大唐新能源通辽公司生产管理信息系统的功能设计

发布时间：2019-02-27 19:48

【摘要】：随着全球能源的日渐短缺和环境污染的日趋严重,风力发电作为清洁能源得到了飞速发展。尤其在我国大力发展新能源的政策支持下,各新能源发电企业的建设规模迅速扩大,下属所辖的风电场日渐增多。但由于风能资源分布的特点,风电场一般地理位置偏僻,具有条件艰苦,现场运行条件复杂,环境恶劣等特点,给运行管理和检修维护带来诸多困难。同时,每个风电场的变电监控系统和风机监控系统各自相对独立,使公司管理层无法实时掌握多个风电场的运行情况。为了优化运行降低人力成本,促进风电行业技术进步,提高安全生产的运行管理水平,需要通过更为先进的技术手段和信息化平台来创新出一种高效的管理模式。集约化管理模式,是运用信息化技术手段,实现集控中心集中监控、风电场实现无人值班、少人值守、区域检修的风电管理模式。大唐新能源通辽公司现投产运营风电场7座,分别为霍林河风电场、扎鲁特风电场、兴盛风电场、唐兴风电场、兴牧风电场、太和风电场和扎罗木得风电场,总装机容量共计65万千瓦,拥有9种风机品牌、15种机型,442台风机,分别分布于内蒙古自治区通辽市、兴安盟和呼伦贝尔市。这些风电场地理位置偏远,区域分散,每个风电场均建有独立的升压站综合自动化系统、风机监控系统以及风功率预测系统,几大系统分属不同的厂家,相互独立运行,公司本部无法同时掌握多个风电场的运行情况,这也给公司的管理运营带来了极大困难。本文主要结合各新能源发电企业近年来建设区域风电集中监控系统的经验,介绍了大唐新能源通辽公司的集中监控系统和生产管理信息系统的设计。生产管理信息系统是以集中监控系统为核心,充分利用大数据技术和云计算技术,将升压站和风机数据完整采集、处理、存储、分析、展示,将数据转化为生产力,使风电场的运营管理由“人工分析型”上升到“自动智能型”。同时衍生平台,实现与管理界面对接。与设备缺陷处理流程、备品备件采购与出库流程、绩效管理系统、办公OA系统等兼容对接,以实现动态管理的提效和企业生产运营管理水平的提高。生产管理信息系统不仅使公司本部实现集中管控,风电场实现无人值班、少人值守、区域检修的风电管理模式,降低了风电场运营和维护成本,提高了工作效率,对提高公司整体运营效益,推动新能源发电企业向规模化、科学化和信息化发展具有重要的意义。
[Abstract]:With the increasing shortage of global energy and the increasingly serious environmental pollution, wind power generation as a clean energy has been rapidly developed. Especially under the policy support of developing new energy in China, the construction scale of each new energy generation enterprise expands rapidly, and the number of wind farms under its jurisdiction is increasing day by day. However, due to the distribution of wind energy resources, wind farms are generally located in remote, difficult conditions, complex on-the-spot operation conditions, bad environment and so on, which brings many difficulties to operation management and maintenance. At the same time, the substation monitoring system and fan monitoring system of each wind farm are relatively independent, which makes the management of the company unable to grasp the operation of several wind farms in real time. In order to optimize the operation and reduce the manpower cost, promote the technical progress of wind power industry, and improve the operation and management level of safe production, it is necessary to innovate an efficient management mode through more advanced technical means and information platform. Intensive management mode is a wind power management mode, which uses information technology to realize centralized monitoring of centralized control center, wind farm to realize unattended, less people on duty, regional maintenance of wind power management mode. Datang New Energy Tongliao Company has now put into operation seven wind farms, namely, Huolin River Wind Farm, Zalut Wind Farm, prosperous Wind Farm, Tang Xing Wind Farm, Hsing Pastoral Wind Farm, Taihe Wind Farm and Zaromud Wind Farm. Total installed capacity of 650000 kilowatts, with 9 kinds of fan brands, 15 models, 442 fans, respectively distributed in Inner Mongolia Autonomous region Tongliao City, Xingan UNITA and Hulunbeir City. These wind farms are geographically remote and scattered, and each wind farm has an independent integrated automation system for booster stations, a fan monitoring system and a wind power prediction system. Several major systems belong to different manufacturers and operate independently of each other. The company can not master the operation of many wind farms at the same time, which also brings great difficulties to the management and operation of the company. This paper mainly introduces the design of centralized monitoring system and production management information system of Datang New Energy Tongliao Company based on the experience of building regional wind power centralized monitoring system in recent years. The production management information system takes the centralized monitoring system as the core, makes full use of big data technology and cloud computing technology, collects, processes, stores, analyzes, displays, and converts the data into productivity from the booster station and the fan. So that the operation and management of wind farms from "manual analysis" to "automatic intelligence". At the same time, the derivative platform can connect with the management interface. It is compatible with equipment defect processing process, spare parts purchase and storage flow, performance management system, office OA system, etc., so as to improve the efficiency of dynamic management and improve the level of production and operation management in enterprises. The production management information system not only makes the company's headquarters achieve centralized control, wind farms to achieve unattended, less on duty, regional maintenance of wind power management mode, reduce the operation and maintenance costs of wind farms, improve the efficiency of work. It is of great significance to improve the overall operating efficiency of the company and promote the development of new energy generation enterprises to scale, scientific and information-based.
【学位授予单位】：吉林大学
【学位级别】：硕士
【学位授予年份】：2017
【分类号】：TP311.52;F426.61

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