• Atmosphere-ocean interaction during cyclone development
• QBO-like oscillation
• Tropical cyclone initilaztion
• Model output statistics
• Application of neural networks

Poster

• Bui, Hoang Hai; Bakhoday Paskyabi, Mostafa; Reuder, Joachim (2025). Low-level jets representation in numerical models: insights from LiDAR observations. (external link)
• Bakhoday Paskyabi, Mostafa; Bui, Hoang Hai (2023). Investigating the Impact of Sea Waves on Offshore Wind Simulation: A Study Using the WRF Model. (external link)
• Bui, Hoang Hai; Bakhoday Paskyabi, Mostafa; Mohammadpour Penchah, Mohammadreza (2023). Implementation of a Simple Actuator Disk for Large Eddy Simulation (SADLES) in the WRF Model. (external link)
• Bui, Hoang Hai; Bakhoday Paskyabi, Mostafa (2023). Correction of Meteorological Mast Wind Speed using LiDAR Observation and Selective-bandwidth Gaussian Kernel Density Estimation. (external link)
• Mohammadpour Penchah, Mohammadreza; Bakhoday Paskyabi, Mostafa; Bui, Hoang Hai (2023). Investigating the Impact of Sea Waves on Offshore Wind Simulation: A Study Using the WRF Model. (external link)
• Bui, Hoang Hai; Bakhoday Paskyabi, Mostafa (2023). Realistic Wake Simulation using the WRF-SADLES System. (external link)
• Bakhoday Paskyabi, Mostafa; Bui, Hoang Hai; Mohammadpour Penchah, Mohammadreza (2023). LiDAR-based data assimilation during offshore transient events. (external link)
• Bui, Hoang Hai; Paskyabi, Mostafa Bakhoday (2022). Mesoscale simulation of open cellular convection: roles of model resolutions and physics parameterizations. (external link)

Academic article

• Tran, Thao Linh; Ritchie, Elizabeth A.; Perkins-Kirkpatrick, Sarah E et al. (2024). Variations in Rainfall Structure of Western North Pacific Landfalling Tropical Cyclones in the Warming Climates. (external link)
• Bui, Hoang Hai; Bakhoday Paskyabi, Mostafa; Mohammadpour Penchah, Mohammadreza (2024). Implementation of a Simple Actuator Disk for Large-Eddy Simulation in the Weather Research and Forecasting Model (WRF-SADLES v1.2) for wind turbine wake simulation. (external link)
• Ning, Xu; Bakhoday Paskyabi, Mostafa; Bui, Hai et al. (2023). Evaluation of sea surface roughness parameterization in meso-to-micro scale simulation of the offshore wind field. (external link)
• Bui, Hoang Hai; Paskyabi, Mostafa Bakhoday (2022). Mesoscale Simulation of Open Cellular Convection: Roles of Model Resolutions and Physics Parameterizations. (external link)
• Tran, Thao Linh; Ritchie, Elizabeth A.; Perkins-Kirkpatrick, Sarah E. et al. (2022). Future Changes in Tropical Cyclone Exposure and Impacts in Southeast Asia From CMIP6 Pseudo-Global Warming Simulations. (external link)
• Bakhoday Paskyabi, Mostafa; Krutova, Maria; Bui, Hai et al. (2022). Multiscale Simulation of Offshore Wind Variability During Frontal Passage: Brief Implication on Turbines’ Wakes and Load. (external link)
• Bui, Hai Hoang; Spengler, Thomas (2021). On the Influence of Sea Surface Temperature distributions on the Development of Extratropical Cyclones. (external link)
• Bui, Hai Hoang; Yoden, Shigeo; Nishimoto, Eriko (2019). QBO-like oscillation in a three-dimensional minimal model framework of the stratosphere-troposphere coupled system. (external link)
• Smith, Roger; Montgomery, Michael T; Bui, Hai Hoang (2018). Axisymmetric Balance Dynamics of Tropical Cyclone Intensification and Its Breakdown Revisited . (external link)
• Bui, Hai Hoang (2018). Axisymmetric Balance Dynamics of Tropical Cyclone Intensification and Its Breakdown Revisited. (external link)

Lecture

• Bakhoday Paskyabi, Mostafa; Bui, Hoang Hai; Mohammadpour Penchah, Mohammadreza (2023). Multiscale modelling of low-level jet: Effects on aerodynamic load of offshore wind turbine . (external link)
• Bui, Hoang Hai; Bakhoday Paskyabi, Mostafa; Mohammadpour Penchah, Mohammadreza (2023). Implementation of a Simple Actuator Disk for Large Eddy Simulation (SADLES) in the WRF Model. (external link)
• Bakhoday Paskyabi, Mostafa; Bui, Hoang Hai; Mohammadpour Penchah, Mohammadreza (2023). LiDAR-based data assimilation during offshore transient events. (external link)

Academic lecture

• Bui, Hai Hoang; Spengler, Thomas (2020). On the Influence of Sea Surface Temperatures on the Development of Extratropical Cyclones. (external link)
• Bui, Hai Hoang; Spengler, Thomas (2019). Influence of sea surface temperature on extra-tropical cyclones in an idealized channel framework. (external link)
• Bui, Hai Hoang; Spengler, Thomas (2019). Influence of sea surface temperature on extratropical cyclones in an idealized framework. (external link)
• Bui, Hai Hoang; Spengler, Thomas; Terpstra, Annick (2018). Influences of sea surface temperature on mid latitude cyclones in an idealized framework. (external link)

See a complete overview of publications in Cristin.

1. Bui, H., Bakhoday-Paskyabi, M., and Mohammadpour-Penchah, M.: Implementation of a Simple Actuator Disk for Large-Eddy Simulation in the Weather Research and Forecasting Model (WRF-SADLES v1.2) for wind turbine wake simulation, Geosci. Model Dev., 17, 4447–4465, 2024.

2. X. Ning, M. B. Paskyabi, H. H. Bui, and M. M. Penchah, “Evaluation of sea surface roughnessparameterization in meso-to-micro scale simulation of the offshore wind field,” Journal of WindEngineering and Industrial Aerodynamics, vol. 242, p. 105 592, 2023

3. Tran, T. L., Ritchie, E. A., Perkins-Kirkpatrick, S. E., Bui, H., & Luong, T. M. (2022). Future changes in tropical cyclone exposure and impacts in Southeast Asia from CMIP6 pseudo-global warming simulations. Earth's Future, 10, e2022EF003118. 

4. Bakhoday-Paskyabi, M., Krutova, M., Bui, H., & Ning, X. (2022, November). Multiscale Simulation of Offshore Wind Variability During Frontal Passage: Brief Implication on Turbines’ Wakes and Load. Journal of Physics: Conference Series (Vol. 2362, No. 1, p. 012003). IOP Publishing.

5. Bui, H., & Bakhoday-Paskyabi, M. (2022, November). Mesoscale Simulation of Open Cellular Convection: Roles of Model Resolutions and Physics Parameterizations. Journal of Physics: Conference Series (Vol. 2362, No. 1, p. 012006). IOP Publishing.

6. Bui, H., & Spengler, T. (2021). On the influence of sea surface temperature distributions on the development of extratropical cyclones. Journal of the Atmospheric Sciences, 78(4), 1173-1188.

7. Bui, H., Yoden, S., & Nishimoto, E. (2019). QBO-like oscillation in a three-dimensional minimal model framework of the stratosphere–troposphere coupled system. SOLA, 15, 62-67.

8. Smith, R. K., Montgomery, M. T., & Bui, H. (2018). Axisymmetric balance dynamics of tropical cyclone intensification and its breakdown revisited. Journal of the Atmospheric Sciences, 75(9), 3169-3189.

9. Bui, H. H.,E. Nishimoto, S. Yoden, 2017: Downward Influence of QBO-like Oscillation to Moist Convection in a Two-Dimensional Minimal Model Framework. Submitted to . J. Atmos. Sci..

10. Nishimoto, E., S. Yoden, and H.-H. Bui, 2016: Vertical momentum transports associated with moist convection and gravity waves in a minimal model of QBO-like oscillation. J. Atmos. Sci., 73, 2935–2957

11. Phan-Van, T., Trinh-Tuan, L., Bui-Hoang, H., & Kieu, C. 2015: Seasonal forecasting of tropical cyclone activity in the coastal region of Vietnam using RegCM4. 2. Clim. Res, 62, 115-129

12. Yoden, S., H.-H. Bui, and E. Nishimoto, 2014: A minimal model of QBO-Like oscillation in a stratosphere-tropo- sphere coupled system under a radiative-moist convective qua- si-equilibrium State. SOLA, 10, 112−116, doi:10.2151/sola.2014- 023.

13. Ngo-Duc T.,J. Matsumoto, H. Kamimera, and H.-H. Bui, 2013: Monthly Adjustment of the Global Satellite Mapping of Precipitation (GSMaP) Data over the Thu Bon-Vu Gia Basin in Central Vietnam by Using Artificial Neural Networks. Hydrological Research Letters, 7(4), 85-90.

14. Bui Hoang Hai, R. K. Smith, M. T. Montgomery, and J. Peng, 2009: Balanced and Unbalanced Aspects of Tropical-Cyclone Intensification. Quart. J. Roy. Met. Soc., 135, 1715-1731.

IMPACTWIND (2024-2027): The project aims at accelerating the utilization of sustainable offshore wind resources on the Norwegian Continental Shelf.

CONWIND (2023-2024): This project aims to enhance wind farm profitability and turbine longevity by improving short-term wind field forecasting and developing control algorithms that optimize turbine steering and wake management through the integration of physical models and machine learning.

HIPERWIND (2020-2023): The project aims at reducing the Levelized Cost of Energy of offshore wind farms, through advancements in basic wind energy science which will lead to reductions in risk and uncertainty. 

UNPACC (2017-2019): This project investigates the role of air-sea interactions in the genesis and intensification of extratropical cyclones, focusing on how sea surface temperature (SST) fronts influence these processes.