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Academic qualifications：
2003-2007, Thermal Engineering, Huazhong University of Science and Technology, Bachelor
2007-2014, Heating, Gas Supply, Ventilation and Air Conditioning Engineering, School of Architecture, Tsinghua University, Ph.D.
2014-2016, School of Architecture, Tsinghua University, Postdoctor

2017-2018, International Center for Indoor Environment and Energy (ICIEE), Technical University of Denmark (DTU), Visiting Scholar

2016- , School of Civil and Resource Engineering, University of Science and Technology Beijing, Lecturer

Research field：
Demand-oriented efficient ventilation and air distribution

Rapid prediction and evaluation of indoor air parameter distribution

Identification of indoor sources in buildings (pollutants, heat, moisture sources)

Creation of differentiated zonal environmental parameters in clean room

Urban underground tunnel fire and emergency evacuation of personnel

Professional affiliations：

Secretary of the Ventilation Professional Committee of the National Society of Heating, Ventilation and Air Conditioning

Reviewers of international journals: Building and Environment, Indoor and Built Environment, Building Simulation, etc.

Patents and awards：
Best Paper Award, Indoor and Built Environment, 2018

Outstanding Paper Award for Youth, the 18th National Annual Conference on HVAC and Refrigeration

Outstanding Paper Award for Youth, the 19th National Annual Conference on HVAC and Refrigeration

Research project：
Principal Investigator
[1] 2019-2022, Creation of a non-uniform indoor thermal environment oriented to individual thermal comfort, the National Natural Science Foundation of China, 51878043

[2] 2018-2021, Maintenance of cleanliness and differential pressure under varying air volume operation status, the 135th National Key Research and Development Program of China, 2018YFC0705201-3

[3] 2016 – 2018, Multi-mode ventilation: an efficient ventilation strategy for changeable demand scenarios, the National Natural Science Foundation of China, 51508299
[4] 2016- 2018, Potential and optimal control of individualized thermal environment under stratum ventilation, Fundamental Research Funds for the Central Universities, FRF-TP-16-006A1

[5] 2015 - 2016，Creation of a personalized indoor thermal environment, China Postdoctoral Science Special Foundation, 2015T80092
[6] 2014- 2016，Identification of dynamic contaminant source in built environment, the Postdoctoral Science Foundation of China, 2014M560089

Representative publications：
[1] Shao X L, Wang K K, Li X T, Lin Z. Potential of stratum ventilation to satisfy differentiated comfort requirements in multi-occupied zones. Building and Environment, 2018, 143: 329-338.

[2] Shao X L, Wang K K, Li X T. Rapid prediction of the transient effect of the initial contaminant condition using a limited number of sensors. Indoor and Built Environment.2018, DOI: 10.1177/1420326X17753709.

[3] Liang C, Shao X L, Melikov A K , Li X T. Cooling load for the design of air terminals in a general non-uniform indoor environment oriented to local requirements.

Energy and Buildings. 2018, 174: 603-618.

[4] Shao X L, Li X T, Ma X J, Liang C. Multi-mode ventilation: An efficient ventilation strategy for changeable scenarios and energy saving. Building and Environment. 2017, 115: 332-344. 2017.4.

[5] Shao X L, Ma X J, Li X T, Liang C. Fast prediction of non-uniform temperature distribution: A concise expression and reliability analysis. Energy and Buildings. 2017, 141: 295-307.

[6] Shao X L, Li X T, Ma X J, Zhu F F. Long-term prediction of dynamic distribution of passive contaminant in complex recirculating ventilation system. Building and Environment. 2017, 121: 49-66.   

[7] Liang C, Shao X L, Li X T. Energy saving potential of heat removal using natural cooling water in the top zone of buildings with large interior spaces. Building and Environment, 2017, 124:323-335.

[8] Shen C, Shao X L, Li X T. Potential of an air curtain system orientated to create non-uniform indoor thermal environment and save energy. Indoor and Built Environment, 2017, 26(2):152-165.

[9] Wang H, Li X T, Shao X L, Wang B L, Lin Y Q. A colour-sequence enhanced particle streak velocimetry method for air flow measurement in a ventilated space. Building and Environment, 2017, 112:77-87.

[10] Shao X L, Li X T, Ma H Y. Identification of constant contaminant sources in a test chamber with real sensors. Indoor and Built Environment. 2016, 25(6): 997-1010

[11] Shao X L, Li X T. Evaluating the potential of airflow patterns to maintain a non-uniform indoor environment. Renewable Energy, 2015, 73:99-108.

[12] Shao X L, Li X T, Liang C, Shan J. An algorithm for fast prediction of the transient effect of an arbitrary initial condition of contaminant. Building and Environment, 2015, 85:298-308.  

[13] Shao X L, Li X T, Ma X J, Chen C. Optimising the supply parameters oriented to multiple individual requirements in one common space. Indoor and Built Environment, 2014, 23(6):828-838.

[14] Ma X J, Li X T, Shao X L, Jiang X. An algorithm to predict the transient moisture distribution for wall condensation under a steady flow field. Building and Environment, 2013, 67: 56-68.

[15] Ma X J, Shao X L, Li X T, Lin Y W. An analytical expression for transient distribution of passive contaminant under steady flow field. Building and Environment, 2012, 52:98-106.
[16] Cai H, Li X T, Kong L J, Shao X L. An optimization method of sensor layout to improve source identification accuracy in the indoor environment. International Journal of Ventilation, 2012, 11(2):155-170.
[17] Cai H, Li X T, Kong L J, Ma X J, Shao X L. Rapid identification of single constant contaminant source by considering characteristics of real sensors. Journal of Central South University of Technology, 2012, 19(3):593-599.
[18] Li X T, Cai H, Li R Y, Zhao Y, Ma X J, Shao X L. A theoretical model to calculate the distribution of air age in general ventilation system. Building Services Engineering Research and Technology, 2012, 33(2):159-180. 

[19] Li X T, Shao X L, Ma X J, Zhang Y H, Cai H. A numerical method to determine the steady state distribution of passive contaminant in generic ventilation systems. Journal of Hazardous Materials, 2011, 192(1):139-149.