Predicting performance of EPB TBMs by using a stochastic model implemented into a deterministic model

•A stochastic model is suggested for predicting performance of EPB TBMs.•Monte Carlo simulation is implemented into a deterministic model.•Input parameters are generated by full-scale linear cutting experiments.•CCS and V-type disc cutters are used in the experiments.•Results are well verified by me...

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Bibliographic Details
Published in:Tunnelling and underground space technology 2014-05, Vol.42, p.1-14
Main Authors: Copur, Hanifi, Aydin, Hamit, Bilgin, Nuh, Balci, Cemal, Tumac, Deniz, Dayanc, Can
Format: Article
Language:English
Subjects:
Applied sciences
Buildings. Public works
Computation methods. Tables. Charts
Computer simulation
Confidence intervals
Construction equipments
Construction works
Cutting
Deterministic model
Earthwork. Foundations. Retaining walls
EPB TBM performance
Exact sciences and technology
Full-scale linear rock cutting tests
Geotechnics
Mathematical models
Monte Carlo simulation
Penetration
Rock
Soil mechanics. Rocks mechanics
Stochastic model
Stochasticity
Structural analysis. Stresses
Thrust
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Summary:•A stochastic model is suggested for predicting performance of EPB TBMs.•Monte Carlo simulation is implemented into a deterministic model.•Input parameters are generated by full-scale linear cutting experiments.•CCS and V-type disc cutters are used in the experiments.•Results are well verified by measuring the field performance of 2 TBMs. The current study is an attempt to address the stochastic nature of the rock excavation process by suggesting a stochastic performance prediction model implemented into a deterministic model developed for hard rock TBMs. Full-scale linear cutting experiments using constant cross-section and V-type of disc cutters are performed on two different limestone samples to provide the basic input required for the deterministic model used for estimation of instantaneous penetration rate, daily advance rate, thrust and torque requirements of TBMs. Stochastic estimation is performed by using a Monte Carlo simulation program by applying iterations to implement the probabilistic distribution of each model parameter and provide knowledge of a confidence level. Results of the suggested model are verified by measuring the field performance of two earth pressure balance (EPB) TBMs excavating competent rocks in semi-closed mode. The results indicate that the suggested model works well for prediction of instantaneous cutting/penetration rate for both TBMs and both types of disc cutters. However, an improvement on the model is required for estimation of cutterhead torque and thrust of EPB TBMs. The stochastic model implemented into the deterministic model results in almost similar predictions with the deterministic model in 50% (best guess) probability. However, the stochastic modeling provides a tool for exploring the full implications of linear cutting experiments and allows assessing the probability of occurrence and predicting variations of the TBM performance parameters, covering the uncertainties/risks.
ISSN:0886-7798
1878-4364
DOI:10.1016/j.tust.2014.01.006