From 79587ef06e5af3868869856177558dd3c048c14c Mon Sep 17 00:00:00 2001 From: Marc Henry de Frahan Date: Thu, 16 Nov 2023 10:12:03 -0700 Subject: [PATCH] Add link to video --- gallery.html | 148 ++++++++++++++++++++++++++++----------------------- 1 file changed, 80 insertions(+), 68 deletions(-) diff --git a/gallery.html b/gallery.html index 45a9bd7..486b51d 100644 --- a/gallery.html +++ b/gallery.html @@ -21,26 +21,28 @@

Gallery
- >   - RCCI engine
- >   - Supersonic flameholder
- >   - Multi-GPU
- >   - Shock-drop
- >   - Shock-bubble
- >   - Drop-wall
- >   - Shear flow
- >   - RM instability
- >   - Multi-layer RM
- >   - Blast-interface + >   + Wind farm
+ >   + RCCI engine
+ >   + Supersonic flameholder
+ >   + Multi-GPU
+ >   + Shock-drop
+ >   + Shock-bubble
+ >   + Drop-wall
+ >   + Shear flow
+ >   + RM instability
+ >   + Multi-layer RM
+ >   + Blast-interface

@@ -55,27 +57,37 @@

- Simulation of an RCCI Engine using the Pele Suite of Exascale Codes
+ Simulation of a wind farm using ExaWind
+ 2023 Supercomputing 2023 Showcase

+

+

+ + + + +

+ + Simulation of an RCCI Engine using the Pele Suite of Exascale Codes
2022 APS/DFD Milton van Dyke Award Winner

-

- +

+

- Direct fuel injection effects in a supersonic cavity flameholder
+ Direct fuel injection effects in a supersonic cavity flameholder
2020 APS/DFD Gallery of Fluid Motion Award Winner

-

- +

+

- Multi-GPU parallel implementation through CUDA and MPI

+ Multi-GPU parallel implementation through CUDA and MPI

setup

@@ -84,25 +96,25 @@

- Shock (Mach 2.5) impacts a drop of water in air

+ Shock (Mach 2.5) impacts a drop of water in air

setup

@@ -111,16 +123,16 @@

- Strong shock (19GPa) impacting an air bubble in water

+ Strong shock (19GPa) impacting an air bubble in water

Simulated Schlieren of density. Problem first defined by Ball et al.

@@ -129,16 +141,16 @@

- Water drop at Mach 1.5 impacting on a wall

+ Water drop at Mach 1.5 impacting on a wall

setup

@@ -147,7 +159,7 @@

- Blast-driven high-energy-density shear flow

+ Blast-driven high-energy-density shear flow

High-energy density blast wave initiated on the left drives a shear flow between
light material (foam, top) and a denser material (plastic, bottom). This simulation
models the experiment presented in Di Stefano et al.

@@ -155,10 +167,10 @@

@@ -167,16 +179,16 @@

- Richtmyer-Meshkov instability

+ Richtmyer-Meshkov instability

A Mach 1.21 shock moving downwards interacts with an air-SF6 interface. This
simulation models the experiment presented in Collins et al.

@@ -187,16 +199,16 @@

- Richtmyer-Meshkov instability with multiple layers

+ Richtmyer-Meshkov instability with multiple layers

A Mach 1.21 shock moving downwards interacts with multiple layers of gases
(air-SF6-heavy gas-air). More details can be found in Henry de Frahan et al.

@@ -205,17 +217,17 @@

- Blast wave interacting with perturbed air-SF6 interface

+ Blast wave interacting with perturbed air-SF6 interface

- +

Home  |  @@ -223,6 +235,6 @@

- +