CN-121981005-A - Hydraulic and hydroelectric engineering collaborative design system based on data simulation

Abstract

The invention particularly relates to a hydraulic and hydroelectric engineering collaborative design system based on data simulation, which relates to the technical field of hydraulic and hydroelectric engineering and comprises a basic data center and geological hydrologic simulation module, a multi-specialty collaborative digital modeling module, an engineering simulation analysis and cross-specialty conflict management and control module and a design scheme intelligent optimization and multi-dimensional comparison and selection module. According to the invention, a foundation data center is constructed to complete global integration and standardization processing of multi-source data such as survey, standardization, equipment and the like, a data full life cycle management mechanism is established, data accuracy and version consistency are guaranteed, the problem that data sharing multiplexing is difficult and version is disordered is thoroughly solved, meanwhile, a full-specialized parametric collaborative modeling system is constructed, multi-specialized model deep integration and data real-time linkage such as hydraulic engineering, electromechanics and construction are realized, parameter modification automatically triggers related specialized model update, a traditional mode of manual synchronous adjustment is replaced, and repeated design workload is greatly reduced.

Inventors

• ZHAO JIAJIA
• WU LEI
• ZHOU BIN
• CHEN FANG
• LI QINGSONG
• LV HAIYAN
• YU DESHUI
• YU YUAN
• LI HEPING
• TIAN SONGYAN

Assignees

• 河南省江淮水利勘测设计有限公司

Dates

Publication Date

20260505

Application Date

20260126

Claims (10)

1. 1. Hydraulic and hydroelectric engineering collaborative design system based on data simulation, which is characterized by comprising: The foundation data center and geological hydrologic simulation module is configured to complete integration, standardization and full life cycle management of full-dimension multi-source heterogeneous foundation data of hydraulic and hydroelectric engineering and develop digital simulation and prediction of natural conditions; The multi-specialty collaborative digital modeling module is configured to realize parametric modeling of a full specialty core building based on preposed standardized data and geological hydrologic boundary conditions and support two-dimensional and three-dimensional integrated design; The engineering simulation analysis and cross-specialty conflict management and control module is configured to perform full-working-condition multi-physical-field numerical simulation analysis and technical checking calculation, and at the same time, intelligently detect space, parameter and specification type conflicts in cross-specialty design, and build a coordination mechanism; The intelligent optimization and multi-dimensional comparison and selection module of the design scheme is configured to construct an evaluation index system covering safety, technology, economy, environment and social dimensions, and performs quantitative scoring and scientific comparison and selection on the multi-version design scheme.
2. 2. The data simulation-based hydraulic and hydroelectric engineering collaborative design system according to claim 1, wherein the base data center and geological hydrologic simulation module specifically comprises: Realizing the integration, standardization, storage, retrieval, sharing and updating management and control of engineering full-dimension data, and covering structured and unstructured data; The multi-source heterogeneous data global integration is realized by constructing a data pool, directionally collecting survey original data, industry standard specifications, material equipment parameters and engineering peripheral data; Simultaneously, carrying out depth standardization processing to complete format conversion, error correction, missing value completion and unification of coordinates, dimension and coding; And the data is classified and stored by adopting a distributed database and a cloud storage architecture, and the associated query and history tracing are supported by matching with a multi-condition intelligent retrieval system.
3. 3. The data simulation-based hydraulic and hydroelectric engineering collaborative design system according to claim 2, further comprising: digital modeling, simulation and prediction of engineering natural conditions are realized; Four kinds of simulations of hydrologic water resources, three-dimensional engineering geology, silt erosion and deposition, water environment and hydrologic weather are developed, and the runoff flood process, the three-dimensional geological model, the silt evolution trend and the water environment influence are accurately output; In the simulation process, a main flow model and a technology are fused, and stability analysis, risk prediction and ecological influence assessment are considered; All results are output in a standardized report combined visual form, and the results comprise model parameters, a calculation process, design suggestions, a three-dimensional model and a cloud picture.
4. 4. The data simulation-based hydraulic and hydroelectric engineering collaborative design system according to claim 1, wherein the multi-specialty collaborative digital modeling module specifically comprises: the multi-specialty collaborative digital modeling module takes basic data and geological hydrologic boundary conditions as supports to realize full specialty parameterization and digital modeling; Aiming at a dam, a drainage building, a power generation water intake building and supporting facilities, a professional parameterization design tool is provided, a designer can automatically generate a three-dimensional model by adjusting core parameters, the model is associated with geological hydrologic conditions in real time, and the design fitting engineering practice is ensured; Meanwhile, six major professional sub-modeling modules are built, geological, electromechanical, construction organization, construction cost and immigration planning sub-models are deeply fused with a hydraulic core model, data intercommunication is achieved without barriers, equipment installation space can be automatically adapted, engineering quantity is counted, the flooding range is defined, and the dilemma of isolation of traditional professional design is broken.
5. 5. The data simulation-based hydraulic and hydroelectric engineering collaborative design system according to claim 4, further comprising: Two-dimensional and three-dimensional integrated design and full-specialized model linkage updating; The three-dimensional model can automatically generate a standardized two-dimensional drawing, the two-dimensional drawing is modified and synchronously updated to the three-dimensional model, and bidirectional linkage viewing is supported; Establishing a parameter modification triggering mechanism, adjusting any professional core parameter, automatically triggering the associated professional model to update and send a reminder by the system, and ensuring the cooperation of the whole process design; Meanwhile, a model version management system is constructed, all modification information is recorded, historical version tracing and one-key rollback are supported, traceability and correction of the design process are ensured, and the problems of large repeated workload and disordered version of the traditional design are thoroughly solved.
6. 6. The hydraulic and hydroelectric engineering collaborative design system based on data simulation according to claim 1, wherein the engineering simulation analysis and cross-professional conflict management and control module specifically comprises: The technical checking calculation of the design model is completed through the numerical simulation of multiple physical fields and all working conditions; Carrying out full-dimensional simulation of structural mechanics, seepage, water flow movement, construction process and engineering scheduling, and covering static and dynamic analysis, checking and calculating anti-seepage stability, optimizing water flow state and predicting construction risk; the simulation result is converted into a stress cloud image and a flow velocity vector image through visual post-processing, and simultaneously, a standardized report containing model establishment, calculation process and design suggestions is automatically generated.
7. 7. The data simulation-based hydraulic and hydroelectric engineering collaborative design system according to claim 6, further comprising: Based on the three-dimensional model and the industry specification, automatically detecting space, parameter specification and flow type conflict, accurately positioning conflict positions and marking reasons, and generating a standardized report; meanwhile, an online closed-loop coordination mechanism is built, so that the complete flow management of conflict reporting, grading assignment, cooperative processing and acceptance and sales items is realized, and online conference auxiliary communication is integrated; and establishing the complete life cycle information of the conflict account record, and supporting query analysis.
8. 8. The hydraulic and hydroelectric engineering collaborative design system based on data simulation according to claim 1, wherein the design scheme intelligent optimization and multi-dimensional comparison module specifically comprises: Constructing a full-dimension evaluation index system and realizing scheme quantification comparison; The index system covers four dimensions of safety, technology, economy, environment and society, subdivides quantifiable secondary indexes, adopts a analytic hierarchy process and a Delphi method to scientifically determine weights, and can be flexibly adjusted according to engineering types; The system automatically collects index data of each scheme, eliminates dimension influence through normalization treatment, calculates comprehensive scores through a fuzzy comprehensive evaluation method, sorts the comprehensive scores, and clearly presents the merits and merits of each scheme; And finally generating a standardized comparison report containing data processing, scoring process and decision suggestion.
9. 9. The data simulation-based hydraulic and hydroelectric engineering collaborative design system according to claim 8, further comprising: Selecting dam height and section size parameters, and generating a pareto optimal solution set by means of a genetic algorithm with the aims of optimal safety, lowest investment, maximum benefit and minimum ecological influence; Generating an optimization model based on the optimal parameters by one key, carrying out secondary simulation verification under all working conditions, and comparing and analyzing index differences before and after optimization; if the verification is not up to standard, iteratively adjusting parameters and constraint conditions until the scheme meets the design requirement; and finally outputting an optimization report, and completely presenting algorithm application, an optimization process and verification results.
10. 10. The data simulation-based hydraulic and hydroelectric engineering collaborative design system according to claim 1, further comprising: The design result and system whole flow management module is configured to automatically generate a whole set of standardized hydraulic and hydroelectric engineering design result based on the early design result and analysis result, and to establish an on-line grading auditing flow of professional self-auditing, professional responsible person initial auditing and general engineer final auditing, so as to realize classified archiving, authority management and on-line delivery of the design result to the full life cycle of construction and operation and maintenance.

Description

Hydraulic and hydroelectric engineering collaborative design system based on data simulation Technical Field The invention relates to the technical field of hydraulic and hydroelectric engineering, in particular to a hydraulic and hydroelectric engineering collaborative design system based on data simulation. Background The hydraulic and hydroelectric engineering design is a complex system engineering which relates to geology, hydraulic engineering, electromechanics, construction, cost, immigrants and the like and has the characteristics of large data volume, high professional cooperation requirement, long design period, large risk management and control difficulty and the like. The traditional hydraulic and hydroelectric engineering design mode has a plurality of pain points: The data management is decentralized, the data formats of each stage of survey, design, construction and the like are not uniform, the sources are heterogeneous, a data island is formed, the difficulty of data sharing and multiplexing is high, and the standardized processing and full life cycle management are lacked, so that the accuracy of the design basic data is insufficient and the version is chaotic; the professional designs are isolated, each professional uses independent tools to develop the designs, the model data cannot be linked in real time, the related professional designs need to be adjusted manually and synchronously after the parameters are modified, the repeated workload is large, and the design deviation is easy to occur; The conflict discovery is delayed, the cross-professional design conflict is subjected to multi-reliance manual inspection, the problems of space interference, parameter contradiction and the like are difficult to comprehensively and timely identify, the later rectification cost is high, and the period is long. Along with the development of digital technology, BIM, big data, artificial intelligence and other technologies are gradually applied to the field of hydraulic and hydroelectric engineering design, but the prior art focuses on single professional modeling or local data processing, lacks an integrated collaborative design system covering the whole flow of data integration-analog modeling-analysis management-optimization comparison and selection-result management, and is difficult to fundamentally solve the core pain point of the traditional design mode. Therefore, it is needed to construct a full-specialized collaborative design system based on data simulation, so as to realize data-driven intelligent and collaborative design, improve the design quality and efficiency of hydraulic and hydroelectric engineering, and reduce the design risk. Disclosure of Invention The invention aims to solve the problems, and provides a hydraulic and hydroelectric engineering collaborative design system based on data simulation. In order to achieve the above purpose, the present invention adopts the following technical scheme: Hydraulic and hydroelectric engineering collaborative design system based on data simulation includes: The foundation data center and geological hydrologic simulation module is configured to complete integration, standardization and full life cycle management of full-dimension multi-source heterogeneous foundation data of hydraulic and hydroelectric engineering and develop digital simulation and prediction of natural conditions; The multi-specialty collaborative digital modeling module is configured to realize parametric modeling of a full specialty core building based on preposed standardized data and geological hydrologic boundary conditions and support two-dimensional and three-dimensional integrated design; The engineering simulation analysis and cross-specialty conflict management and control module is configured to perform full-working-condition multi-physical-field numerical simulation analysis and technical checking calculation, and at the same time, intelligently detect space, parameter and specification type conflicts in cross-specialty design, and build a coordination mechanism; The intelligent optimization and multi-dimensional comparison and selection module of the design scheme is configured to construct an evaluation index system covering safety, technology, economy, environment and social dimensions, and performs quantitative scoring and scientific comparison and selection on the multi-version design scheme. Preferably, the base data center table and geological hydrologic simulation module specifically comprises: Realizing the integration, standardization, storage, retrieval, sharing and updating management and control of engineering full-dimension data, and covering structured and unstructured data; The multi-source heterogeneous data global integration is realized by constructing a data pool, directionally collecting survey original data, industry standard specifications, material equipment parameters and engineering peripheral data; Simultaneously, carrying out depth stan