四川水力发电2025,Vol.44Issue(z2):1-8,8.DOI:10.20196/j.cnki.scslfd.2025S201
数字孪生推动传统水电转型升级的核心引擎
Digital twin:the core engine driving the transformation and upgrading of traditional hydropower
梁军 1梁静亚 1祁军胜1
作者信息
- 1. 四川二滩国际咨询有限公司,四川 成都 611130
- 折叠
摘要
Abstract
Under the dual challenges of global energy transition and frequent extreme climates,the traditional hydropower industry urgently needs to enhance operational resilience through digital transformation.This pa-per takes digital twin technology as the core research focus,constructing a three-dimensional analytical frame-work of"technological adaptability-policy architecture-engineering practice"to systematically demonstrate its driving mechanism for the intelligent upgrading of the hydropower industry.Empirical research based on the Three Gorges Project shows that by building a four-layer technical architecture of"monitoring and perception-data foundation-model platform-smart applications",digital twin technology has achieved millimeter-level geo-logical disaster monitoring in the reservoir area,multi-physical field coupling simulation,and intelligent schedu-ling decisions.This has shortened the flood control early warning response time from 75 minutes to 15 minutes(an 80%efficiency improvement),reduced the runoff prediction error rate from 12%to 4%,and annually re-duced water abandonment losses by 3 billion kilowatt-hours.The study further reveals that future development trends will focus on multi-technology integration,full-life-cycle management,and cross-basin collaborative scheduling.It is recommended to promote the deepened application of the technology through policy guidance,standard construction,and ecological coordination.The research results can provide a theoretical reference and practical paradigm for the digital transformation of the hydropower industry.关键词
数字孪生/水电行业/转型升级/智慧水电/全生命周期管理Key words
digital twin/hydropower industry/transformation and upgrading/smart water conservancy/full-life cycle management分类
建筑与水利引用本文复制引用
梁军,梁静亚,祁军胜..数字孪生推动传统水电转型升级的核心引擎[J].四川水力发电,2025,44(z2):1-8,8.
