水利水电工程水情自动测报系统通过运用传感器接入、测量、存储和发送,进行实时采集、传输、处理,进行水情预报,可以及时准确地掌握工程坝址以上流域雨情、水情及洪水演变趋势,并响应中心站的远程控制进行洪水预报,为工程施工、运行、管理等相关部门决策提供信息支撑。通过水情自动测报系统各个模块的性能测试和系统应用,满足用户在本项目水利水电工程项目建设期和商业运行期对本系统的操作和使用。同时伴随国家“一带一路”战略的不断深化,涉外水利水电工程项目水调自动化系统的建设要充分依托项目所在国实际情况,切实满足涉外水利水电工程对洪水预报和运行调度管理的实际需求。
[Abstract]:The automatic hydrological monitoring and forecasting system for water conservancy and hydropower projects is to complete the real-time collection, transmission, processing and prediction of hydrology, meteorology, and engineering conditions in river basins by using remote sensing, communication, hydrological forecasting, computer and network technologies. An automated information system for the construction and commercial operation of water conservancy and hydropower projects. In this paper, the automatic hydrological measuring and forecasting system of Sarakang water conservancy and hydropower project, which is located in the territory of Lao people's Democratic Republic, is selected as the research object, and the automatic hydrological measuring and forecasting system is designed and developed. Based on the collection and analysis of the existing results, the design and implementation of the automatic water regime measurement and reporting system based on ACS300-MM data acquisition device for Sarakang water conservancy and hydropower project are summarized, and the composition of the system is analyzed. According to the requirement of the project, a set of automatic hydrological measuring system is set up. Based on the software engineering theory, the system has completed the requirement analysis, based on the C / S architecture design and system module implementation, the system is composed of user login, data acquisition, data transmission, data processing module. Through the use of sensors to access, measure, store and send, collect, transmit, process and forecast water regime in real time, the system can accurately and timely grasp the rainfall situation above the dam site. In response to the remote control of the central station, flood forecast is carried out in response to the trend of water regime and flood evolution, which provides information support for the decision making of engineering construction, operation, management and other relevant departments. Through the performance test and system application of each module of the automatic hydrological monitoring and forecasting system, the system can be operated and used by the users during the construction period and the commercial operation period of the water conservancy and hydropower project of the project. At the same time, with the deepening of the country's "Belt and Road" strategy, the construction of the water dispatching automation system for water conservancy and hydropower projects involving foreign countries should fully rely on the actual conditions of the countries in which the projects are located. It is necessary to meet the actual demand of flood forecasting and operation and dispatching management for foreign water conservancy and hydropower projects.
【学位授予单位】：天津大学
【学位级别】：硕士
【学位授予年份】：2016
【分类号】：TP311.52

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