Tanzijing Associate professor

• Department:
• Gender: female
• BirthDate:
• Career: Associate professor
• Degree: Doctor
• Academic Credentials:
• Graduate School: Chongqing University & RMIT University
• Tel:
• Email: tanzijing@chd.edu.cn
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• Education experience:

  2006-2016 Chongqing University

  2013-2015 RMIT University

Dr Zijing Tan is Associate Professor and  Vice-dean of Building Environment and Energy Application Department in Chang’an University. She had worked as a visiting research student in the CFD group at RMIT University from 2013 to 2015. Then she received PhD degree in HVAC from Chongqing University in 2016. She is also a youth committee of China building society HVAC branch. In the past ten years, she has focused on urban microclimate (thermal environment, flow patterns and pollutant dispersion) and its impact on building environment. She has been very active in pursuing research in low carbon building and healthy environment field where she has been working on 10 research and innovation projects.

1. Committee Member, Youth committee of China building society HVAC branch.

2. Secretary, China Ventilation Committee

3. Committee Member, China Computer Simulation Society for HVAC.  

Building Ventilation; Urban Microclimate; Energy Efficient Building; HVAC system;

1. Fluid Distribution Network

2. Building Environment

3. Fundamentals & Equipment of Heat & Mass Transfer

4. Renewable Energy and Building Energy-efficient Technology

5. English for Building environment and Energy Application Engineering

6. Academic Writing (Master Course)

7. Building Ventilation (Master Course)

17 Papers, 8 SCI with the total impact factor of 22.8, recently published ones are listed  below.

[1].Tan, Z.; Deng, X., An optimised window control strategy for naturally ventilated residential buildings in warm climates. Sustainable Cities and Society. 2020, 57, 102118（JCR Q1）

[2] Tan, Z.; Dong, J.; Xiao, Y.; Tu, J., A numerical study of diurnally varying surface temperature on flow patterns and pollutant dispersion in street canyons. Atmospheric Environment. 2015, 104, 217-227. （JCR Q1）

[3] Tan, Z.; Dong, J.; Xiao, Y.; Tu, J., Numerical simulation of diurnally varying thermal environment in a street canyon under haze-fog conditions. Atmospheric Environment. 2015, 119, 95-106.（JCR Q1）

[4] Tan, Z.; Tan, M.; Sui, X.; Jiang, C.; Song, H., Impact of source shape on pollutant dispersion in a street canyon in different thermal stabilities. Atmospheric Pollution Research. 2019, 10(6), 1985-1993.（JCR Q1）

[5] Deng, X.; Tan, Z*., Numerical analysis of local thermal comfort in a plan office under natural ventilation. Indoor and Built Environment. 2019, DOI: 10.1177/1420326X19866497（JCR Q3）

[6] Tan, Z.; Deng, X., Natural ventilation potential assessment for residential buildings across different climate zones in Australia. Atmosphere. 2017, 8(177), 1-17.（JCR Q2）

[7] Tan, Z.; Dong, J.; Xiao, Y.; Tu, J., Numerical Analysis of Building Shadow Effect on Buoyant Flow in Urban Street Canyons.19th Australasian Fluid Mechanics Conference,Melbourne, Australia, 2014.

[8] Dong, J.  Tan, Z.; Xiao, Y.; Tu, J., Seasonal changing effect on airflow and pollutant dispersion.Atmosphere. 2017, 8(43),1-18.（JCR Q2）

Academic Writings:

1. Computational Fluid Dynamics-A Practical Approach (3th Edition), Elsevier Science Limited; Coedit

2. Residential Building Ventilation Progress of China 2018, China Building Industry Press; Coedit

Journal Papers:

[1].Deng, X.; Tan, Z.*, Tan, M.; Chen, W., A clustering-based climatic zoning method for office buildings in China. Journal of Building Engineering. 2021, 42, 102778.（JCR Q1）

[2]. Tan, Z.; Deng, X., An optimised window control strategy for naturally ventilated residential buildings in warm climates. Sustainable Cities and Society. 2020, 57, 102118（JCR Q1）

[3] Tan, Z.; Dong, J.; Xiao, Y.; Tu, J., A numerical study of diurnally varying surface temperature on flow patterns and pollutant dispersion in street canyons. Atmospheric Environment. 2015, 104, 217-227. （JCR Q1）

[4] Tan, Z.; Dong, J.; Xiao, Y.; Tu, J., Numerical simulation of diurnally varying thermal environment in a street canyon under haze-fog conditions. Atmospheric Environment. 2015, 119, 95-106.（JCR Q1）

[5] Tan, Z.; Tan, M.; Sui, X.; Jiang, C.; Song, H., Impact of source shape on pollutant dispersion in a street canyon in different thermal stabilities. Atmospheric Pollution Research. 2019, 10(6), 1985-1993.（JCR Q1）

[6] Deng, X.; Tan, Z*., Numerical analysis of local thermal comfort in a plan office under natural ventilation. Indoor and Built Environment. 2019, DOI: 10.1177/1420326X19866497（JCR Q1）

[7] Tan, Z.; Deng, X., Natural ventilation potential assessment for residential buildings across different climate zones in Australia.Atmosphere. 2017, 8(177), 1-17.（JCR Q2）

[8] Tan, Z.; Dong, J.; Xiao, Y.; Tu, J., Numerical Analysis of Building Shadow Effect on Buoyant Flow in Urban Street Canyons.19th Australasian Fluid Mechanics Conference,Melbourne, Australia, 2014.

[9] Dong, J.  Tan, Z.; Xiao, Y.; Tu, J., Seasonal changing effect on airflow and pollutant dispersion.Atmosphere. 2017, 8(43),1-18.（JCR Q2）

[10]檀妹静，杨光，李宇，周禹，曹占伟，闫昊，檀姊静*.  整流帽布局对全动舵附近流动结构及热环境分布规律的影响研究[J]，兵工学报，2021，42(8):  1648-1659.（EI）

[11]张金花，檀姊静，檀妹静，任静等.地铁通风空调系统运行现状及能耗调研分析[J]，安装，2020,04:52-55.

[12]张金花，檀姊静，李亮，任静等. 地铁通风空调系统设计优化方法研究[J],施工技术，2020,06(49):676-677.

[13]付祥钊，檀姊静.居住建筑节能整体性能测评方法研究[J]，西安建筑科技大学学报，2012, 44(6):761-766.（EI）

[14]付祥钊，檀姊静.热压自然通风网络模型及通风量计算方法[J，煤气与热力，2012,32(12):A15-A19.

[15]檀姊静，居发礼，付祥钊.某报告厅座椅送风系统运行效果分析[J]，制冷与空调，2013, 22(8): 35-38.

[16]居发礼，檀姊静.息烽县人民医院病房综合大楼空调设计[J]，暖通空调，2013，12:121-125.

[17]石华，檀姊静，付祥钊，吴珍珍.城市通风模型的提出及模拟验[J]，建筑热能通风空调，2013, 4: 35-38.

[18]檀姊静.既有建筑空调冷冻水系统节能改造案例分析——以深圳市丰立大厦改造项目为例[C].城市发展研究——第七届国际绿色建筑与建筑节能大会论文集.2011: 30-234.

[19]张弦斌,李梅,吴敏,檀姊静,昆明某卷烟厂空调系统新风运行分析,2011年全国通风技术学术年会,重庆,2011.10.26-2011.10.28

[20]檀姊静，陈志军，肖益民，谭晓瑜. 基于下垫面高程分布的山地城市风环境评估：以重庆为例[J],  建筑环境与能源, 2021,10(48):94-99.

2016- Present, Associate Professor, School of Civil Engineering, Chang' An Univercity.