News and Research

The graduation thesis of our college was awarded the 2023 "Excellent Master thesis of China Fire Protection Association"

time:2023-11-15author:click:

In a recent revelation, the eminent China Fire Protection Association proudly unveiled the results of its coveted "Excellent Doctoral Dissertation" evaluation. Following a rigorous gauntlet of assessments involving preliminary scrutiny, thorough evaluation through correspondence, and comprehensive deliberations in evaluative forums, Dou Yuling, an illustrious graduate from the Energy Science and Power Department of our distinguished institution, emerged triumphant. His master's thesis titled "Research on Behavioral Characteristics of Jet Diffusion Flame under Special Conditions" garnered resounding acclaim, securing the esteemed accolade as the "Excellent Master Paper of the China Fire Protection Association" in 2023.

The distinguished honor conferred by the China Fire Protection Association is a testament to rigorous selection standards. Each year, the association meticulously selects no more than 15 outstanding doctoral or master's theses, comprising a maximum of 20% of the submissions. These theses embody pioneering breakthroughs, representing the vanguard of their respective disciplines. They showcase theoretical accomplishments that attain domestic or international eminence, promising significant societal benefits or application prospects.

Established in September 1984, the China Fire Protection Association, commonly known as CFPA, stands as a voluntary confluence of fire science and technology professionals, fire service experts, and entities dedicated to fire research, education, and enterprises. Operated under the aegis of the China Association for Science and Technology, CFPA plays a pivotal role in advancing fire safety technology, ensuring its crucial contribution to societal welfare and progress.

The groundbreaking work of Dou Yuling has illuminated the realms of combustion dynamics through the astute analysis of laminar flow combustion speed, carbon smoke generation rate, carbon smoke flow speed, and chemical equivalent ratio. His research unveiled the nuanced alterations in radiation intensity subsequent to CO2 gas infusion with propane, culminating in the formulation of a theoretical predictive model for flame radiation fraction and blue flame length. Furthermore, by extrapolating from the OH concentration distribution cloud map in computational fluid dynamics (CFD) simulations, Dou Yuling established a mathematical correlation between gravity acceleration and flame height. His analysis of the jet flame absorption coefficient under diverse gravity acceleration conditions has led to the delineation of an explicit model elucidating the relationship between varying gravity acceleration and absorption coefficient.

Graduating from the esteemed Department of Energy Science and Power at the School of Automotive and Traffic Engineering in 2022, Dou Yuling was under the tutelage of Associate Professor Liu Yongqiang and Associate Researcher Tao Changfa. His academic prowess has been underscored by numerous accolades, including the first-class academic scholarship, national scholarship, and distinctions as the Outstanding Master's Graduate of Anhui Province and the Excellent Master's Graduate of Hefei University of Technology. Currently employed at the AVIC Xi'an Aircraft Design and Research Institute, Dou Yuling is fervently engaged in technical research and system design focusing on aircraft fire protection and other related domains.

(Original Link: https://mp.weixin.qq.com/s/tgPmwfqqD3HChgg_XRaZqQ)