commit 4c0f4bf388ac322a49950df8c55734b1374d450f
parent 40fe8732c0e58d578c07f201c515128110a4a591
Author: Vincent Forest <vincent.forest@meso-star.com>
Date: Thu, 7 Jan 2021 21:10:13 +0100
Add the infrared rendering of the porous example
Diffstat:
5 files changed, 28 insertions(+), 11 deletions(-)
diff --git a/stardis/IR_rendering.jpg b/stardis/IR_rendering.jpg
@@ -1 +0,0 @@
-#$# git-wad 1ec3c95eef834ff5d392e7d572e42af1e70ad720b820342f4c392369740a2fbe 36425
-\ No newline at end of file
diff --git a/stardis/Makefile b/stardis/Makefile
@@ -20,6 +20,7 @@ SRC = stardis.html.in
IMG = \
foam.jpg \
foam_path.jpg \
+ foam_ir_1280x720x128.jpg \
heatsink.jpg \
heatsinkx50.jpg \
heatsink_anim.gif \
diff --git a/stardis/foam_ir_1280x720x128.jpg b/stardis/foam_ir_1280x720x128.jpg
@@ -0,0 +1 @@
+#$# git-wad faf3dc7cfdee43c5041757baee7269e9014ac59ad7f5c550b8e710befb6daa52 291399
+\ No newline at end of file
diff --git a/stardis/stardis.html.in b/stardis/stardis.html.in
@@ -150,13 +150,13 @@ Stardis-Solver upon the aforementioned hypothesis.</p>
<div class="img" style="width: 18em;">
<a href="heatsink_anim.gif"><img src="heatsink_anim_thumb.gif" alt="heatsink"></a>
<div class="caption">
- Unsteady infrared rendering of a chip and its heatsink during 15 seconds. One
- image per second is simulated using Stardis. We point out that these
- rendering was performed without any knowledge on the temperature field.
- Thanks to Monte Carlo reformulation of heat transfers, the radiative paths
- that begin at the camera will propagate alternately in conductive, convective
- and radiative path until a boundary condition or a limit condition is
- reached. Acknowledgment to <a
+ Unsteady infrared rendering of a chip and its heatsink during 15 seconds. The
+ temperature is expressed in Kelvin. One image per second is simulated using
+ Stardis. We point out that these rendering was performed without any
+ knowledge on the temperature field. Thanks to Monte Carlo reformulation of
+ heat transfers, the radiative paths that begin at the camera will propagate
+ alternately in conductive, convective and radiative path until a boundary
+ condition or a limit condition is reached. Acknowledgment to <a
href=https://www.imt-mines-albi.fr/fr/lea-penazzi>Léa Penazzi</a> and <a
href=https://www.icam.fr/enseignant-chercheur/anne-castelan/>Anne
Castelan</a> for the scene geometry (also available in <a
diff --git a/stardis/stardis.sh b/stardis/stardis.sh
@@ -134,9 +134,13 @@ intro=$(cat $dir_temp/$sdis_spk/README.html \
| sed 1d \
| sed '/^<h2>Content<\/h2>/,$d')
-content=$(cat $dir_temp/$sdis_spk/README.html \
+content1=$(cat $dir_temp/$sdis_spk/README.html \
| sed '/^<h2>Content<\/h2>/,$!d' \
| sed 1d \
+ | sed '/^<h3>The porous medium<\/h3>/,$d')
+
+content2=$(cat $dir_temp/$sdis_spk/README.html \
+ | sed '/^<h3>The porous medium<\/h3>/,$!d' \
| sed '/^<h2>Copyright notice<\/h2>/,$d')
license=$(cat $dir_temp/$sdis_spk/README.html \
@@ -170,7 +174,19 @@ license=$(cat $dir_temp/$sdis_spk/README.html \
echo " </div>"
echo "</div>"
- echo "$content"
+ echo "$content1"
+
+ echo "<div class=\"img\" style=\"padding-top:3em; width: 17em\">"
+ echo " <a href=\"foam_ir_1280x720x128.jpg\">"
+ echo " <img src=\"foam_ir_1280x720x128.jpg\" alt=\"foam_ir\">"
+ echo " </a>"
+ echo " <div class=\"caption\">"
+ echo " Illustration of the infrared rendering of the porous example. The"
+ echo " color map displays the temperature in Kelvin."
+ echo " </div>"
+ echo "</div>"
+
+ echo "$content2"
echo "$license"
print_footer
