[1]秦运龙,李波,张冰松*,等.受电区域气象监测预报系统设计与实现[J].计算机技术与发展,2025,(04):209-213.[doi:10.20165/j.cnki.ISSN1673-629X.2024.0367]
 QIN Yun-long,LI Bo,ZHANG Bing-song*,et al.Design and Implementation of Meteorological Monitoring and Forecasting System for Power Receiving Area[J].,2025,(04):209-213.[doi:10.20165/j.cnki.ISSN1673-629X.2024.0367]
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受电区域气象监测预报系统设计与实现

《计算机技术与发展》[ISSN:1006-6977/CN:61-1281/TN]

卷:
期数:
2025年04期
页码:
209-213
栏目:
新型计算应用系统
出版日期:
2025-04-10

文章信息/Info

Title:
Design and Implementation of Meteorological Monitoring and Forecasting System for Power Receiving Area
文章编号:
1673-629X(2025)04-0209-05
作者:
秦运龙1李波2张冰松1*王迎迎1
1. 湖北省气象信息与技术保障中心,湖北 武汉 430074; 2. 中国长江电力股份有限公司,湖北 宜昌 443000
Author(s):
QIN Yun-long1LI Bo2ZHANG Bing-song1*WANG Ying-ying1
1. Hubei Meteorological Information and Technical Support Center,Wuhan 430074,China; 2. China Yangtze Power Co. ,Ltd. ,Yichang 443000,China
关键词:
气象大数据云平台产品加工流水线受电区隔离区RabbitMQ
Keywords:
CMADaasdata processing line (DPL)power receiving areademilitarized zone (DMZ)RabbitMQ
分类号:
TP39
DOI:
10.20165/j.cnki.ISSN1673-629X.2024.0367
摘要:
长江电力所属受电区域灾害性天气频繁,气象条件复杂,对受电区域用电负荷产生较大影响。 因此,建立集约、高效、可靠的受电区域气象系统,提前把握受电区域气象变化情况成为长江电力业务发展的迫切需求。 该文提出了受电区域气象监测预报系统,该系统在功能上采用微服务架构实现天气实况、气候监测、产品制作、评价检验等应用服务;在大数据计算上,充分利用气象大数据云平台(“天擎”)强大的数算一体能力,以 RabbitMQ 消息服务为媒介,实现跨网络的“云+端”业务应用模式;在 DMZ 区定时算法调度上采用解耦合的分布式调度方案实现产品的稳定、高效制作;在数据服务上利用气象大数据云平台数据同步功能,完成内外网气象大数据云平台结构化和非结构化数据快速同步,实现 DMZ 区实时数据接口服务。 该系统的建成有助于长江电力行业用户预知受电区域天气气候条件,把握电力市场需求变化,对梯级电站在制定联合调度方案、电能销售策略等工作中提供重要的气象信息数据支撑。
Abstract:
The frequent occurrence of catastrophic weather and complex meteorological conditions in the receiving area of Yangtze River Power have a significant influence on the electricity load of the receiving area. Therefore,establishing an intensive,efficient,and reliable meteorological system for the power receiving area and grasping the meteorological changes in the power receiving area in advance has become an urgent need for the development of the Yangtze River power business. We propose a meteorological monitoring and forecasting system for power receiving areas,which adopts a microservice architecture to implement application services such as weather monitoring,climate monitoring, product production, evaluation and inspection; In big data computing, we fully utilize the powerful numerical computing capabilities of CMADaas,and use RabbitMQ message service as a medium to achieve a cross network " cloud + terminal" business application model; Adopting a decoupled distributed scheduling scheme in the DMZ scheduling algorithm to achieve stable and efficient production of products; Utilizing the data synchronization function of CMADaas in data services to achieve rapid syn-chronization of structured and unstructured data between the internal and external CMADaas, and realizing real - time data interface services in the DMZ area. The establishment of this system helps users in the Yangtze River power industry to predict the weather and climate conditions in the power receiving area, grasp changes in electricity market demand, and provide important meteorological information data support for the development of joint dispatch plans and energy sales strategies for cascade power stations.
更新日期/Last Update: 2025-04-10