A5070336747- Coastal and Marine Dynamics
- Wind Energy Research and Development
- Water resources management and optimization
- Tropical and Extratropical Cyclones Research
- Flood Risk Assessment and Management
- Geology and Paleoclimatology Research
- Coastal wetland ecosystem dynamics
- Geological formations and processes
- Geological and Geophysical Studies
- Oceanographic and Atmospheric Processes
- Non-Invasive Vital Sign Monitoring
- Coastal and Marine Management
- IoT and Edge/Fog Computing
- Water-Energy-Food Nexus Studies
- ECG Monitoring and Analysis
Cardiff University
2020-2023
Bangor University
2023
Tidal flow can generate unsteady wakes, large eddies, and recirculation zones in the lee or around complex natural artificial obstructions, such as islands, headlands, harbours. It is essential to understand patterns structures given potential impacts they have on sedimentation, marine environment, ecology, anthropogenic activities. In this paper, wake an island a macro-tidal environment has been studied using widely used hydro-environmental model, Telemac-2D. Current data collected moored...
A tidal lagoon generates predictable energy from tides by creating an artificial water head difference through impounding over a cycle. The movement of substantial volumes between natural waters and the enclosed basin triggers changes in exchange circulation, potentially resulting significant impact on quality. Therefore, comprehensive understanding lagoons regional is crucial to address any predicted concerns. West Somerset Lagoon (WSL) was studied this study investigate its renewal Bristol...
Ubiquitous on-device heart rate sensing is vital for high-stress individuals and chronic patients. Non-contact sensing, compared to contact-based tools, allows natural user monitoring, potentially enabling more accurate holistic data collection. However, in open uncontrolled mobile environments, movement lighting introduce. Existing methods, such as curve-based or short-range deep learning recognition based on adjacent frames, strike the optimal balance between real-time performance...
Abstract Tides are a key driver of range Earth system processes, and we now have the capacity to simulate tidal dynamics on temporal spatial scales. Deep‐time model simulations been used provide insight into past ocean circulation patterns, evolution life developments Earth‐Moon system's orbital configuration. However, these relatively poorly constrained validated because lack readily available proxies. The feasibility using two types proxy is explored here; (1) sedimentary deposits which...
The ocean tides are a key driver of range Earth system processes. Tidal energy drives vertical mixing with consequences for circulation, climate, and biological production, the tidal stream transport sediments, pollutants, other matter through ocean. On long time-scales drag acts to slow down Earth’s spin, which means Moon must move away from conserve angular momentum. problem here is that age moon doesn’t fit today’s recessions rate it has been suggested have...
The Bristol Channel and Severn Estuary comprise the area most thoroughly investigated for tidal lagoons development, due to its second largest range in world high demand clean electricity surrounding area. Accurate hydrodynamic modelling of is a solid foundation predicting potential generation environmental impact assessment. However, it reported that correct selection an open boundary may amplify any disturbance associated with by affecting resonant modes. Thus model simply held identical...