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The contribution shows measurement examples of cars, floors, foundations, railway tracks, a footbridge, and a railbridge. Vibrations may include modes and waves. Namely in soil-structure interaction, modes are damped, shifted and prevented so that alternatives for the modal analysis are necessary: The approximation of the whole spectrum (flexibility function) and of the whole train passage (moving-load response).
The research project Verification of Buckling Assessment and Behaviour in Large Monopiles (VERBATIM) focuses on challenges arising due to the ongoing increase of dimensions of monopiles as foundation for offshore wind turbines. This project is focused on two main topics:
- Monopile tip buckling during pile installation
- Local buckling of embedded piles during operation
It is known from previous investigations and experiences in practice that large deformations of a monopile tip during offshore installation works can occur. These large deformations initiated at the tip of the monopile are commonly referred to as “pile tip buckling”. Own research focuses on optimising monopile dimensions to reduce the cost of monopile foundations for offshore wind turbines while preventing pile tip buckling.
Buckling of embedded cylindrical shells for offshore structures is a common engineering task. Structures can be analysed using standard software and have been done so in recent studies e.g., Gottschalk. However, the trend towards larger monopile and optimised structures has led to a fundamental need for better and verified models. A main challenge is the submodelling of the structure-soil-interaction. Developing such complex models is one main goal of the VERBATIM project.
For both main topics model tests were performed at the laboratories of BAM and TU Berlin. These experimental results were used to verify related numerical models and simulations.
In this presentation, we discuss the potential of probabilistic approaches to the design and assessment of offshore foundations. The potential is demonstrated in a numerical example considering a laterally loaded monopile. As an outlook, we present a concept for managing the risk associated with installing large monopiles.
Foundations
(2018)
Foundations
(2017)
Modern geophysical methods might be either directly applied to concrete structures or integrated into existing testing schemes to assist in quality assurance and inspections. This paper gives an overview on some ideas and developments from the author’s work:
• Vibrator technologies to improve pile integrity testing.
• Ideas from vertical seismic profiling used in multichannel pile inspection
• Cross- and downhole seismics to check the diameter of jet grouting columns
• Improving the parallel seismic methods for precise length measurement of piles and foundation walls
• Seismic migration methods to improve ultrasonic imaging of foundation slabs
• Seismological tools to monitor subtle changes in concrete constructions
The authors strongly believe that the cooperation between geophysics and civil engineering, which is obviously becoming stronger and stronger, will lead to a large number of innovative approaches.
Modern geophysical methods might be either directly applied to concrete structures or integrated into existing testing schemes to assist in quality assurance and inspections. This paper gives an overview on some ideas and developments from the author’s work:
• Vibrator technologies to improve pile integrity testing.
• Ideas from vertical seismic profiling used in multichannel pile inspection
• Cross- and downhole seismics to check the diameter of jet grouting columns
• Improving the parallel seismic methods for precise length measurement of piles and foundation walls
• Seismic migration methods to improve ultrasonic imaging of foundation slabs
• Seismological tools to monitor subtle changes in concrete constructions
The authors strongly believe that the cooperation between geophysics and civil engineering, which is obviously becoming stronger and stronger, will lead to a large number of innovative approaches.
Modern geophysical methods might be either directly applied to foundations or integrated into existing testing schemes to assist in quality assurance and inspections. This paper gives an overview on available ideas and some more detailed examples from the author `s work including:
- Vibrator technologies to improve pile integrity testing.
- Ideas from vertical seismic profiling used in multichannel pile inspection
- Cross- and downhole seismics to check the diameter of jet grouting columns
- Improving the parallel seismic methods for precise length measurement of piles and foundation walls
- Seismic migration methods to improve ultrasonic imaging of foundation slabs
- Seismological tools to monitor subtle changes in concrete constructions
The author strongly believes that the cooperation between geophysics and civil engineering, which is obviously becoming stronger and stronger, will lead to a large number of innovative approaches for investigations tasks currently still unresolved. A lot of challenges and chances for science and technology are right here.