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Human torch
Magnesium metal combustion
Pouring lava
Rose_zoom
Propane-in-oxygen
Re-constructed-biomass-flame-before-and-after-water-leaching
Spray Combustion
Gaseous Diffusion Flame
strong
123
Coal_crop
Coal-swirl1
Coal-swirl2
Coal-swirl3
Color-Images-of-Normal-and-Inverse-Diffusion-Flames-Zhengyang-Wang-Art-Competition
DSC_1112
face1
hancken-flame-IR-photo
Inverse Diffusion Flame (Sunderland)
Effect-of-Zst
normal and inverse
Layered-
Microtome-FAST-2_013
Nanostructured-cathode-material-2
Nanostructured-lithium-cathode-material
Picture-5-1
Spray-pyrolysis-particle
Frog face
BASF-microtome
Deformed-lithium14
Deformed-lithium-cathode11
Deformed-lithium-cathode-material
NMC Cathode Materials for Lithium-ion Batteries
Sodium Flame Synthesis Reactor for Nano-Ta Capacitor Materials
Hollow lithium cathode material
Nanostructured lithium cathode material 2
Non-hollow cathode material synthesized via spray pyrolysis
Elemental composition of particles produced by spray pyrolysis as observed by EDAX spectroscopy
Interior structures of non-slurry (a and b) and slurry (no-hollow) (c and d) materials
CeO2 ALD-coated Li-rich NMC
micro2
NASA-Art-competition_2
NASA-Spherical-flame-art-competition
Picture-2
Picture-3
Axelbaum-Taylor-Microgravity_2
home2
Effect-of-Zst
Screenshots from a high-speed video of a tri-axial methane diffusion flame burning with pure oxygen in the inner nozzle
Tri-axial methane diffusion flame burning with pure oxygen in the inner nozzle
2018-10-04 Art Competition for 2018 ASGSR
Screenshots from a high-speed video of a tri-axial methane diffusion flame burning with pure oxygen in the inner nozzle2
Coal-combustion-in-oxygen1-Junior
Spherical-ash-particle-captured-from-coal-burnt-in-1800-K-flame
Coal-particle-with-its-surface-covered-by-volatiles-quenched-by-dilution
Coal-particles-interspersed-with-spherical-ash-from-1300-K-flame
coal-particle-extracted-after-50-ms-from-a-reducing-to-oxidizing-combustion-environment-at-1800-K
Interesting-flame-and-heated-thermo-couple
SPOC lab
Figure-showing-a-unique-flame-design-with-reducing-to-oxidizing-transition-characterized-at-three-different-temperature
Biomass ignitoin, mineral release, and PM emission-system
soot study
IMG_0579_result
