From building information modeling to real-time simulation in mechanized tunneling: An integrated approach applied to the Wehrhahn-line Düsseldorf

A. Alsahly, V.E. Gall, A. Marwan, J. Ninić, G. Meschke, A. Vonthron, M. König

Research output: Chapter in Book/Report/Conference proceedingConference contribution

Abstract

In current tunneling practice, finite element simulations have become an integral element of the planning and design process. These models are most often manually generated using 2D CAD drawings, which is a laborious and time consuming process. In this paper, we propose a BIM based approach, in which the 3D FE-model is automatically generated through a set of compatible geometries of individual components, i.e. the geology, alignment, lining and the TBM. The BIM model also includes all relevant model parameters of the tunneling project that can then be incorporated into subsequent analysis to be performed during the tunnel drive. The setup and the execution of the FE-analysis are performed automatically utilizing all required data from BIM. The applicability and efficiency of the proposed strategies is demonstrated by means of project data from the Wehrhahn-line metro project in Düsseldorf, Germany. Both the design as well as the construction stage is considered.
Original languageEnglish
Title of host publicationITA-AITES World Tunnel Congress 2016, WTC 2016
Pages3178-3186
Publication statusPublished - 2016

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