灌溉排水学报2026,Vol.45Issue(5):29-39,11.DOI:10.13522/j.cnki.ggps.2025146
基于LabVIEW和Python的水泵数字孪生平台设计
Design and implementation of a pump digital twin platform
摘要
Abstract
[Background]Data acquisition and numerical simulation are widely used for monitoring and evaluating pump performance,but they are often disconnected in practical application.This paper presents a digital twin platform for pumps to bridge this gap,in which machine learning,computational fluid dynamics(CFD),and modal decomposition techniques are applied in an integrated manner to represent high-dimensional flow fields using low-dimensional representations,thereby improving computational efficiency.[Method]The digital twin platform was developed based on Lab VIEW and Python,consisting of four modules:data acquisition,numerical simulation,internal flow analysis,and feedback control.It collects boundary-condition data from sensors at regular temporal intervals and automatically feeds them into the simulation software for real-time computation.The platform also provides a graphical user interface to visualize internal flow fields,enabling feedback control and optimization of pump operation and maintenance.Compared with conventional monitoring systems,the platform supports real-time monitoring,efficient operation,and active regulation,while reducing maintenance costs and providing capabilities for prediction,early warning,and preventive control.As a demonstration example,the impeller was selected for transient flow simulation,in which proper orthogonal decomposition(POD)was applied to perform modal decomposition of pressure flow fields,evaluate reconstruction accuracy,and identify dominant frequencies of different modes.[Result]The pump digital twin platform was successfully applied to a pump test rig,enabling automated data acquisition and simulation.Modal decomposition results showed that the first five modes captured more than 70%of the total flow field energy,each exhibiting distinct error characteristics.Compared with high-flow conditions,low-flow conditions exhibited greater instability in the internal flow,due to flow separation in the mid-region of the impeller passage and rotor-stator interaction near the outlet.Under all operating conditions,the dominant frequencies of the first and second modes corresponded to the shaft frequency of 48.33 Hz,while high-order modes were associated with integer multiples of this frequency,likely resulting from asymmetric flow structures within the impeller.[Conclusion]The developed digital twin platform effectively integrates real-time operational data with numerical simulation.It overcomes the disconnection between physical operation and computational analysis,and significantly improves the intelligence and operational efficiency of pump systems.关键词
水泵/数字孪生/虚拟仿真/状态监测/模型Key words
pump/digital twin/virtual simulation/condition monitoring/model分类
农业科技引用本文复制引用
王文杰,彭文杰,裴吉,袁寿其..基于LabVIEW和Python的水泵数字孪生平台设计[J].灌溉排水学报,2026,45(5):29-39,11.基金项目
水利部数字孪生流域重点实验室开放研究基金项目(Z0202042022) (Z0202042022)
