Experimental study of the mass burning rate in n-Heptane pool fire under dynamic pressure

•The higher the pressure rise rate is, the more rapidly the burning rate rises.•The mass burning rate shows a power function growth with the environment pressure.•ṁ/D has a power exponent relationship with Gr, and the exponent factor is 0.309. Fire safety is critical for safety of airplane operatio...

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Bibliographic Details
Published in:Applied thermal engineering 2017-02, Vol.113, p.1004-1010
Main Authors: Ma, Qiuju, Liu, Quanyi, Zhang, Hui, Tian, Runhe, Ye, Junjian, Yang, Rui
Format: Article
Language:English
Subjects:
Aircraft landing
Aircraft safety
Burning rate
Combustion
Dynamic pressure
Emergency landing
Emergency procedures
External pressure
Fire protection
Fuels
Grashof number
Heptanes
High altitude
Landing speed
Low pressure
Mass burning rate
n-Heptane
Pool fire
Pumping
Sea level
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Summary:•The higher the pressure rise rate is, the more rapidly the burning rate rises.•The mass burning rate shows a power function growth with the environment pressure.•ṁ/D has a power exponent relationship with Gr, and the exponent factor is 0.309. Fire safety is critical for safety of airplane operation. During an emergency landing, airplane goes through dramatic external pressure change from cruise altitude to sea level. The objective of this work is to examine the effect of dynamic pressure on the behavior of a horizontally burning flame over a pool fuel surface based on experimental approach. The experiments were conducted in a large-scale altitude chamber of size 2m×3m×4.65m. The pressure rise process was examined under different dynamic pressures from respectively 38kPa, 64kPa and 75kPa to 90kPa with various pressure rise rates of 100Pa/s, 150Pa/s, 200Pa/s, 250Pa/s and 300Pa/s, which is to simulate the airplane landing process from different altitudes with different landing speed. The whole system of the altitude chamber is of unique capability that the pressure in the chamber can be exactly controlled, which are achieved through controlling the air inlet rate and the vacuum pumping rate. A round steel fuel pan of 34cm in diameter were chosen for the pool fire tests. The fuel pan was filled with 99% pure liquid n-Heptane. Parameters such as mass, mass burning rate, chamber pressure were measured. The test results demonstrated the significant impact on fire behaviors caused by high altitude or low pressure atmosphere. The mass burning rate under dynamic pressure increases showed power function growth with the Grashof number, and the exponent factor for all cases is 0.309.
ISSN:1359-4311
1873-5606
DOI:10.1016/j.applthermaleng.2016.11.108