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    个人简介

    2020年入选国家高层次青年人才,2016年破格提拔为教授。从事建筑通风与建筑火灾防治研究、传热传质、可再生能源利用中的热物理问题,燃烧理论及应用研究。主持国家自然科学基金项目4项;主持国家重点研发计划课题及子课题4项;主持省部级项目3项;主持重要工程咨询项目与技术开发项目10余项。参编标准3部,牵头获得重庆市科技进步二等奖等。


    研究方向
    从事建筑环境调控与可再生能源利用中的传热传质问题、特殊建筑通风与防排烟、密闭空间火灾防治与环境控制等方面的研究工作

    主讲课程
    《传热学》《燃烧理论与技术》《高等热工学》

    学术兼职
    暖通空调产业技术创新联盟通风专业委员会理事、中国消防协会建筑防火专业委员会委员、国际燃烧学会会员与中国环境科学学会室内环境与健康分会青年委员等;中国工程热物理年会程序委员会委员;《安全与环境学报》青年编委;10余本国内外知名学术期刊审稿人。

    主要成果
    部分代表性项目如下:    
    国家重点研究计划课题,2021YFC3002001,隧道典型事故灾情侦测、态势预测与研判技术及装备,456万,2021.12-2024.11,主持
    国家自然科学基金面上项目,52476104, 2025.1-2028.12,主持        
    国家自然科学基金面上项目,51976017,隧道火灾烟气行为模式多样性及其诱发、干预机制,2020.1-2023.12,主持              
    国家自然科学基金面上项目,51578087,EAHE与建筑本体蓄热跨时间尺度耦合及协同激发热压潜力研究,2016.1-2019.12,主持              
    重庆市科委项目,cstc2018jscx-msybX0345 ,城市综合管廊防火关键技术研究,2018.8-2020.7,主持              
    国家自然科学基金面上项目,51678088,地下建筑自然通风的热压分布多态性问题,2017.1-2020.12,参加      
    公路隧道运营安全风险智能防控与应急处治技术研究,桂科AB19110019,广西科技项目重点项目      
    工程研究项目,H20181152,曾家岩大桥隧道工程多匝道区域通风排烟方式定量研究,2018.12-2019.9,主持              
    科技部国家重点研发计划课题,2016YFC0800603,高效复合防排烟技术和关键装置,2016.7-2019.6              
    军工项目,JG2017068-JG2017071,****系统研发,2017.8-2018.9              
    科技部国际科技合作计划项目,2014DFA62970,适宜长江流域分散式采暖关键技术合作研究, 2015.1-2017.12,参加              
    工程研究项目,1042012920160598,深中通道机场互通地下枢纽工程火灾排烟与应急疏散研究项目,2016.9-2017.9,主持              
    工程研究项目,1042012920130309,地下交通环廊火灾防排烟与人员疏散方案模拟研究2013.4-2015.6,主持              
    国家自然科学基金青年基金,51106189 ,腔室水平开口火灾烟气动力学特性及对环境风的响应机制研究,2012.1-2014.12,主持              
               
    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.
    阳东,魏海滨,著. 土壤-空气换热器与建筑蓄热耦合理论,科学出版社,2023,北京,22万字.  
    代表性论文:          
    [1] Liu Y, Yang D, Guo X. Theoretical model for predicting smoke back-layering length downstream of centralised ceiling exhaust vent in tunnel fires[J]. Tunnelling and Underground Space Technology, 2023, 137.
    [2] Liu Y, Yang D. Experimental study on synergistic effect of exhaust vent layout and exhaust rate on performance of ceiling central smoke extraction in road tunnel fires[J]. International Journal of Thermal Sciences, 2023, 183: 107886.
    [3] Du T, Li P, Wei H, Yang D. On the backlayering length of the buoyant smoke in inclined tunnel fires under natural ventilation[J]. Case Studies in Thermal Engineering, 2022, 39.
    [4] Guo X, Wei H, Yang D. The combination of earth-to-air heat exchanger (EAHE) and phase change material (PCM) for indoor thermal environment regulation[C]. E3S Web of Conferences. EDP Sciences, 2022, 356: 03030.
    [5] Guo X, Wei H, He X, He M, Yang D. Integrating phase change material in building envelopes combined with the earth-to-air heat exchanger for indoor thermal environment regulation[J]. Building and Environment, 2022, 221: 109318.
    [6] Liu Y, Chen J, Yang D. Experimental study on the effects of exhaust vent layout on plug-holing for ceiling central smoke extraction in road tunnel fires[J]. Tunnelling and Underground Space Technology, 2022, 126: 104550.
    [7] He X,Yang D. Operation optimisation of the unsaturated rapid cycling adsorbent bed for effective moisture enrichment: Coupled heat-mass transfer and dynamic adsorption modelling[J]. Case Studies in Thermal Engineering ,2023, 45: 102910-102910.
    [8]
    [9] 阳东, 李萍. 抑制倾斜隧道烟气流动热压主导模式的临界风压[J]. 中国安全科学学报, 2022, 32(5): 41.
    [10] Liu Y, Yang D. Effects of baffles on heat and contaminant removal for tunnel smoke extraction: Evaluation criteria regarding removal efficiency and flow resistance[J]. Case Studies in Thermal Engineering, 2022, 32: 101887.
    [11] Guo X, Wei H, He X, Du J, Yang D. Experimental evaluation of an earth–to–air heat exchanger and air source heat pump hybrid indoor air conditioning system[J]. Energy and Buildings, 2022, 256: 111752.
    [12] 阳东, 陈艺蕾, 杜涛. 隧道顶部障碍物下游火灾烟气密度跃变特性[J]. 中国安全科学学报, 2023, 33(2): 68-74.
    [13] Yang D, Wei H, Wang J, He M. Coupled heat and moisture transfer model to evaluate earth-to-air heat exchangers exposed to harmonically fluctuating thermal environments[J]. International Journal of Heat and Mass Transfer, 2021, 174: 121293.
    [14] Zhang H, Yang D, Tam V, Tao Y, Zhang G, Setunge S, Shi L. A critical review of combined natural ventilation techniques in sustainable buildings[J]. Renewable and Sustainable Energy Reviews, 2021, 141: 110795.
    [15] Wei H, Yang D, Du J, Guo X. Field experiments on the effects of an earth-to-air heat exchanger on the indoor thermal environment in summer and winter for a typical hot-summer and cold-winter region[J]. Renewable Energy, 2021, 167: 530-541.
    [16] Du T, Li P, Yang D. Downstream stratification of the buoyant contaminants produced by a highly lazy plume in a longitudinally ventilated tunnel[J]. Building and Environment, 2021, 195: 107767.
    [17] Yang D, Dong S, Du T, Ji W. Influences of vent location on the removal of gaseous contaminants and indoor thermal environment[J]. Journal of Building Engineering, 2020, 32: 101679.
    [18] Wei H, Yang D, Wang J, Du J. Field experiments on the cooling capability of earth-to-air heat exchangers in hot and humid climate[J]. Applied Energy, 2020, 276: 115493.
    [19] Yang D, Dong S, He M, Zhang Z, Du T, Ji W. Experimental study on the performance of hybrid ventilation system combining forced longitudinal flow and shaft natural ventilation in tunnels[J]. Tunnelling and Underground Space Technology, 2020, 103: 103491.
    [20] Li P, Yang D. Prevention of multiple patterns of combined buoyancy-and pressure-driven flow in longitudinally ventilated sloping multi-branch traffic tunnel fires[J]. Tunnelling and Underground Space Technology, 2020, 103: 103498.
    [21] 宋夕雨, 阳东, 陈建忠. 多匝道隧道纵向排烟分区划分与风机匹配计算[J]. 中国安全科学学报, 2020, 30(5): 136.
    [22] Du T, Yang L, Yang D, Dong S, Ji W. On the backlayering flow of the buoyant contaminants in a tunnel with forced longitudinal ventilation[J]. Building and Environment, 2020, 175: 106798.
    [23] Li P, Yang D. Critical fan-induced pressure rise for preventing smoke flow multiplicity in longitudinally ventilated sloping tunnel fires: Potential function analysis and numerical simulations[J]. Tunnelling and Underground Space Technology, 2020, 97: 103294.
    [24] Yang D, Shi R, Wei H, Du J, Wang J. Investigation of the performance of a cylindrical PCM-to-air heat exchanger (PAHE) for free ventilation cooling in fluctuating ambient environments[J]. Sustainable Cities and Society, 2019, 51: 101764.
    [25] Wei H, Yang D. Performance evaluation of flat rectangular earth-to-air heat exchangers in harmonically fluctuating thermal environments[J]. Applied Thermal Engineering, 2019, 162: 114262.
    [26] Yang D, Li P, Duan H, Yang C, Du T, Zhang Z. Multiple patterns of heat and mass flow induced by the competition of forced longitudinal ventilation and stack effect in sloping tunnels[J]. International Journal of Thermal Sciences, 2019, 138: 35-46.
    [27] Yang D, Wei H, Shi R, Wang J. A demand-oriented approach for integrating earth-to-air heat exchangers into buildings for achieving year-round indoor thermal comfort[J]. Energy Conversion and Management, 2019, 182: 95-107.
    [28] 阳东, 张众杰, 刘英利. 城市环廊隧道多种排烟方式组合排烟效果试验[J]. 中国公路学报, 2018, 31(11): 113-120.
    [29] Liu YL, Yang D*, Xiao YM, Mao SH*, Yang MJ. Combining diverse driving forces for smoke control in complex urban traffic link tunnels (UTLTs) using one-dimensional flow modelling [J]. Sustainable Cities and Society, 2018, 43:265-274.
    [30] Du T, Yang D*, Ding Y. Driving force for preventing smoke backlayering in downhill tunnel fires using forced longitudinal ventilation[J]. Tunnelling and Underground Space Technology, 2018, 79:76-82.
    [31] Du T*, Du JX, Yang D*, Dong S, Yang LL. Transient evolution and backlayering of buoyancy-driven contaminants in a narrow inclined space. Building and Environment, 2018, 143:59-70.
    [32] Wei HB, Yang D. The use of Earth-to-air Heat Exchanger (EAHE) and thermal mass for building thermal environment regulation[C]. Roomvent & amp; Ventilation, 2018.
    [33] Du T, Yang D*, Wei HB, Zhang ZJ. Experimental study on mixing and stratification of buoyancy-driven flows produced by continuous buoyant source in narrow inclined tank[J]. International Journal of Heat and Mass Transfer, 2018, 121: 453-462.
    [34] Wei HB, Yang D*, Guo YH, Chen MQ. Coupling of earth-to-air heat exchangers and buoyancy for energy efficient ventilation of buildings considering dynamic thermal behavior and cooling/heating capacity[J]. Energy, 2018, 147: 587-602.
    [35] Du T, Yang D*, Wei HB, Zhang ZJ. Propagation and entrainment of buoyancy-driven flows in a narrow horizontal space and implications for buoyant contaminant transport under natural ventilation[J]. Building and Environment, 2018, 132:214-224.
    [36] Yang D*, Ding Y, Du T, Mao SH*, Zhang ZJ. Buoyant back-layering and the critical condition for preventing back-layering fluid in inclined tunnels under natural ventilation: Brine water experiments[J]. Experimental Thermal and Fluid Science, 2018, 90: 319-329.
    [37] 阳东, 丁瑶, 李萍. 利用竖井实现多层建筑复合通风的盐水实验研究[J]. 暖通空调, 2017, 47(4): 104-108.
    [38] Yang D*, Liu YL, Zhao CM, Mao SH. 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.
    [39] Mao SH, Yang D*. One-dimensional analysis for optimizing smoke venting in tunnels by combining roof vents and longitudinal ventilation[J]. Applied Thermal Engineering, 2016, 108: 1288-1297.
    [40]  Yang D*, Guo YH. Fluctuation of natural ventilation induced by nonlinear coupling between buoyancy and thermal mass [J]. International Journal of Heat and Mass Transfer, 2016, 96: 218-230.
    [41] 肖益民, 孙宁, 阳东. 城市地下交通联系隧道火灾时围护结构的传热计算[J]. 中国公路学报, 2016, 29(3): 98-105.
    [42] Xiao YM, Sun N, Yang D. Heat Transfer Calculation of Envelope of Urban Traffic Link Tunnel Under Fire[J]. China Journal of Highway and Transport, 2016, 29(3): 98.
    [43] Du T, Yang D*, Peng SN, Liu YL, Xiao YM. Performance evaluation of longitudinal and transverse ventilation for thermal and smoke control in a looped urban traffic link tunnel[J]. Applied Thermal Engineering, 2016, 96: 490-500.
    [44] Yang D*, Guo YH, Zhang JP. Evaluation of the thermal performance of an earth-to-air heat exchanger (EAHE) in a harmonic thermal environment[J]. Energy Conversion and Management, 2016, 109: 184-194.
    [45] Du T, Yang D*, Peng SN, Li BZ. Measurement of buoyancy-driven transient exchange flow rate across a thin horizontal ceiling vent of a non-adiabatic enclosure using a modified tracer-gas decay method[J]. International Journal of Ventilation, 2016, 15(2): 122-133.
    [46] Yang D*, Li P. Dimensionless design approach, applicability and energy performance of stack-based hybrid ventilation for multi-story buildings[J]. Energy, 2015, 93: 128-140.
    [47] Du T, Yang D*, Peng SN, Xiao YM. A method for design of smoke control of urban traffic link tunnel (UTLT) using longitudinal ventilation[J]. Tunnelling and Underground Space Technology, 2015, 48: 35-42.
    [48] Yang D*, Li P. Natural ventilation of lower-level floors assisted by the mechanical ventilation of upper-level floors via a stack [J]. Energy and Buildings, 2015, 92: 296-305.
    [49] Yang D*, Zhang JP. Analysis and experiments on the periodically fluctuating air temperature in a building with earth-air tube ventilation [J]. Building and Environment, 2015, 85: 29-39.
    [50] 阳东, 赵成梅. 热压与风机动力共同作用下多分支隧道内排烟气流的多解性[J]. 土木建筑与环境工程, 2015, 37(1): 1-6.
    [51] Yang D*, Zhang JP. Theoretical assessment of the combined effects of building thermal mass and earth-air-tube ventilation on the indoor thermal environment [J]. Energy and Buildings, 2014, 81: 182-199.
    [52] Du T, Yang D, Peng SN, Xiao YM, Zhang F. Longitudinal ventilation for smoke control of urban traffic link tunnel: hybrid field-network simulation[J]. Procedia Engineering, 2014, 84: 586-594.
    [53] Yang D*, Du T, Peng SN, Li BZ. A model for analysis of convection induced by stack effect in a shaft with warm airflow expelled from adjacent space [J]. Energy and Buildings, 2013, 62: 107-115.
    [54] Yang D*, Li BZ, Du T, Li N. Analytical models for evaluating buoyancy-driven ventilation due to stack effect in a shaft considering heat transfer from shaft interior boundaries[J]. Journal of Central South University, 2012, 19(3): 651-656.
    [55] Yang D*, Huo R, Zhang XL, Zhu S, Zhao XY. Comparative study on carbon monoxide stratification and thermal stratification in a horizontal channel fire[J]. Building and Environment, 2012, 49: 1-8.
    [56] Yang D*, Huo R, Zhang XL, Zhao XY. On the front velocity of buoyancy-driven transient ceiling jet in a horizontal corridor: Comparison of correlations with measurements[J]. Applied Thermal Engineering, 2011, 31: 2992-2999.
    [57] Yang D*, Huo R, Zhang XL, Zhao XY. Comparison of the distribution of carbon monoxide concentration and temperature rise in channel fires: Reduced-scale experiments[J]. Applied Thermal Engineering, 2011, 31(4): 528-536.
    [58] 魏海滨, 阳东. 土壤-空气换热器通风对建筑热环境调控实验研究[C]. 全国暖通空调制冷学术年会, 2020.
    [59] 李萍, 阳东. 环境风作用下倾斜短隧道内点热源驱动下自然通风流动模式研究[C]. 全国暖通空调制冷学术年会, 2020.

    获奖情况
    重庆市科技进步二等奖(1/10)
    中国公路学会科学技术一等奖(2/15)
    重庆大学优秀青年教师

    研究生培养
    已经培养出20余名硕士(3人次获得重庆市优秀硕士论文,3人次获得重庆大学优秀硕士论文;5人次获得国家奖学金),已培养出4名博士(1人获得重庆市优博,1人获得中国消防协会优博),17名硕士研究生在读。

    联系方式
    yangdong@cqu.edu.cn;科研经费充足,招收建环(暖通)、燃气燃烧及火灾安全、工程热物理、计算机应用等方向的研究生及博士后。