期刊论文

[1]  谢启源，陈丹丹，丁延伟，热重分析技术及其在高分子表征中的应用，高分子学报，2022，第53卷，第2期，193-210

[2]  Xie Q.Y., Gong T, Huang X.Y., Fire Zone Diagram of Flame-Retardant Cables: Ignition and Upward Flame Spread, Fire Technology, 2021, 57, 2643-2659

[3]  Xie Q.Y., Lu Qizhao, Yuan Y.H., Zhang J., Zhou F., Numerical study on the horizontal stretching effect of ground on high-pressure vapor jets of LNG tank leakage, Journal of Loss Prevention in the Process Industries, 2021, 72, 104526 [IF:3.916]

[4]  Xie Q.Y., Luo S.F., Da L.J., Effects of backwall on inner thermal structure in opposed-flow horizontal flame spread of thick PMMA panel, Applied Thermal Engineering, 2021, 185: 116424

[5]  Xie Q.Y., Gao M., Huang X.Y., Fire risk and behaviour of rice during the convective drying process, Fire Safety Journal, 2020, 115, 103013

[6]  Xie Q.Y., Zhang Z.G., Lin S.R., Qu Y., Huang X.Y., Smoldering fire of high-density cotton bale under concurrent wind, Fire Technology, 2020, 56(5), 2241-2256

[7]  Xie Q.Y., Xiang L., Zhang J., Lu Q.Z., Zhou F., Mutual effects between dynamic leakage behavior and the pressure/temperature in a LNG tank with external heat fluxes, Journal of Loss Prevention in Process Industries, 2020, 63: 104029

[8]  Luo S.F., Xie Q.Y.*, Da L.J., Qiu R., Experimental study on thermal structure inside flame front with a melting layer for downward flame spread of XPS foam, Journal Hazardous Materials, 2019, 379:120775

[9]  Luo S.F., Xie Q.Y.*, Qiu R., Melting and dripping flow behaviors on the downward flame spread of a wide XPS foam, Fire Technology, 2019, 55(6)：2055

[10]  Tang X.Y., Xie Q.Y.*, Qiu R., Yang Y., Development of a relationship between kinetic triplets and heating rates to improve pyrolysis kinetic modeling of polymer, Polymer Degradation and Stability, 2018, 154:10-26

[11]  Gong T., Xie Q.Y.*, Huang X.Y., Fire behaviors of flame-retardant cables part I: decomposition, swelling and spontaneous ignition, Fire Safety Journal, 2018, 95:113-121

[12]  Luo S.F., Xie Q.Y.*, Tang X.Y., Qiu R., Yang Y., A quantitative model and the experimental evaluation of the liquid fuel layer for the downward flame spread of XPS foam, Journal of Hazardous Materials, 2017, 329:30-37

[13]  Xie Q.Y., Tu R., Jiang X., Li K., Zhou X.J., The leakage behavior of supercritical CO₂ flow in an experimental pipeline system, Applied Energy, 2014, 130:574-580

[14]  Xie Q.Y., Tu R., Wang N., Ma X., Jiang X., Experimental study on flowing burning behaviors of a pool fire with dripping of melted thermoplastics, Journal of Hazardous Materials, 2014, 267: 48–54

[15]  Wang N., Tu R., Ma X., Xie Q.Y.*, and Jiang X., Melting behavior of typical thermoplastic materials – An experimental and chemical kinetics study, Journal of Hazardous Material, 2013, 262: 9-15

发明专利

[1]  谢启源，陈丹丹，一种弧根驻定与弧柱稳定电弧发生装置及方法，发明专利， 202211001406.2

[2]  谢启源，卢启钊，袁焱华，针对液化天然气小孔高压泄漏快速封堵及抽离装置及方法，202010672974.X

[3]  谢启源，张志刚，一种可插入密实棉包内部的点式灼热引火源模拟装置，发明专利，201910680810.9

[4]  谢启源，陈红，一种高压电力电缆线芯升温控制及内外温度场耦合演化机理研究平台，发明专利，201910274624.5

[5]  谢启源，高萌，磷化氢气体熏蒸环境下粮食多因素耦合引燃机理研究实验平台，发明专利，201811201347.7

[6]  谢启源，雷晴晴，一种穿透气流可调的粒状活性炭堆垛燃烧性能测试平台，发明专利，201810224735.0

[7]  谢启源，唐心弈，一种固体材料逆流火焰蔓延前锋空间位置自动驻定装置，发明专利，ZL201610972320.2

[8]  谢启源，龚泰，赵劲飞，罗圣峰，姜羲，一种桶形环状辐射加热条件下的阻燃电缆竖直燃烧性能测试装置，发明专利，ZL201510465195.1

[9]  谢启源，罗圣峰，赵劲飞，姜羲，一种消除环境光干扰的壁面火焰蔓延特性诊断装置，发明专利， ZL201510257624.6

[10]  谢启源，涂然，周学进，李康，姜羲，模拟CO2管道输运及泄漏的装置，发明专利，ZL 201210555343.5

[11]  马鑫，涂然，王楠，谢启源，一种外加可调节恒定辐射条件下的保温材料火蔓延特性实验装置，发明专利，ZL201310323651.X

[12]  谢启源，涂然，王楠，马鑫，姜羲，一种具有惰性气体保护的热塑性材料加热熔融滴落燃烧测试装置，发明专利，ZL 20131008248.6