The study of IFC applied to the River Regulation Work

• Main Authors: Chen, Jaw-Jye, 陳照傑
• Other Authors: Hung, Shih-Lin
• Format: Others
• Language: zh-TW
• Published: 2013
• Online Access: http://ndltd.ncl.edu.tw/handle/44737277421709129639

碩士 === 國立交通大學 === 土木工程系所 === 101 === Recently, data description standardization of technologies (such as STEP and IFC standards) and the specification is getting develops. Based on the IFC, building information modeling (BIM) is a building life-cycle information integration system. Combining 3D visuals software, information at all stages of the life cycle of buildings can clearly be presented and operated. Currently, BIMs aim mostly on stages of building construction, has not extended to the domain of river regulation. River engineering and civil construction engineering properties vary greatly, but also facing engineering information exchange and coordination complications. Therefore, this work aims on applying IFC and BIM on river regulation work and focusing on commonly used energy dispassion structures, hexa-hollow tri-leg structure and Tin-shaped caissons. The abstract information of these structures was defined and created via IFC and shared to 3D drawing system. The cost of hexa-hollow tri-leg structure and Tin-shaped caissons was then computed based on PCCES system and IFC information. Herein, for a river regulation project, the arrangement of energy dispassion structures were determined and presented on an IFC based drawing system and can be easily export to other applications. A C++ program is utilized to parse these IFC files and calculate the number of energy dispassion structures, including 5T and 10T hexa-hollow tri-leg structures and Tin-shaped caissons. Finally, based on the cost generated via PCCES system, the overall project budge was produced according to the newly price of construction materials. The simulation results reveal that integrating of IFC, BIM, and PCCES system on project budge estimation on river regulation project is feasible.