Fuchen Jia scite author profile

In this paper, coupled fire and evacuation simulation tools are used to simulate the Station Nightclub fire. This study differs from the analysis conducted by NIST in three key areas; (1) an enhanced flame spread model and (2) a toxicity generation model are used, (3) the evacuation is coupled to the fire simulation. Predicted early burning locations in the full-scale fire simulation are in line with photographic evidence and the predicted onset of flashover is similar to that produced by NIST. However, it is suggested that both predictions of the flashover time are approximately 15 sec earlier than actually occurred. Three evacuation scenarios are then considered, two of which are coupled with the fire simulation. The coupled fire and evacuation simulation suggests that 180 fatalities result from a building population of 460. With a 15 sec delay in the fire timeline, the evacuation simulation produces 84 fatalities which are in good agreement with actual number of fatalities. An important observation resulting from this work is that traditional fire engineering ASET/RSET calculations which do not couple the fire and evacuation simulations have the potential to be considerably over optimistic in terms of the level of safety achieved by building designs.

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CFD fire simulation of the Swissair Flight 111 in-flight fire – Part II: Fire spread analysis

Jia

Patel

Galea

et al. 2006

Aeronaut. j.

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developed an in-flight fire shortly after take-off which resulted in the loss of the aircraft, a McDonnell Douglas MD-11, and all passengers and crew. The Transportation Safety Board (TSB) of Canada, Fire and Explosion Group launched a four year investigation into the incident in an attempt to understand the cause and subsequent mechanisms which lead to the rapid spread of the in-flight fire. As part of this investigation, the SMARTFIRE Computational Fluid Dynamics (CFD) software was used to predict the 'possible' development of the fire and associated smoke movement. In this paper the CFD fire simulations are presented and model predictions compared with key findings from the investigation. The model predictions are shown to be consistent with a number of the investigation findings associated with the early stages of the fire development. The analysis makes use of simulated pre-fire airflow conditions within the MD-11 cockpit and above ceiling region presented in an earlier publication (Part I) which was published in The

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Ordered Mesoporous Intermetallic Trimetals for Efficient and pH‐Universal Hydrogen Evolution Electrocatalysis

Wang

Sun

et al. 2022

Advanced Energy Materials

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which remarkably limit large-scale commercial implementation, especially under a wide pH range.Intermetallic compounds are highly promising alloy materials for catalysis and electrocatalysis. [4] Benefiting from strong d-orbital interaction and ordered stoichiometry, intermetallic compounds have not only exhibited optimized electronic structure and enlarged utilization efficiency for enhancing their mass activity, but also enabled "enthalpy" stability for improving long-term durability. [4b,5] Of various intermetallic compounds available, intermetallic platinum-zinc (I-PtZn) bimetals with a L1 0 crystalline phase structure have received special research attention, because of its high activity in electrocatalysis and promising selectivity in semihydrogenation reactions. [4e,5b,6] However, the champion activity of I-PtZn bimetals, especially for HER electrocatalysis, has not been matched in electrocatalysts, suggesting room for further improvement.

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Predicting toxic gas concentrations resulting from enclosure fires using local equivalence ratio concept linked to fire field models

2006

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SUMMARYA practical CFD method is presented in this study to predict the generation of toxic gases in enclosure fires. The model makes use of local combustion conditions to determine the yield of carbon monoxide, carbon dioxide, hydrocarbon, soot and oxygen. The local conditions used in the determination of these species are the local equivalence ratio (LER) and the local temperature. The heat released from combustion is calculated using the volumetric heat source model or the eddy dissipation model (EDM). The model is then used to simulate a range of reduced-scale and full-scale fire experiments. The model predictions for most of the predicted species are then shown to be in good agreement with the test results.

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MRI in the evaluation of obstructive reproductive tract anomalies in paediatric patients

Zhang

Ning

et al. 2017

Clinical Radiology

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Fuchen Jia

Coupled Fire/Evacuation Analysis of the Station Nightclub Fire

CFD fire simulation of the Swissair Flight 111 in-flight fire – Part II: Fire spread analysis

Ordered Mesoporous Intermetallic Trimetals for Efficient and pH‐Universal Hydrogen Evolution Electrocatalysis

Predicting toxic gas concentrations resulting from enclosure fires using local equivalence ratio concept linked to fire field models

MRI in the evaluation of obstructive reproductive tract anomalies in paediatric patients

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