教师姓名:阳东
邮箱地址:yangdong@cqu.edu.cn
工作电话:未公开



阳东

姓名:阳东

职称:教授、博导

1.       主要研究方向:建筑环境中的传热传质、特殊建筑火灾防治与烟气控制、通风、燃烧理论及应用

2.       社会兼职、国内外学术团体、学术期刊任职情况:国际燃烧学会会员;国家自然科学基金委通讯评议专家;中国消防协会建筑防火专业委员会委员;中国环境科学学会室内环境与健康分会青年委员;Building and EnvironmentEnergy and BuildingsApplied Energy13个著名国际学术期刊的审稿人。

3.       教育及进修经历:

2010年毕业于中国科学技术大学

4.       主持或主研的科学研究项目

主持国家自然科学基金项目3项;参加国家重点研发计划项目、973项目与科技部国际合作项目;主持省部级项目4项;主持重要横向工程项目与军工项目10余项。

5.       主要学术论文与代表作

论文:

[1]     Yang D*, Wei HB, Shi R. A demand-oriented approach forintegrating earth-to-air heat exchangers into buildings for achievingyear-round indoor thermal comfort [J]. Energy Conversion and Management, 2019,182:95-107.

[2]     Yang D*,Guo YH, Zhang JP. Evaluation of the thermal performance of an earth-to-air heatexchanger (EAHE) in a harmonic thermal environment [J]. Energy Conversion and Management, 2016, 109:184-194.

[3]     Yang D*,Li P. Dimensionless design approach, applicability and energy performance of stack-basedhybrid ventilation for multi-story buildings[J].Energy, 2015, 93:128-140.

[4]     Yang D*,Guo YH. Fluctuation of natural ventilation induced by nonlinear couplingbetween buoyancy and thermal mass [J]. International Journal of Heat and MassTransfer, 2016, 96:218-230.

[5]     Yang D*,Zhang JP. Analysis and experiments on the periodically fluctuating airtemperature in a building with earth-air tube ventilation [J]. Building andEnvironment, 2015, 85:29-39.

[6]     Yang D*,Li P. Natural ventilation of lower-level floors assisted by the mechanicalventilation of upper-level floors via a stack [J]. Energy and Buildings, 2015,92:296-305.

[7]     Yang D*,Zhang JP. Theoretical assessment of the combined effects of building thermalmass and earth-air-tube ventilation on the indoor thermal environment [J].Energy and Buildings, 2014, 81:182-199.

[8]     Yang D*,Du T, Peng SN, Li BZ. A model for analysis of convection induced by stackeffect in a shaft with warm airflow expelled from adjacent space [J]. Energyand Buildings, 2013, 62:107-115.

[9]     Yang D*,Huo R, Zhang XL, Zhu S, Zhao XY. Comparative study on carbon monoxidestratification and thermal stratification in a horizontal channel fire [J].Building and Environment, 2012, 49:1-8.

[10] Yang D*,Huo R, Zhang XL, Zhao XY. On the front velocity of buoyancy-driven transientceiling jet in a horizontal corridor: Comparison of correlations withmeasurements [J]. Applied Thermal Engineering, 2011, 31:2992-2999.

[11] Yang D*,Huo R, Zhang XL, Zhao XY. Comparison of the distribution of carbon monoxideconcentration and temperature rise in channel fires: Reduced-scale experiments [J].Applied Thermal Engineering, 2011, 31(4): 528-536.

[12] Yang D, Hu LH*,Huo R, Jiang YQ, Liu S, Tang F. Experimental study on buoyant flowstratification induced by a fire in a horizontal channel[J]. Applied ThermalEngineering, 2010, 30(8-9): 872-878.

[13] Yang D*, Ding Y, Du T, MaoSH*, Zhang ZJ. Buoyant back-layeringand the critical condition for preventing back-layering fluid in inclinedtunnels under natural ventilation: Brine water experiments[J]. ExperimentalThermal and Fluid Science, 2018, 90:319-329.

[14] Yang D*, Liu YL, Zhao CM, MaoSH. Multiple steady states of fire smoke transport in a multi-branch tunnel:Theoretical and numerical studies[J]. Tunnelling and Underground Space Technology,2017, 61:189-197.

[15] Yang D*,Li BZ, Du T, Li N. Analytical models for evaluating buoyancy-driven ventilationdue to stack effect in a shaft considering heat transfer from shaft interiorboundaries[J]. Journal of Central South University, 2012, 19(3):651-656.

[16] Yang D, Hu LH*,Jiang YQ, Huo R, Zhu S, Zhao XY. Comparison of FDS predictions by differentcombustion models with measured data for enclosure fires[J]. Fire SafetyJournal, 2010, 45(5): 298-313.

[17] Yang D*,Li P. Multiple patterns of heat and mass flow induced by the competition offorced longitudinal ventilation and stack effect in sloping tunnels[J].International Journal of Thermal Sciences, 2019, 138:35-46.

[18] Wei HB, Yang D*,Guo YH, Chen MQ. Coupling of earth-to-air heat exchangers and buoyancy forenergy efficient ventilation of buildings considering dynamic thermal behaviorand cooling/heating capacity[J]. Energy, 2018, 147:587-602.

[19] DuT, Yang D*,Wei HB, Zhang ZJ. Experimental study on mixing and stratification ofbuoyancy-driven flows produced by continuous buoyant source in narrow inclinedtank[J]. International Journal of Heat and Mass Transfer, 2018, 121:453-462.

[20] DuT, Yang D*,Wei HB, Zhang ZJ. Propagation and entrainment of buoyancy-driven flows in anarrow horizontal space and implications for buoyant contaminant transportunder natural ventilation[J]. Building and Environment, 2018, 132:214-224.

[21] DuT, Yang D*,Peng SN, Liu YL, Xiao YM. Performance evaluation of longitudinal and transverseventilation for thermal and smoke control in a looped urban traffic linktunnel[J]. Applied Thermal Engineering, 2016, 96:490-500.

[22] MaoSH, Yang D*.One-dimensional analysis for optimizing smoke venting in tunnels by combiningroof vents and longitudinal ventilation[J]. Applied Thermal Engineering, 2016,108:1288-1297.

[23] DuT, Yang D*,Ding Y. Driving force for preventing smoke backlayering in downhill tunnelfires using forced longitudinal ventilation[J]. Tunnelling and UndergroundSpace Technology, 2018, 79:76-82.

[24] DuT, Yang D*,Peng SN, Xiao YM. A method for design of smoke control of urban traffic linktunnel (UTLT) using longitudinal ventilation[J]. Tunnelling and UndergroundSpace Technology, 2015, 48:35-42.

[25] DuT, Yang D*,Peng SN, Li BZ. Measurement of buoyancy-driven transient exchange flow rateacross a thin horizontal ceiling vent of a non-adiabatic enclosure using amodified tracer-gas decay method[J]. International Journal of Ventilation,2016, 15(2):122-133.

[26] DuT*, Du JX, Yang D*, Dong S, Yang LL.Transient evolution and backlayering of buoyancy-driven contaminants in anarrow inclined space. Building and Environment, 2018, 143:59-70.

[27] LiuYL, Yang D*, Xiao YM, Mao SH*, Yang MJ. Combining diverse driving forces forsmoke control in complex urban traffic link tunnels (UTLTs) usingone-dimensional flow modelling [J]. Sustainable Cities and Society, 2018,43:265-274.

出版物及代表著作:

阳东,蒋亚强,李乐,著. 隧道通风与火灾排烟理论基础及应用,中国建筑工业出版社,2018,北京,29.6万字.