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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Dispersed multiphase flows: From Stokes suspensions to turbulence [abstract]
Test-tube model for rainfall [abstract]
Questions on the evolution, structure, and horizontal extent of wave-turbulence effects
Gravity wave interactions and instabilities accompanying multi-scale superpositions in the stable boundary layer
Experimental investigation of small inertial droplets in turbulence
Parallel implementation and scalability analysis of turbulent particle laden flow modeling
Interplay between turbulence and particles in environmental flows with primary focus on turbidity currents
Effect of turbulent enhancement of collision-coalescence on warm rain formation in maritime shallow convection
3D turbulence resolving simulation on convective sedimentation of fine sediment in the coastal environment
Clouds and climate
High-resolution simulation results of kinematic and dynamic collision statistics of cloud droplets [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
Rendering salient regions and interaction maps using GPU [abstract]
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]

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