A holistic approach for improved safety of concrete damsEn helhetssyn för ökad säkerhet hos betongdammar

Dams are large structures, often made out of concrete, a heterogenous material, and are built on a natural foundation of significant variation from dam to dam. There are standards and guidelines for risk evaluation at the design and assessment phase of dams but there is a need to develop these methods to improve evaluation of already existing structures. With todays measures evaluation of existing structures often lead to overly conservative results. Therefore, this project will aim to provide dam engineers with a better understanding of the risk of concrete dam failure in already existing structures.

Today, technological advances allow us to use more refined calculation methods which are normally not utilised in the design or assessment stage of dams. In this project a procedure will be developed that utilises these technological advances in a cost-effective way to strenghten the competence in this field. In this project the following research topics will be investigated:

The effect of different load cases on the overall probability of failure
The effect of joints in the rock mass
The effect of degradation of the concrete
The most dominant and important failure mode for each dam type

See more projects within Rock mechanics – foundation engineering

Contact

Gabriel Sas

Project leader

Luleå University of Technology

Contact

Adrian Ulfberg

PhD

Luleå University of Technology

Publications

Numerical parametric study on the influence of location and inclination of large-scale asperities on the shear strength of concrete-rock interfaces of small buttress dams. Dipen Bista a b , Adrian Ulfberg c , Leif Lia b , Jaime Gonzalez-Libreros c, Fredrik Johansson d, Gabriel Sas c, Journal paper, Volume 16, Issue 10, October 2024.

Analysis of dam structures by scale model tests: A review, Conference paper submitted and accepted for the 91st Annual ICOLD Meeting

A concrete dam assessment approach using probabilistic non-linear finite element analysis and scale model testing. Licentiate thesis, Adrian Ulfberg, 2023

Probabilistic finite element analysis of failures in concrete dams with large asperities in the rock–concrete interface, Adrian Ulfberg, Jamie Gonzalez, Oisik Das, Dipen Bista, April 17, 2023, Archives of Civil and Mechanical Engineering, DOI: 10.1007/s43452-023-00652-4, Safe dams – A holistic approach for improved safety of concrete dams

On the applicability of scale model tests for concrete dams: A Review, Adrian Ulfberg, Jamie Gonzales, Oisik Das, Gabriel Sas, June 2023, 91st Annual ICOLD Meeting, June 13-14, 2023, Gothenburg, Sweden, Safe dams – A holistic approach for improved safety of concrete dams

Analytical Assessment of Combined Sliding and Overturning Failure in Concrete Dams. Submitted to journal, under minor revision. Ulfberg, A., Gonzalez-Libreros, J., Westberg Wilde, M., Johansson, F., Sas, G. (2025).

Behavior and failure mechanism of buttress dams with large-scale asperities in the rock-concrete interface. Manuscript, soon to be submitted to a journal. Ulfberg, A., Gonzalez-Libreros, J., Das, O., Bista, D., Westberg Wilde, M., Johansson, F., Sas, G. (2025).