interactive system for pulverized coal combustion visualization with fluid simulator marek gayer,...
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![Page 1: Interactive System for Pulverized Coal Combustion Visualization with Fluid Simulator Marek Gayer, Pavel Slavík and František Hrdlička Department of Computer](https://reader035.vdocuments.us/reader035/viewer/2022062320/56649cd95503460f949a333e/html5/thumbnails/1.jpg)
Interactive System for Pulverized Coal Combustion Visualization with
Fluid Simulator
Interactive System for Pulverized Coal Combustion Visualization with
Fluid Simulator
Marek Gayer, Pavel Slavík and František Hrdlička
Department of Computer Science and EngineeringFaculty of Electrical Engineering of CTU in Prague
Czech Republic
Visualization, Imaging and Image Processing (VIIP)
Malaga – Spain - September 9-12, 2002
w w w . c g g . c v u t . c z
Computer Graphics Group
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2VIIP '2002
Outline of the presentationOutline of the presentation
Introduction and motivation Fluid flow modeling - CFD Our Fluid simulator Virtual coal particle system Simplified combustion and heat transfer Implementation and visualization Our results and their reliability Conclusion and future work
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3VIIP '2002
Introduction and motivation to coal combustion visualizationIntroduction and motivation to coal combustion visualization
Both for the ecological and economical reasons)
Finding optimal boiler configurations.– To reduce pollution– To find a way for
optimal fuel preparation How can visualization help
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4VIIP '2002
The modeling of fluid flow - CFDThe modeling of fluid flow - CFD
Most often: solving complex differential equations (e.g. Navier-Stokes)
Fluid simulators for computer graphics Coal combustion as an CFD application Current solutions and systems:
Precise, robust, well-known
Slow, no real-time
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5VIIP '2002
Our fluid simulatorOur fluid simulator Dividing the boiler area to
“voxel” arrays Mass fluxes and velocity
changes per time dt based on Newton’s second law and continuity equation
Principle of local simulation Is fast, easy to implement,
reusable but “unstable”
For more information, see our paper
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6VIIP '2002
Virtual coal particle systemVirtual coal particle system Used both for simulation
and visualization of the combustion process
Virtual particle system approach
Movement determination:– Aerodynamic resistance– Gravity force
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7VIIP '2002
Simplified combustion and heat transferSimplified combustion and heat transfer
The temperature array Statistical view of combustion process Basic coal properties Some of the combustion issues:
– Various combustion phase steps – Heat distribution to the particles and air– Heat radiation and to voxels and walls
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8VIIP '2002
t = 0 seconds:
T = 303oC (above ignition)O2 concentration = 60%
Coal particle
Partially burned particle
C
C
C
t = 0.01 seconds:
T = 305oC (increased)O2 concentration = 57%
Partially burned coal particles
Coal particle transformed to burned ash particle
C
B
C
C
C
Interaction of virtual coal particlesInteraction of virtual coal particlesInteraction of virtual coal particlesInteraction of virtual coal particles
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9VIIP '2002
Our interactive combustion systemOur interactive combustion system
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10VIIP '2002
Our interactive combustion systemOur interactive combustion system
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11VIIP '2002
Sample visualization of our system using particle systems and linear interpolation
Sample visualization of our system using particle systems and linear interpolation
Visualization of coal particles flowing from jets.
Visualization of coal particles flowing from jets.
Detail of coal particles flowing from jets.
Detail of coal particles flowing from jets.
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12VIIP '2002
Results comparison - visual appearanceResults comparison - visual appearance
Velocities magnitude Our system | FLUENT 5.5
Velocities magnitude Our system | FLUENT 5.5
Temperatures Our system | FLUENT 5.5
Temperatures Our system | FLUENT 5.5
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13VIIP '2002
Results comparison – global parametersResults comparison – global parameters
Parameter Our system FLUENT 5.5
Average Temperature 890 oC 1002 oC
Outlet Temperature 814 oC 1068 oC
Max Temperature 2546 oC 2488 oC
Average stream velocity 14 m/s 11 m/s
Average outlet velocity 56 m/s 48 m/s
Wattage 187 W/m3 232 W/m3
Mass total 21.1 kg 21.3 kg
Solution converge time Below 1 min 7 hours
Real-time simulation / visualization
Enabled, 10 FPS
Not available
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14VIIP '2002
Results comparison – numerical approachResults comparison – numerical approach
Built-in numerical comparison code Statistically compares the results
between our system and FLUENT From 60% to 80% voxels are less than
20% different from FLUENT values (temperature, flow directions, ... )
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15VIIP '2002
Conclusion and future researchConclusion and future research
Interactive 2D coal combustion system with:– Fast & simple real-time fluid simulator (reusable)– Simplified combustion engine– Real-time visualization using OpenGL– Results reliability tested with FLUENT– Designated for education and “preview” design
Future research: – Precision improvements – further to reality– Further testing on real boiler tasks– The real-time 3D combustion system experiment
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16VIIP '2002
Thank you for your attention.Thank you for your attention.
???Do you have any questions ?