Geophysical Turbulence Program Records

The Geophysical Turbulence Program (GTP) is a formal NCAR-wide activity with more than forty members. The broad goal of GTP is to promote research, education and awareness of geophysical turbulence at NCAR and in the scientific community. This collection contains abstracts and presentations from three GTP-sponsored workshops as well as seminar flyers and minutes from annual meetings.

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(61 - 80 of 96)

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Observational and numerical studies on turbulent entrainment-mixing processes
High-resolution simulation results of kinematic and dynamic collision statistics of cloud droplets
Cloud microphysical effects of turbulent mixing and entrainment
Rendering salient regions and interaction maps using GPU
An overview of sea spray aerosol production, scaling, and surface-layer interactions
Parallel implementation and scalability analysis of a turbulent particle laden flow code
The inverse droplet coagulation problem
Effect of gravity on acceleration statistics of inertial particles in homogeneous isotropic turbulence
Hybrids FFTs on heterogeneous CPU/GPU computers [abstract]
Observational and numerical studies on turbulent entrainment-mixing processes [abstract]
The behaviour of small inertial particles in homogeneous and isotropic turbulence [abstract]
Modeling the bubbly ocean [abstract]
Relative velocities of inertial particles in turbulent aerosols
Clouds and climate
Analysis of droplet motion [abstract]
High-resolution simulation results of kinematic and dynamic collision statistics of cloud droplets [abstract]
The role of water droplets in air-sea interaction: Rain and sea spray [abstract]
Mixing and entrainment in clouds
Toward faster and more accurate computation of hydrodynamic droplet-droplet interactions [abstract]
Sea spray and its effects on near-surface turbulence

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