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J. Wang, S. Lu, Y. Guan, S. M. Lo and H. P. Zhang (2015) Applied Thermal Engineering 89 526-533.
Date: 2016-02-26   Author: SKLFS  ,   Source: SKLFS  ,
 

J. Wang, S. Lu, Y. Guan, S. M. Lo and H. P. Zhang (2015) Experiment investigation on the influence of low pressure on ceiling temperature profile in aircraft cargo compartment fires. Journal/Applied Thermal Engineering 89 526-533. [In English]
Web link: http://dx.doi.org/10.1016/j.applthermaleng.2015.06.021
Keywords: Ceiling thermal flow, Low pressure, Ceiling temperature profile, Aircraft cargo compartment, Ceiling jet, LOW AIR-PRESSURE, GAS TEMPERATURE, HIGH-ALTITUDE, HEAT-TRANSFER, FLAME, HEIGHT, SPILL PLUME, SMOKE FLOW, JET ARRAY, BUOYANT, ATMOSPHERE
Abstract: The objective of the present study is to evaluate the low pressure effects on ceiling temperature profile in aircraft cargo compartment fires, which will affect the activation of fire detectors. A Series of fire tests were carried out in a full scale simulated aircraft cargo compartment at four atmospheric pressures (100 kPa, 90 kPa, 80 kPa and 70 kPa) corresponding to the pressure within an actual aircraft cargo compartment from the sea level to the cruising altitude (about 10,000 m). Results show that the maximum ceiling temperature increases and the ceiling temperature decays faster as ambient pressure reduces. The air entrainment ratio C-alpha is proposed in the correlation to predict the maximum ceiling temperature based on previous plume theory, considering the low pressure effect and entrainment coefficient. Meanwhile, modified by the air entrainment ratio C-alpha, the previous classic correlations established by Alpert, Heskestad and Delichatsios for the ceiling temperature decay profile are further extended to low pressure conditions. The results based on Heskestad and Delichatsios method are more accurate than that of Alpert method in the experiments. All these findings would provide theoretical basis for the design of fire detection system in the aircraft cargo compartment. (C) 2015 Elsevier Ltd. All rights reserved.


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