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Microgravity combustion of polyethylene droplet in drop tower
Peiyi Sun
, Chuanjia Wu
, Feng Zhu
, Shuangfeng Wang
,
Xinyan Huang
The Hong Kong Polytechnic University
Research output
:
Journal article publication
›
Journal article
›
Academic research
›
peer-review
36
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Citations (Scopus)
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Dive into the research topics of 'Microgravity combustion of polyethylene droplet in drop tower'. Together they form a unique fingerprint.
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Keyphrases
Bubbling Process
16%
Bulk Density
16%
Burning Behavior
16%
Burning Rate
16%
Burning Rate Constant
33%
Combustion
16%
Combustion Experiment
16%
Comets
16%
Drop Tower
100%
Fire Heat Release Rate
16%
Fire Risk
50%
Free Fall
16%
Fuel Mass
16%
Gravity Level
16%
Hydrocarbon Liquids
16%
Initial Velocity
16%
Mass Burning Rate
16%
Mass Loss Rate
16%
Mass Transfer
16%
Microgravity
16%
Microgravity Combustion
100%
Microgravity Environment
16%
Microgravity Experiments
16%
Molten Thermoplastic
16%
Moving Droplet
33%
Near-zero
16%
Physical Understanding
16%
Plastic Materials
16%
Polyethylene
100%
Polyethylene Tube
16%
Shrinkage Rate
16%
Small Mass
16%
Spherical Flame
16%
Spray Combustion
16%
Square Law
16%
Total Mass Loss
16%
Transfer number
16%
Unburnt
16%
Volume Shrinkage
16%
Zero Velocity
16%
Engineering
Bulk Density
25%
Burning Rate
100%
Droplet Combustion
25%
Fire Hazards
25%
Free Fall
25%
Fuel Mass
25%
Heat Release Rate
25%
Hydrocarbon Liquid
25%
Initial Velocity
25%
Mass Loss
50%
Microgravity Environment
25%
Rate Constant
50%
Tower
100%