Understanding the dynamic behaviour of structures under time-varying loads is essential in many industries. In the transportation sector, vibration has a huge impact on the competitiveness and durability of vehicles. This is not only driven by the increasing customer demand for vibroacoustic comfort, but also by the tightening legal regulations regarding noise and vibration emissions and immissions. In other sectors, vibration can lead to fatigue of components and possibly their failure. In the oil and gas sector, such failures can lead to unacceptable environmental incidents with the associated loss of containment of hydrocarbons. Thus, understanding vibration, modelling it and assessing its effects is business-, safety- and environmentally-critical.
Interests
- Structural Dynamics
- Wave Methods
- Vibroacoustics
- Piping Vibration and Fatigue
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QAR 700,000 Qatar Rail
Prediction and Attenuation of Ground-borne noise and Vibration in Buildings
2023-2024
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QAR 700,000 Qatar Rail
Control of Ground-Borne Noise and Vibration from Doha Metro
2021-2022
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QAR 270,000 Qatar University
Wave Modelling of Straight and Helical Pipes
2019-2020
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USD 599,828 Qatar National Research Fund
Towards Minimizing Hydrocarbon Leaks due to Fatigue Failures in Process Pipework -- Developing Pipework Vibration Acceptance Criteria
2019-2021
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GBP 616,526 UK EPSRC
Mid- and High-Frequency Vibro-acoustics of Built-up Structures
2013-2017
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EUR 328,715.20 European Commission
MHiVEC: Mid- High Frequency Modelling of Vehicle Noise and Vibration
2013-2016
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GBP 12,000 The Royal Society
Propagation of Waves in Waveguides with Spatially Correlated Uncertainty
2014-2015
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GBP 12,000 The Royal Society
Modelling the Dynamics of Structures with Uncertain Attachments
2013-2014