Keywords
Collision detection
Pipeline optimization
Submitted : 2025-08-09
Accepted : 2025-08-24
Published : 2025-09-08
Abstract
This paper explores the application of Building Information Modeling (BIM) technology in pipeline collision detection and optimization for a station and operation section project of Line 2 in a specific city. By leveraging BIM for 3D modeling, the study facilitates the identification of pipeline conflicts, enabling comprehensive optimization of the pipeline layout. Navisworks software is used for visualizing the model, providing an intuitive platform for detecting clashes and refining the pipeline design. The proposed BIM-based approach not only enhances construction efficiency by reducing rework and conflicts but also improves project quality through more accurate, coordinated designs. While the focus is on the construction industry, the methods discussed are applicable to various fields, offering broader potential for improving integration and efficiency in other types of construction projects.
References
Hao J, Du B, 2025, Research on the Layout and Optimization of Mechanical and Electrical Installation Pipelines Based on BIM Technology, Construction Worker, 46(06): 24–26.
Fu Z, 2024, Three-Dimensional Design Optimization and Comprehensive Evaluation of Pipeline Supports and Hangers Based on Bentley Software, thesis, Nanchang University.
Li P, Liu Y, 2025, Application of BIM Technology in the Wuxi-Jiangyin Intercity Rail Transit Project, Modern Urban Rail Transit, 1–7.
Li M, 2024, Research on Performance Evaluation and Smart Operation and Maintenance Methods of Urban Underground Pipelines Based on Digital Twins, thesis, Dalian University of Technology.
Zhang Y, 2025, Dynamic Monitoring and Quality Improvement Strategies for Building Structure Construction Quality Based on BIM Technology, China Brand and Anti-counterfeiting, 2025(06): 158–160.
Wang W, Zhao G, Cao R, et al., 2025, Application of BIM Technology in Energy Station Pipeline Installation Engineering Projects, Heating Ventilation & Air Conditioning, 55(S1): 432–434.
Wang L, 2025, Application of BIM Technology in Integrated Mechanical and Electrical Engineering Construction, Information and Computers, 37(10): 160–162.
Zheng M, 2025, Research on Prefabricated Building Construction Technology and Multi-Dimensional Collaborative Quality Management Driven by BIM Technology, Brick and Tile, 2025(06): 108–110.
Cao Y, 2025, Application and Countermeasures of BIM Technology in the Deepening Design of Architectural Structure Construction Drawings, Building Materials Development Orientation, 23(11): 7–9.
Shi Y, 2025, Research on Refined Management of Engineering Cost Based on BP Neural Network and BIM Technology, Construction Machinery, 2025(06): 340–344.
Li B, 2025, Comprehensive Management and Control Analysis of BIM Technology in Port and Channel Construction, Port, Waterway and Offshore Engineering, 62(03): 103–107.