In the pipeline
Williams, H., Aiyer, A., Deike, L. and Mueller, M. E. Examining relative impacts of atmospheric and oceanic factors on offshore wind farms
Published
Aiyer, A., Deike, L. and Mueller, M. E. (2023). A dynamic approach to model wind-wave interactions with applications to offshore wind farms. Journal of Renewable and Sustainable Energy (In Press)
Aiyer, A., Deike, L., and Mueller, M. E. (2022). A sea surface-based drag model for Large Eddy Simulations of wind-wave interaction. Journal of Atmospheric Sciences
Ruth D., Aiyer, A., Riviere, A., Perrard, S. and Deike, L., (2022). Experimental observations and modeling of sub-Hinze bubble production by turbulent bubble break-up. Journal of Fluid Mechanics
Aiyer, A., Deike, L. and Mueller, M. E. A wall-modeled approach accounting for wave stress in Large Eddy Simulations of offshore wind farms, Journal of Physics: Conference Series 2265 (2), 022013
Aiyer, A. & Meneveau, C. Resolved and subgrid-scale crossing trajectory effects in Eulerian large eddy simulations of size-dependent droplet transport. Journal of Fluid Mechanics, 935, A15
Aiyer, A. & Meneveau, C. Coupled population balance and large eddy simulation model for polydisperse droplet evolution in a turbulent round jet. Physical Review Fluids, 5, 114305.
Aiyer, A., Yang, D., Chamecki, M., and Meneveau, C. A population balance model for large eddy simulation of polydisperse droplet evolution. Journal of Fluid Mechanics, 878, 700-739.
Aiyer, A. , Subramanian K., and Bhat, P. Passive scalar mixing and decay at finite correlation times in the Batchelor regime. Journal of Fluid Mechanics, 824, 785-817
Invited Seminars
Harnessing the Wind (and Waves): Exploring Offshore Wind Energy (2023)
Hosts: Andlinger Center for Energy and Environment, Princeton University
Bridging the Scales: A Modeling Framework for Turbulent Flows in the Marine Atmospheric Boundary Layer with Application to Offshore Wind Energy (2023)
Hosts: Department of Mechanical Engineering and Mechanics, Lehigh University
Turbulent Flows in the Environment: From Droplets to Boundary Layers (2022)
Hosts: Department of Mechanical and Aerospace Engineering, University of California, San Diego, and Scripps Institute of Oceanography
Turbulent Flows in Environmental Systems: A Symphony of Scales (2022)
Hosts: Department of Mechanical and Materials Engineering, Portland State University.
Studying the Evolution of Droplet Size Distributions Using Large Eddy Simulations (2020)
Hosts: Department of Aerospace Engineering, University of Maryland College Park, and Army Research Lab
Conference Presentations
Aiyer, A., Deike, L. and Mueller, M. E. (2023) Modeling the effect of a broadband wave spectrum including swell in a wall-modeled Large Eddy Simulation framework , WISE Meeting, Princeton, USA
Aiyer, A., Deike, L. and Mueller, M. E. (2022) Wall-modeled Large Eddy Simulation of offshore wind turbine wake-wave spectrum interactions, American Physical Society Division of Fluid Dynamics, Indianapolis, USA
Williams, H., Aiyer, A., Deike, L. and Mueller, M. E. (2022) Computationally Efficient Wave-Modeled Large Eddy Simulation of Finite Offshore Wind Farms, NAWEA/WindTech, Delaware, USA
Aiyer, A., Deike, L. and Mueller, M. E. (2022) A wall-modeled approach accounting for wave stress in Large Eddy Simulations of offshore wind farms, TORQUE, Delft, Netherlands
Aiyer, A., Deike, L. and Mueller, M. E. (2022) Airflow over a spectrum of moving waves, WISE Meeting, Brest, France
Aiyer, A., Deike, L. and Mueller, M. E. (2022) A Sea Surface-based Drag Model for Wind-wave Interaction in the Marine Atmospheric Boundary Layer, Ocean Sciences Meeting, Hawaii, USA
Aiyer, A., Deike, L. and Mueller, M. E. (2021) A sea surface-based drag model for Large Eddy Simulation of wind-wave interaction}, American Geophysical Union, New Orleans, USA
Aiyer, A., Deike, L. and Mueller, M. E. (2021) Wall-modeled Large Eddy Simulation of wave effects in offshore wind farms, American Physical Society Division of Fluid Dynamics, Phoenix, USA
Aiyer, A., and Meneveau, C. (2020) Coupled Population Balance and Large Eddy Simulation model for Polydisperse Droplet Evolution in a Turbulent Round Jet, American Physical Society Division of Fluid Dynamics, Chicago, USA
Aiyer, A., and Meneveau, C. (2019) Reduced 1D population dynamics model for inflow size distribution in LES of oil droplet plumes, American Physical Society Division of Fluid Dynamics, Seattle, USA
Saltar, G., Aiyer, A., and Meneveau, C. (2019) Developing Notebook-based Flow Visualization and Analysis Modules for Computational Fluid Dynamics, American Physical Society Division of Fluid Dynamics, Seattle, USA
Aiyer, A., Yang, D., Chamecki, M., and Meneveau, C. (2019) Population Balance Modeling to study evolution of jet with polydisperse oil droplets in a Large Eddy Simulation framework, Gulf of Mexico Oil Spill & Ecosystem Science Conference, New Orleans, USA
Aiyer, A., Yang, D., Chamecki, M., and Meneveau, C. (2018) Population Balance Modeling to study evolution of jet with polydisperse oil droplets in a Large Eddy Simulation framework, American Physical Society Division of Fluid Dynamics, Atlanta, USA
Aiyer, A., Yang, D., Chamecki, M., and Meneveau, C. (2018) Large Eddy Simulation including population dynamics model for polydisperse droplet evolution in turbulence, Gulf of Mexico Oil Spill & Ecosystem Science Conference, New Orleans, USA
Aiyer, A., Yang, D., Chamecki, M., and Meneveau, C. (2017) Large Eddy Simulation including population dynamics model for polydisperse droplet evolution, American Physical Society Division of Fluid Dynamics, Denver, USA