1. Offshore wind energy,
2. Environmental impacts of offshore wind turbines: noise
3. Wind-wave-turbulence-structure interaction,
4. Mutual interactions between climate change and offshore wind parks
5. Large Eddy Simulation (wind turbine/farm interactions),
6. Physical oceanography (ocean mixing and transport, Lagrangian particle tracking),
7. Air-sea interaction, turbulence, and coherence structures,
8. Meso and submesoscale oceanic eddies in the North Sea,
9. Data assimilation and digital twin of wind energy
10. Reduced order modelling for offshore energy systems

Model Uncertainity Reduction Using LiDAR-based Data Assimilation

https://www.youtube.com/watch?v=XysLP8l41NM&t=162s

Multiscale scale modelling of wind and wake using WRF-LES: Area requirement study

Underwater noise emission from floating turbine: https://zenodo.org/records/14065613

Bakhoday Paskyabi, M. et al (2022). Atmospheric-Wave Multi-Scale Flow Modelling. Zenodo. https://doi.org/10.5281/zenodo.15583295

 

 

ENERGI321 2022-on (lecturer)

ENERGI322 2022-on (course responsible)

ENERGI101 - 2021-on (course responsible)

ENERGI360 2024 (co-lecturer)

HTEK101 2024 (co-lecturere)

ENERGI200 (this is now ENERGI300) will provide an overview over various energy resources focusing on renewable resources, as well as national and international energy use and production. 

Field course in wind energy (Fall)

GEOF210 (2016)

Post-docs/researchers

• Hai Bui (researcher at HIPERWIND and ImpactWind, 2021-on)
• Mohammadreza Mohammadpour Penchah (researcher at HIPERWIND, 2021-on)
• Devanil Choudhury (2021)
• Maria Krutova (2024-on )
• Shokoufeh Malekmohammadi (2025), Wind3D project
• Xu Ning (2025): FHF project

Current supervision/co-supervision of PhD students

• Christiane Duscha (GFI/UiB): Remote sensing of the atmospheric boundary layer for wind energy research (2019-2024)
• Maria Krutova (GFI/UiB): Investigation of wave meandring behind wind turbines (2019-2023)
• Martin Flügge (GFI/UiB): Characterization of the marine atmospheric boundary layer for offshore wind energy applications (2010-2013).
• Xu Ning: Wind-wave-turbine interactions (2020-)
• Kaan Akkas: Fluid-structure interaction amd noise emission from floating turbines (2024-on)
• Øystein Husevåg Døskeland: Improved Operability and Decision-Making for Weather Sensitive Marine Operations (2022-2025)

Accomplished supervision of PhD students:

Maria Krutova (GFI/UiB), 2024 as main supervisor

Christiane Duscha (GFI/UiB), 2024 as co-supervisor

Hamman Deilami Azodi (2018) co-supervisor (applied mathematics) 

Nasim Maddah (2023) co-supervisor (applied mathematics)

Øystein Husevåg Døskeland (2025) NTNU . co-supervisor

Supervision of master students:

• Rouzbeh Siavashi, 2017-2018: Modelling power output and structural response of offshore wind turbines as function of atmospheric stability and sea state.
• Tiril Konow, 2021-2022: Underwater noise emitted by offshore wind turbines.
• Christina Ekrem Dimmen:Atmospherice noise emitted by wind turbines (completed 2022).
• Tore Totland Skjerdal: Wind-wave misalignments and offshore wind turbine power variations (completed 2022).
• Adrian Nilsen Grotle: Impact of Wind-wave interactions on offshore turbine structural responses (completed 2022).
• Martine Rønning: Reduced order models based on model results and LiDAR measurements (completed 2022).
• Fahim Masud Ahmed: Low-level jet height’s impact on wind turbine loads: A case study (completed 2023)
• Tord Nylan Malmei: Load/structural analysis of offshore wind turbines under varying atmospheric and sea-state conditions (completed 2024).
• Frida Stokkenes Eliassen: Offshore wind park and upper ocean interaction focusing on environmental impacts of offshore wind (part of WindSYS project).
• Assma Karouach: Turbine induced noise (part of WindSYS project).
• Rebekka Mongstad : Turbine induced noise (part of WindSYS project).
• Viktor Dahl: Wind intermittency and resource assesment at different offshore sites: analyses using historical NORA3 data

 

Vitenskapelig artikkel

• Xu Ning; Maria Krutova; Mostafa Bakhoday Paskyabi (2021). Analysis of offshore wind spectra and coherence under neutral stability condition using the two LES models PALM and SOWFA. (ekstern lenke)
• Martin Flügge; Mostafa Bakhoday Paskyabi; Joachim Reuder et al. (2016). Comparison of direct covariance flux measurements from an offshore tower and a buoy. (ekstern lenke)
• Ilker Fer; Mostafa Bakhoday Paskyabi (2014). Autonomous ocean turbulence measurements using shear probes on a moored instrument. (ekstern lenke)
• Martin Flügge; Mostafa Bakhoday Paskyabi; Joachim Reuder et al. (2019). Wind Stress in the Coastal Zone: Observations from a Buoy in Southwestern Norway. (ekstern lenke)
• Mostafa Bakhoday Paskyabi (2017). Wavelet Galerkin scheme for solving nonlinear dispersive shallow water waves: Application in bore propagation and breaking. (ekstern lenke)
• João A. Hackerott; Mostafa Bakhoday Paskyabi; Joachim Reuder et al. (2017). A surface-layer study of the transport and dissipation of turbulent kinetic energy and the variances of temperature, humidity and CO2. (ekstern lenke)
• Mostafa Bakhoday Paskyabi; Ilker Fer (2012). Upper ocean response to large wind farm effect in the presence of surface gravity waves. (ekstern lenke)
• Hoang Hai Bui; Mostafa Bakhoday Paskyabi; Mohammadreza Mohammadpour Penchah (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. (ekstern lenke)
• João A. Hackerott; Luciano P. Pezzi; Mostafa Bakhoday Paskyabi et al. (2018). The role of roughness and stability on the momentum flux in the marine atmospheric surface layer: A study on the Southwestern Atlantic Ocean. (ekstern lenke)
• Shauna Creane; Pedro Santos; Konstanze Kölle et al. (2024). IEA Wind Task 49: Reference Site Conditions for Floating Wind Arrays. (ekstern lenke)
• Alfatih Ali; Kai Håkon Christensen; Øyvind Breivik et al. (2019). A comparison of Langmuir turbulence parameterizations and key wave effects in a numerical model of the North Atlantic and Arctic Oceans. (ekstern lenke)
• Mostafa Bakhoday Paskyabi; Joachim Reuder; Martin Flügge (2016). Automated Measurements of Whitecaps on the Ocean Surface from a Buoy-Mounted Camera. (ekstern lenke)
• Mostafa Bakhoday Paskyabi; Ilker Fer; Alastair David Jenkins (2012). Surface gravity wave effects on the upper ocean boundary layer: modification of a one-dimensional vertical mixing model. (ekstern lenke)
• Mostafa Bakhoday Paskyabi (2015). Offshore wind farm wake effect on stratification and coastal upwelling. (ekstern lenke)
• Mostafa Bakhoday Paskyabi; Ilker Fer (2014). Turbulence structure in the upper ocean: a comparative study of observations and modelling. (ekstern lenke)
• Mostafa Bakhoday Paskyabi (2013). Perturbation in the atmospheric acoustic field from a large offshore wind farm in the presence of surface gravity waves. (ekstern lenke)
• Roshin Pappukutty Raj; Issufo Halo; Sourav Chatterjee et al. (2020). Interaction between mesoscale eddies and the gyre circulation in the Lofoten basin. (ekstern lenke)
• Line Båserud; Joachim Reuder; Marius Opsanger Jonassen et al. (2016). Proof of concept for turbulence measurements with the RPAS SUMO during the BLLAST campaign. (ekstern lenke)
• Mostafa Bakhoday Paskyabi; Maria Krutova; Hai Bui et al. (2022). Multiscale Simulation of Offshore Wind Variability During Frontal Passage: Brief Implication on Turbines’ Wakes and Load. (ekstern lenke)
• Mostafa Bakhoday Paskyabi (2020). Ocean surface hidden structures in the Lofoten area of the Norwegian Sea. (ekstern lenke)
• Mostafa Bakhoday Paskyabi (2015). Particle motions beneath irrotational water waves. (ekstern lenke)
• Xu Ning; Mostafa Bakhoday Paskyabi (2025). Swell impacts on an offshore wind farm in stable boundary layer: wake flow and energy budget analysis. (ekstern lenke)
• Mostafa Bakhoday Paskyabi (2019). A wavelet-entropy based segmentation of turbulence measurements from a moored shear probe near the wavy sea surface. (ekstern lenke)
• Mostafa Bakhoday Paskyabi; Helge Bryhni; Joachim Reuder et al. (2015). Lagrangian measurement of waves and near surface turbulence from acoustic instruments. (ekstern lenke)
• Mostafa Bakhoday Paskyabi (2017). STATISTICAL CHARACTERISTICS OF OCEAN CURRENTS: MEASUREMENTS FROM FIXED AND MOVING PLATFORMS. (ekstern lenke)
• Omar El Guernaoui; Joachim Reuder; Dan Li et al. (2023). The Departure from Mixed-Layer Similarity During the Afternoon Decay of Turbulence in the Free-Convective Boundary Layer: Results from Large-Eddy Simulations. (ekstern lenke)
• Maria Krutova; Mostafa Bakhoday Paskyabi; Joachim Reuder et al. (2020). Evaluation of Gaussian wake models under different atmospheric stability conditions: Comparison with large eddy simulation results. (ekstern lenke)
• Zhaoyu Zhang; Mostafa Bakhoday Paskyabi; Paolo Schito et al. (2022). Wind Farm Inflow Wind Simulation based on Mesoscale and Microscale Coupling. (ekstern lenke)
• Mostafa Bakhoday Paskyabi; Maria Krutova; Finn Gunnar Nielsen et al. (2020). On Stochastic Reduced-Order and LES-based ModelsofOffshore Wind Turbine Wakes. (ekstern lenke)
• Mostafa Bakhoday Paskyabi (2020). Predictive Analysis of Machine Learning Schemes in Forecasting of Offshore Wind. (ekstern lenke)
• Xu Ning; Mostafa Bakhoday Paskyabi (2024). Parameterization of Wave-Induced Stress in Large-Eddy Simulations of the Marine Atmospheric Boundary Layer. (ekstern lenke)
• Alastair David Jenkins; Mostafa Bakhoday Paskyabi; Ilker Fer et al. (2012). Modelling the effect of ocean waves on the atmospheric and ocean boundary layers. (ekstern lenke)
• Mostafa Bakhoday Paskyabi; Martin Flügge (2021). Predictive Capability of WRF Cycling 3DVAR: LiDAR Assimilation at FINO1. (ekstern lenke)
• Maria Krutova; Mostafa Bakhoday Paskyabi; Joachim Reuder et al. (2022). Development of an automatic thresholding method for wake meandering studies and its application to the data set from scanning wind lidar. (ekstern lenke)
• Mostafa Bakhoday Paskyabi; Ali Valinejad; Haman Deilami Azodi (2019). Numerical solution of regularised long ocean waves using periodised scaling functions. (ekstern lenke)
• Mostafa Bakhoday Paskyabi (2024). Impact of swell waves on atmospheric surface turbulence: wave–turbulence decomposition methods. (ekstern lenke)
• Mostafa Bakhoday Paskyabi; Ilker Fer; Joachim Reuder (2017). Current and turbulence measurements at the FINO1 offshore wind energy site: analysis using 5-beam ADCPs. (ekstern lenke)
• Fahim Masud Ahmed; Mostafa Bakhoday Paskyabi (2023). Effects of negative shear on loads for a 15 MW offshore wind turbine during low-level jet events. (ekstern lenke)
• Xu Ning; Mostafa Bakhoday Paskyabi; Hai Bui et al. (2023). Evaluation of sea surface roughness parameterization in meso-to-micro scale simulation of the offshore wind field. (ekstern lenke)
• Mostafa Bakhoday Paskyabi; Martin Flügge; James B. Edson et al. (2013). Wave-induced characteristics of atmospheric turbulence flux measurements. (ekstern lenke)
• Mostafa Bakhoday Paskyabi; Ilker Fer (2013). Turbulence measurements in shallow water from a subsurface moored moving platform. (ekstern lenke)
• Mostafa Bakhoday Paskyabi; Ilker Fer (2014). The influence of surface gravity waves on the injection of turbulence in the upper ocean. (ekstern lenke)
• Mostafa Bakhoday Paskyabi; S Zieger; Alastair David Jenkins et al. (2014). Sea surface gravity wave - wind interaction in the marine atmospheric boundary layer. (ekstern lenke)
• Christiane Duscha; Mostafa Bakhoday Paskyabi; Joachim Reuder (2020). Statistic and coherence response of ship-based lidar observations to motion compensation.. (ekstern lenke)
• Maria Krutova; Mostafa Bakhoday Paskyabi; Joachim Reuder et al. (2023). Self-nested large-eddy simulations in PALM model system v21.10 for offshore wind prediction under different atmospheric stability conditions. (ekstern lenke)
• Hoang Hai Bui; Mostafa Bakhoday Paskyabi (2022). Mesoscale Simulation of Open Cellular Convection: Roles of Model Resolutions and Physics Parameterizations. (ekstern lenke)
• Mostafa Bakhoday Paskyabi (2016). Turbulence-particle interactions under surface gravity waves. (ekstern lenke)

Konferanseposter

• Maria Krutova; Mostafa Bakhoday Paskyabi; Joachim Reuder (2023). Short-term power prediction with the engineering models during the transient event​ ​. (ekstern lenke)
• Ilker Fer; Mostafa Bakhoday Paskyabi; Alastair David Jenkins (2011). Wind, wave, and current interactions in the upper ocean. (ekstern lenke)
• Mostafa Bakhoday Paskyabi; Hoang Hai Bui; Mohammadreza Mohammadpour Penchah (2023). LiDAR-based data assimilation during offshore transient events. (ekstern lenke)
• Maria Krutova; Mostafa Bakhoday Paskyabi; Joachim Reuder et al. (2022). Application of the wake identification via adaptive thresholding to wake characterization and lidar retrieval. (ekstern lenke)
• Mostafa Bakhoday Paskyabi (2016). Nonlinear wave propagation and breaking in the coastal area. (ekstern lenke)
• Xu Ning; Maria Krutova; Mostafa Bakhoday Paskyabi (2021). Analysis of Wind Spectra and Coherence in Neutral Stability at Sea Based on Two LES Codes. (ekstern lenke)
• Mostafa Bakhoday Paskyabi; Helge Thomas Bryhni; Joachim Reuder et al. (2015). Near Surface Turbulence and Gravity Wave Measurements Using a Lagrangian Drifter. (ekstern lenke)
• Martin Flügge; Joachim Reuder; Jeremy Cook et al. (2019). The OBLO infrastructure project - Measurement capabilities for offshore wind energy research in Norway. (ekstern lenke)
• Maria Krutova; Mostafa Bakhoday Paskyabi; Joachim Reuder (2021). An introduction of image processing methods to the wake detection. (ekstern lenke)
• Mostafa Bakhoday Paskyabi (2015). Assessment of wind turbine representation in the upper ocean circulation and turbulence variability. (ekstern lenke)
• Mohammadreza Mohammadpour Penchah; Mostafa Bakhoday Paskyabi; Hoang Hai Bui (2023). Investigating the Impact of Sea Waves on Offshore Wind Simulation: A Study Using the WRF Model. (ekstern lenke)
• Mostafa Bakhoday Paskyabi; Hoang Hai Bui (2023). Investigating the Impact of Sea Waves on Offshore Wind Simulation: A Study Using the WRF Model. (ekstern lenke)
• Mostafa Bakhoday Paskyabi (2020). Short-term Offshore Wind Speed Foarcasting with an Efficient Machine Learning Approach. (ekstern lenke)
• Mostafa Bakhoday Paskyabi (2016). Turbulent Structure over Air-Sea Wavy Interface: Large-Eddy Simulation. (ekstern lenke)
• Mostafa Bakhoday Paskyabi (2021). Offshore Wind Turbine Near- and Far-wake Acoustic Noise Propagation. (ekstern lenke)
• Maria Krutova; Mostafa Bakhoday Paskyabi; Finn Gunnar Nielsen et al. (2020). Evaluation of Gaussian wake models. (ekstern lenke)
• Martin Flügge; Joachim Reuder; Mostafa Bakhoday Paskyabi et al. (2017). Availability of the OBLO infrastructure for wind energy research in Norway. (ekstern lenke)
• Hoang Hai Bui; Mostafa Bakhoday Paskyabi; Joachim Reuder (2025). Low-level jets representation in numerical models: insights from LiDAR observations. (ekstern lenke)
• Hoang Hai Bui; Mostafa Bakhoday Paskyabi (2023). Correction of Meteorological Mast Wind Speed using LiDAR Observation and Selective-bandwidth Gaussian Kernel Density Estimation. (ekstern lenke)
• Annette Stephansen; Mostafa Bakhoday Paskyabi; Trond Kvamsdal et al. (2023). CONWIND – research on smart operation control technologies for offshore wind farms. (ekstern lenke)
• Hoang Hai Bui; Mostafa Bakhoday Paskyabi (2023). Realistic Wake Simulation using the WRF-SADLES System. (ekstern lenke)
• Martin Flügge; Etienne Cheynet; Yngve Heggelund et al. (2020). The COTUR project: Remote sensing of offshore turbulence for wind energy application. (ekstern lenke)
• Mostafa Bakhoday Paskyabi; Martin Flügge; Joachim Reuder (2020). Study of Wind-Wave Interac2ons Based on a Wave-Modified Two Equa2on Model and Measurements at FINO1. (ekstern lenke)
• Mostafa Bakhoday Paskyabi; rohre johannes (2016). The sea surface current response to wave and wind: numerical modeling. (ekstern lenke)
• Hoang Hai Bui; Mostafa Bakhoday Paskyabi (2022). Mesoscale simulation of open cellular convection: roles of model resolutions and physics parameterizations. (ekstern lenke)
• Judith Boekee; Joachim Reuder; Mostafa Bakhoday Paskyabi et al. (2021). Exploring the potential of synthetic turbulence in large eddy simulations during stable conditions over ocean wind farms. (ekstern lenke)
• Martin Flügge; Benny Svardal; Mostafa Bakhoday Paskyabi et al. (2016). OBLO instrumentation at FINO1. (ekstern lenke)
• Mostafa Bakhoday Paskyabi; Thomas Bryhni Helge (2016). Lagrangian Study of Turbulence Structure Near the Sea Surface. (ekstern lenke)
• Karen de Jong; Mostafa Bakhoday Paskyabi; Ana Sofia Aniceto et al. (2025). SOUND FIELD VARIATIONS IN A FLOATING WIND FARM FROM A FISH PERSPECTIVE. (ekstern lenke)
• Mostafa Bakhoday Paskyabi (2021). Wind-Wave Interaction under Changing Atmospheric and Sea-State Conditions. (ekstern lenke)
• Mostafa Bakhoday Paskyabi; Ilker Fer (2012). Upper Ocean Response to Large Wind Farm Effect in the Presence of Surface Gravity Waves. (ekstern lenke)
• Martin Flügge; Benny Svardal; Mostafa Bakhoday Paskyabi et al. (2015). The Offshore Boundary Layer Observatory (OBLO). (ekstern lenke)
• Hoang Hai Bui; Mostafa Bakhoday Paskyabi; Mohammadreza Mohammadpour Penchah (2023). Implementation of a Simple Actuator Disk for Large Eddy Simulation (SADLES) in the WRF Model. (ekstern lenke)
• Mostafa Bakhoday Paskyabi; Ilker Fer; Alastair David Jenkins (2012). Observations and simulation of turbulence in the ocean surface boundary layer. (ekstern lenke)
• Rouzbeh Siavashi; Mostafa Bakhoday Paskyabi; Finn Gunnar Nielsen et al. (2018). Sensitivity analysis of the response of a floating wind turbine. (ekstern lenke)
• Maria Krutova; Mostafa Bakhoday Paskyabi; Joachim Reuder et al. (2021). A study of nested simulations in PALM LES in application to the wind turbines. (ekstern lenke)
• Mostafa Bakhoday Paskyabi; B. Ward; Ilker Fer (2014). Observational and numerical study of wave-turbulence interaction near the sea surface. (ekstern lenke)

Konferanseforedrag

• Martin Flügge; Benny Svardal; Mostafa Bakhoday Paskyabi et al. (2016). Boundary-Layer Study at FINO1. (ekstern lenke)
• Mostafa Bakhoday Paskyabi (2015). Application of vision-based techniques in the study of air-sea interaction processes. (ekstern lenke)
• Mostafa Bakhoday Paskyabi (2015). Turbulence structure beneath surface gravity waves from measurements to model simulation runs. (ekstern lenke)
• Martin Flügge; Joachim Reuder; Benny Svardal et al. (2016). Boundary-Layer Study at FINO1. (ekstern lenke)
• Alastair David Jenkins; Mostafa Bakhoday Paskyabi (2015). Surface waves and atmosphere–ocean interaction. (ekstern lenke)
• Mostafa Bakhoday Paskyabi; Ilker Fer; Alastair David Jenkins (2011). Impacts of Surface Gravity Waves on the Near Surface Dynamic of Open Ocean. (ekstern lenke)
• Mostafa Bakhoday Paskyabi; Maria Krutova; Finn Gunnar Nielsen et al. (2020). On the Stochastic Reduced-Order and LES-based Models of Offshore Wind Turbine Wake. (ekstern lenke)
• Mostafa Bakhoday Paskyabi; Martin Flügge; Michael Schwendemann et al. (2015). Floating Platform Motion Correction Using Video Camera Images. (ekstern lenke)
• Mostafa Bakhoday Paskyabi (2016). Lecturer of GEOF210. (ekstern lenke)
• Mostafa Bakhoday Paskyabi (2024). Unveiling the Dynamics of Flow Variability in and Around Offshore Wind Farms. (ekstern lenke)
• Mostafa Bakhoday Paskyabi; Karen de Jong; Anne Christine Utne Palm (2024). Environmental impacts of floating Hywind Tampen turbine: Noise measurement during WindSYS project’s campaign. (ekstern lenke)
• Alastair David Jenkins; Mostafa Bakhoday Paskyabi; Ilker Fer et al. (2012). Modelling the effect of ocean waves on the atmospheric and ocean boundary layers. (ekstern lenke)
• Mostafa Bakhoday Paskyabi; Ilker Fer (2012). Numerical Modelling of Wind-Driven Circulation Behind a Large Wind Farm In the presence of Surface Gravity Waves. (ekstern lenke)
• Mostafa Bakhoday Paskyabi; Ilker Fer (2016). Characterization of wave-related processes in the upper ocean boundary layer in the North Sea: OBLEX-F1 experiment,. (ekstern lenke)

Forelesning

• Mostafa Bakhoday Paskyabi (2016). Small scale turbulence structure in the upper ocean: a model-observation study. (ekstern lenke)
• Hoang Hai Bui; Mostafa Bakhoday Paskyabi; Mohammadreza Mohammadpour Penchah (2023). Implementation of a Simple Actuator Disk for Large Eddy Simulation (SADLES) in the WRF Model. (ekstern lenke)
• J.A. Hackerott; L. P. Pezzi; Mostafa Bakhoday Paskyabi et al. (2016). Turbulent fluxes observed during the Air-Sea Interaction at the Brazil-Malvinas Confluence. (ekstern lenke)
• Mostafa Bakhoday Paskyabi; Martin Flügge; Joachim Reuder (2017). Air-Sea Interacton at Wind Energy Site in FINO1 Using DCF (Lidar) Measurements from OBLEX-F1 campaign. (ekstern lenke)
• Joachim Reuder; Martin Flügge; Yngve Heggelund et al. (2019). The COTUR campaign - measuring offshore turbulence and coherence With lidars. (ekstern lenke)
• Martin Flügge; Benny Svardal; Joachim Reuder et al. (2017). Meteorological measurements during OBLEX-F1. (ekstern lenke)
• Xu Ning; Mostafa Bakhoday Paskyabi (2023). LES study of the impacts of swells on the atmospheric boundary layer. (ekstern lenke)
• Joachim Reuder; Martin Flügge; Mostafa Bakhoday Paskyabi et al. (2017). The NORCOWE legacy - Data and Instrumentation. (ekstern lenke)
• Mostafa Bakhoday Paskyabi (2016). Turbulence Across the Wavy Air-sea interface: Energetics and Transport. (ekstern lenke)
• Mostafa Bakhoday Paskyabi; Zieger Stefan; Alastair David Jenkins et al. (2014). Air-sea interaction influenced by swell waves. (ekstern lenke)
• Mostafa Bakhoday Paskyabi; Hoang Hai Bui; Mohammadreza Mohammadpour Penchah (2023). Multiscale modelling of low-level jet: Effects on aerodynamic load of offshore wind turbine. (ekstern lenke)
• Xu Ning; Mostafa Bakhoday Paskyabi (2022). A coupled WRF-PALM numerical simulation with parameterized wave effects​. (ekstern lenke)
• Martin Flügge; Joachim Reuder; Mostafa Bakhoday Paskyabi (2016). NORCOWE contributions to improvements in measurement methods and measurement technique. (ekstern lenke)
• Xu Ning; Mostafa Bakhoday Paskyabi (2022). Study of wave effects on the wind turbine aerodynamics with large-eddy simulation in sigma coordinates. (ekstern lenke)
• Xu Ning; Mostafa Bakhoday Paskyabi (2023). Numerical Study of Marine Atmospheric Wind Profile and Turbulence under the Effects of Sea Surface Gravity Waves. (ekstern lenke)
• Christiane Duscha; Mostafa Bakhoday Paskyabi; Joachim Reuder (2020). Ship-based multi-sensor remote sensing and its potential for offshore wind research. (ekstern lenke)
• Joachim Reuder; Martin Flügge; Etienne Cheynet et al. (2019). The COTUR campaign - measuring offshore turbulence and coherence with lidars. (ekstern lenke)
• Mostafa Bakhoday Paskyabi; Martin Flügge (2021). A Mesoscale Model Sensitivity over the Southern North Sea: Comparison with Measurements and Impacts of Data Assimilation. (ekstern lenke)
• Mostafa Bakhoday Paskyabi; Ilker Fer; Joachim Reuder (2016). Upper Ocean Variability at FINO1 Wind Energy Site: Observation and Modelling. (ekstern lenke)
• Mostafa Bakhoday Paskyabi; Hoang Hai Bui; Mohammadreza Mohammadpour Penchah (2023). LiDAR-based data assimilation during offshore transient events. (ekstern lenke)

Rettelse i tidsskrift

• Mostafa Bakhoday Paskyabi; Ilker Fer; Joachim Reuder (2018). Correction to: Current and turbulence measurements at the FINO1 offshore wind energy site: analysis using 5-beam ADCPs. (ekstern lenke)
• Mostafa Bakhoday Paskyabi (2017). Erratum to: Turbulence-particle interactions under surface gravity waves. (ekstern lenke)

Forskningsrapport

• Anne Christine Utne Palm; . et al; Mostafa Bakhoday Paskyabi (2023). Cruise report Hywind Tampen 13 to 28 March 2023. (ekstern lenke)

Doktorgradsavhandling

• Mostafa Bakhoday Paskyabi; Joachim Reuder; Finn Gunnar Nielsen et al. (2024). Investigation of offshore wind turbine wakes by numerical modeling and full-scale measurements. (ekstern lenke)
• Mostafa Bakhoday Paskyabi (2014). Small-scale turbulence dynamics under sea surface gravity waves. (ekstern lenke)

Antologi

• Fuhao Chen; Yongrui Zhang; Jie Yan et al. (2021). Ultra-Short-Term Wind Power Forecasting Based on Attention Mechanism. (ekstern lenke)

Se en full oversikt over publikasjoner i Cristin

[1] LESWIND: Large Eddy Simulation Modelling of Offshore Wind Farms Under the Influence of Varying Atmospheric Stability and Sea-State Conditions

[2] CONWIND: Research on smart operation control technologies for offshore windfarms (lead by NORCE)

[3] HIPERWIND:  HIghly advanced Probabilistic design and enhanced Reliability methods for high-value, cost-efficient offshore WIND (EU H2020 lead by DTU)

[4] Noise measurement in Hywind Tampen (led by IMR)

[5] WindSys: Effects of floating wind farms on the marine ecosystem, with a focus on pelagic fish (WP leader and PI - led by IMR)

[6] FHF: Effects on the seafood industry of offshore wind development (WP leader and PI - led by IMR)

[7] Wind3D: Nonuniform and Three-Dimensional Design of Offshore Wind Parks (WP-leader)

[8] Optimizing wind energy production and operability for multi-decadal climate fluctuations in the Euro-Atlantic region

[9] Mutual Impact of Climate Change and Offshore Renewable Energy (project leader).