姓名: 劉煒
                            職稱職務:助理教授、博導
                            聯系電話:15715814932
                            電子郵箱:[email protected]
                            個人主頁:https://zjuiberl.com

                            個人簡介

                                   劉煒,男,中共黨員,198710月出生,湖北宜昌人。天津大學建筑環境與設備專業學士,美國普渡大學機械工程碩士和博士,浙江大學助理教授、博導。Building and EnvironmentEnergy and BuildingsJournal of Fluid Mechanics等多個國際期刊審稿人。

                            主要研究領域:室內熱舒適和空氣品質、低能耗建筑;封閉環境的逆向設計和控制;計算流體力學和快速計算流體力學。

                            主要研究成果:發表國際期刊論文30篇(SCI收錄27篇);發表國際會議論文18篇;發明專利1項;參與縱向或橫向科研項目9項;


                            研究經歷

                            助理教授, 浙江大學ZJU-UIUC聯合學院 (10/2017-present)

                                ·參與橫向項目“寬體客機駕駛艙客艙舒適性參數體系與指標分解技術咨詢”,上海飛機設計研究院,2017.9-2018.9

                            研究助理, Purdue University (01/2013-08/2017)

                                 ·Principle researcher for project “Infiltration/Exfiltration Measurements by Using an Infrared Camera”, sponsored by Center for High Performance Buildings at Purdue University

                                 ·Principle researcher for project “A fast algorithm to determine explosive dispersion in enclosed environment”, sponsored by the U.S. Department of Homeland Security, Science and Technology Directorate, Office of University Programs

                                ·Principle researcher for project “Further development of fast fluid dynamics for indoor air quality and thermal comfort study and control”, sponsored by Center for High Performance Buildings at Purdue University

                                ·Principle researcher for project “R2-D.2: Enhancement of explosive vapor detection in shipping container”, sponsored by the U.S. Department of Homeland Security, Science and Technology Directorate, Office of University Programs

                                ·Principle researcher for project “R2-D.2: Optimization of explosives sensor placement in airports”, sponsored by the U.S. Department of Homeland Security, Science and Technology Directorate, Office of University Programs

                            訪問學生, Purdue University (01/2012-12/2012)

                               ·Principle researcher for project “Task 5 - Fundamental principle of reverse coupling design method for cabin environmental control, Air Environment Research in Airliner Cabins”, sponsored by the Center for Air Cabin Reformative Environment (CARE) & National Basic Research Program of China (The 973 Program)

                            研究助理, 天津大學 (07/2009-12/2011)

                              ·Principle researcher for project “Reliable experimental data and CFD model validation for air distributions and contaminant transport in a commercial aircraft cabin”, sponsored by the Boeing Commercial Airplane Group


                            主要榮譽和獲獎

                            1.Bilsland 學位論文獎學金(Bilsland Dissertation Fellowship (工資US$ 19,000 加學費), Purdue University, 2016

                            2.國家獎學金 (RMB 30,000), 中國, 2012

                            3.美國ASHRAE CFD競賽第一名(First Prize of the RP-1493 - Shootout Contest (US$20,000), ASHRAE, 2012

                            4.美國ASHRAE 研究生獎學金(Grant-in-Aid Award for Graduate Students (US$10,000), ASHRAE, 2011

                            5.16屆人環將一等獎 (RMB 5,000), China, 2008


                            論文發表

                            1.  Liu, W. and Chen, Q. Development of coarse grid generation methods for fast fluid dynamics in simulating indoor airflow. Accepted by Journal of Building Performance Simulation, 2017. (SCI, EI, 影響因子:1.807)

                            2.  Liu, W., You, R., Zhang, Jie., and Chen, Q. Development of a fast fluid dynamics-based adjoint method for the inverse design of indoor environments. Journal of Building Performance Simulation, 2017, 10(3): 326-343. (SCI, EI, 影響因子:1.807)

                            3. Liu, W., Jin, M., Chen, C., You, R., and Chen, Q. -Implementation of a fast fluid dynamics model in OpenFOAM for simulating indoor airflow. Numerical Heat Transfer, Part A: Application, 2016,69(7): 748-762.  (SCI, EI, 影響因子:1.937)

                            4. Liu, W., Jin, M., Chen, C. and Chen, Q. Optimization of air supply location, size, and parameters in enclosed environments through using a CFD-based adjoint method. Journal of Building Performance Simulation, 2016,9(2): 149-161. (SCI, EI, 影響因子:1.807)

                            5. Liu, W., Duan, R., Chen, C., Lin, C.-H.,and Chen, Q. Inverse design of the thermal environment in an airliner cabin by use of the CFD-based adjoint method. Energy and Buildings, 2015, 104, 147-155. (SCI, EI, 影響因子:2.973)

                            6. Liu, W., Zhang, T., Xue, Y., Zhai, Z.J., Wang, J., Wei, Y., and Chen, Q. State-of-the-art methods for inverse design of an enclosed environment.Building and Environment, 2015, 91, 91-100. (SCI, EI, 影響因子:3.394)

                            7. Liu, W. and Chen, Q. Optimal air distribution design in enclosed spaces using an adjoint method. Inverse Problems in Science & Engineering, 2015, 23(5), 760-779. (SCI, EI, 影響因子:0.911)

                            8. Liu, W. and Chen, Q. Current studies on air distributions in commercial airliner cabins.Theoretical & Applied Mechanics Letters, 2013,3(6): 1-5.

                            9. Liu, W., Wen, J., Lin, C.-H., Liu, J., Long, Z., and Chen, Q. Evaluation of various categories of turbulence models for predicting air distribution in an airliner cabin. Building and Environment, 2013, 65: 118-131. (SCI, EI, 影響因子:3.394)

                            10.Liu, W., Long, Z., and Chen, Q. A procedure for predicting pressure loss coefficients of duct fittings using CFD (RP-1493). HVAC&R Research, 2012, 18(6): 1168-1181. (SCI, EI, 影響因子:0.871)

                            11.Liu, W., Wen, J., Chao, J., Yin, W., Shen, C., Lai, D., Lin, C.-H., Liu, J., Sun, H. and Chen, Q. Accurate and high-resolution boundary conditions and flow fields in the first-class cabin of an MD-82 commercial airliner. Atmospheric Environment, 2012, 56: 33-44. (SCI, EI, 影響因子:3.459)

                            12.Liu, W., Mazumdar, S., Zhang, Z., Poussou, S., Liu, J., Lin, C.-H., and Chen, Q. State-of-the-art methods for studying air distributions in commercial airliner cabins. Building and Environment, 2012, 47: 5-12. (SCI, EI, 影響因子:3.394)

                            13. Liu, W., Liu, J., and Ma, Q. Theoretical and experimental study of cleanliness in a clean room with a directional ventilation. Building Science, China (in Chinese), 2010, 26: 76-83.

                            14. Zhao, X., Liu, W., Liu, S., Zou, Y., and Chen, Q. Inverse Design of an Indoor Environment by Using a CFD-based Adjoint Method with Adaptive Step Size for Adjusting Design Parameters. Accepted by Numerical Heat Transfer, Part A: Applications, 2017. (SCI, EI, 影響因子:1.937)

                            15. Cao, Q., Xu, Q., Liu, W., Lin, C-H., Wei, D., Baughcumb, S., Norrisb, S., and Chen, Q. In-flight monitoring of particle deposition in the environmental control systems of commercial airliners in China. Atmospheric Environment, 2017, 154: 118-128. (SCI, EI, 影響因子:3.459)

                            16. Liu, Y., Cao, Q., Liu, W., Lin, C.-H., Wei, D., Baughcum, S., Norris, S., Long, Z., Shen, X., and Chen, Q. Numerical modeling of particle deposition in the environmental control systems of commercial airliners on ground. Building Simulation, 2017, 10(2): 265-275. (SCI, EI, 影響因子:1.409)

                            17. Xue, Y., Liu, W. and Zhai, Z.J. New semi-Lagrangian-based PISO method for fast and accurate indoor environment modeling.Building and Environment, 2016, 105: 236-244. (SCI, EI, 影響因子:3.394)

                            18. You, R., Liu, W., Chen, J., Lin, C.-H., Wei, D., and Chen, Q. Predicting airflow distribution and contaminant transport in aircraft cabins with a simplified gasper model. Journal ofBuilding Performance Simulation, 2016, 9(6): 699-708. (SCI, EI, 影響因子:1.807)

                            19. You, R., Chen, J., Shi, Z., Liu, W., Lin, C.-H., Wei, D., and Chen, Q. Experimental and numerical study of airflow distribution in an aircraft cabin mockup with a gasper on. Journal of Building Performance Simulation, 2016, 9(5): 555-566. (SCI, EI, 影響因子:1.807)

                            20. Zhang, J., Long, Z., Liu, W., and Chen, Q. Strategy for studying ventilation performance in factories. Aerosol and Air Quality Research, 2016, 16: 442-452. (SCI, EI, 影響因子:2.393)

                            21. Cao, Q., Liu, Y., Liu, W., Lin, C.-H., Wei, D., Baughcum, S., Norris, S., Shen, X., Long, Z., and Chen, Q. Experimental study of particle deposition in the environmental control systems of commercial airliners.Building and Environment, 2016, 96, 62-71. (SCI, EI, 影響因子:3.394)

                            22. Chen, C., Liu, W., Lin, C.-H., and Chen, Q. Comparing Markov chain model with other models for predicting transient particle transport indoors. Aerosol Science & Technology, 2015,49, 857-871. (SCI, EI, 影響因子:1.953)

                            23. Dai, S., Sun, H., Liu, W., Guo, Y., Jiang, N., and Liu, J. Experimental Study on Characteristics of the Jet Flow from an Aircraft Gasper.Building and Environment, 2015, 93, 278-284. (SCI, EI, 影響因子:3.394)

                            24. Chen, C., Liu, W., Lin, C.-H., and Chen, Q. A Markov chain model for predicting transient particle transport in enclosed environments.Building and Environment, 2015, 90, 30-36. (SCI, EI, 影響因子:3.394)

                            25. Chen, C., Liu, W., Lin, C.-H., and Chen, Q. Accelerating the Lagrangian method for modeling transient particle transport in indoor environments. Aerosol Science & Technology, 2015, 49(5), 351-361. (SCI, EI, 影響因子:1.953)

                            26. Duan, R., Liu, W., Xu, L., Huang, Y., Li, B., Shen, X., Lin, C., Liu, J., and Chen, Q. Mesh type and number for the CFD simulations of air distribution in an aircraft cabin. Numerical Heat Transfer, Part B: Fundamentals, 2015, 67(6), 489-506. (SCI, EI, 影響因子:1.33)

                            27.Jin, M., Liu, W. and Chen, Q. Simulating buoyancy-driven airflow in buildings by coarse-grid fast fluid dynamics. Building and Environment, 2015, 85, 144-152. (SCI, EI, 影響因子:3.394)

                            28. Jin, M., Liu, W., and Chen, Q. Accelerating fast fluid dynamics with a coarse-grid projection scheme, HVAC&R Research, 2014, 20(8), 932-943. (SCI, EI, 影響因子:0.871)

                            29. Shen, C., Liu, J., Liu, W., and Wen, J. Establishment and certification of an airliner experimental platform with the stable thermal boundary condition in a full-size aircraft cabin. Journal of HV&AC, China (in Chinese), 2014, 44(7): 75-80.

                            30. Chen, C., Liu, W., Li, F., Lin, C.-H., Liu, J., Pei, J., and Chen, Q. A hybrid model for investigating transient particle transport in enclosed environments.Building and Environment, 2013, 62: 45-54. (SCI, EI, 影響因子:3.394)


                            已發表會議論文

                            1.Liu, W. and Chen, Q. 2017. Two coarse grid generation methods for fast fluid dynamics in simulating indoor airflow. Proceedings of the 10th International Symposium on Heating, Ventilating and Air-Conditioning (ISHVAC), Jinan, China.

                            2.Zhao, X., Liu, W., and Chen, Q. 2017. Inverse design of multi-objective problems for indoor environment using a CFD-based adjoint method. Proceedings of the 10th International Symposium on Heating, Ventilating and Air-Conditioning (ISHVAC), Jinan, China.

                            3.Liu, W., You, R., Xue, Y., and Chen, Q. 2016. Comparison and integration of CFD-based genetic algorithm and adjoint method for the inverse design of indoor environment. Proceedings of the 14th International Conference on Indoor Air Quality and Climate (Indoor Air 2016), Paper 347, 8 pages, Ghent, Belgium.

                            4.Liu, W. and Chen, Q. 2015. Implementation of a fast fluid dynamics model in OpenFOAM with unstructured mesh. Proceedings of the 9th International Symposium on Heating, Ventilating and Air-Conditioning (ISHVAC) and the 3rd International Conference on Building Energy and Environment (COBEE), Tianjin, China. Paper No. T6-679, 8 pages.

                            5.Liu, W. and Chen, Q. Validation of CFD-based adjoint method in inverse identification of air supply location, size, and parameters. Proceedings ofthe13th International Conference on Air Distribution in Rooms and Airplane(ROOMVENT 2014), 2014, Sao Paulo, Brazil.

                            6.Liu, W. and Chen, Q. An adjoint method for optimal ventilation design. Proceedings ofthe13th International Conference of the International Building Performance(BS 2013), 2013,Chambery, France.

                            7.Liu, W., Wen, J., Shen, C., Lin, C.-H., Liu, J. and Chen, Q. Experimental investigation of air distributions in the first-class cabin of an MD-82 commercial airliner. Proceedings ofthe 2nd International Conference on Building Energy and Environment (COBEE 2012),2012, Boulder, Colorado, 618-625.

                            8.Liu, W., Lin, C.-H., Liu, J., and Chen, Q. Simplifying the geometry of an airliner cabin for CFD simulations. Proceedings of the 12th International Conference on Indoor Air Quality and Climate (Indoor Air 2011), 2011, Austin, Texas.

                            9.You, R., Liu, W., Chen, J., Lin, C.-H., Wei, D., and Chen, Q. 2016. Modelling air distribution in aircraft cabins with a simplified gasper model. Proceedings of the 14th International Conference on Indoor Air Quality and Climate (Indoor Air 2016), Paper 99, 8 pages, Ghent, Belgium.

                            10.Chen, C., Liu, W., Lin, C.-H., and Chen, Q. 2015. Accelerating the Lagrangian Method for Modeling Transient Particle Transport in Indoor Environments. Proceedings of the 9th International Symposium on Heating, Ventilating and Air-Conditioning (ISHVAC) and the 3rd International Conference on Building Energy and Environment (COBEE), Tianjin, China. Paper No. T6-611, 8 pages.

                            11.Chen, C., Liu, W., Lin, C.-H., and Chen, Q. 2015. A Markov Chain Model for Predicting Transient Particle Transport in Enclosed Environments. Proceedings of the 9th International Symposium on Heating, Ventilating and Air-Conditioning (ISHVAC) and the 3rd International Conference on Building Energy and Environment (COBEE), Tianjin, China. Paper No. T6-612, 8 pages.

                            12.Yin, H., Shen, X., Sasanapuri, B., Liu, W., Zhang, Y., Liu, Y., and Chen, Q. 2015. Modeling Environmental Control System for Aircraft by Coupling with Thermal Environment in Air Cabin. Proceedings of the 9th International Symposium on Heating, Ventilating and Air-Conditioning (ISHVAC) and the 3rd International Conference on Building Energy and Environment (COBEE), Tianjin, China. Paper No. T1-1040, 8 pages.

                            13.Cao, Q., Liu, Y., Liu, W., Lin, C.-H., Baughcum, S., Norris, S., Wei, D., Long, Z., Shen, X., and Chen, Q. 2015. Experimental study of particle deposition in an air-conditioning cart and the environmental control system of a commercial MD-82 airplane. Proceedings of the 9th International Symposium on Heating, Ventilating and Air-Conditioning (ISHVAC) and the 3rd International Conference on Building Energy and Environment (COBEE), Tianjin, China. Paper No. T6-987, 9 pages.

                            14.Liu, Y., Cao, Q., Lin, C.-H., Wei, D., Baughcum, S., Norris, S., Yin, H., Liu, W., Long, Z., Shen, X., Chen, Q. 2015. Determining particle deposition in the environmental control system of a regional jet by empirical models. Proceedings of the 9th International Symposium on Heating, Ventilating and Air-Conditioning (ISHVAC) and the 3rd International Conference on Building Energy and Environment (COBEE), Tianjin, China. Paper No. T6-1039, 8 pages.

                            15.You, R., Chen, J., Shi, Z., Liu, W., Lin, C.-H., and Chen, Q. 2015. Experimental and numerical study of gasper-induced airflow in an aircraft cabin mockup. Proceedings of the 9th International Symposium on Heating, Ventilating and Air-Conditioning (ISHVAC) and the 3rd International Conference on Building Energy and Environment (COBEE), Tianjin, China. Paper No. T6-747, 8 pages.

                            16.Duan, R., Liu, W., Huang, Y., Li, J., Li, B., Lin, C.-H., Liu, J., Shen, X., and Chen, Q. Comparison of mesh type for CFD simulations of air distributions in aircraft cabins. Proceedings of the 13th International Conference on Air Distribution in Rooms (ROOMVENT 2014), 2014, Sao Paulo, Brazil.

                            17.Wen, J., Liu, W., Mu, X., Lin, C.-H., Liu, J., and Chen, Q. Thermo-fluid boundary conditions in a commercial aircraft for CFD simulations. Proceedings of the 12th International Conference on Air Distribution in Rooms (ROOMVENT 2011), 2011, Trondheim, Norway.

                            18.Chao, J., Mu, Xuan., Liu, W., Wu, H., Liu, J., and Chen, Q. 2011. Rapid construction of a three-dimensional digital geometric model of an airliner cabin for CFD simulations. Proceedings of the 12th International Conference on Air Distribution in Rooms (ROOMVENT 2011), 2011, Trondheim, Norway.


                            其他論文或講座

                            1. Liu, W. 2017. Inverse/Optimal Design of Built Environments - by a CFD-based Adjoint Method. Dalian University of Technology, Dalian, China.

                            2. Liu, W. and Chen, Q. 2017. Inverse design of enclosed environment by CFD-based adjoint method. Presented at Seminar 63 on Inverse Design: A Fast Way to Achieve Your Goal in IAQ, ASHRAE Winter Meeting, Las Vegas, NV.

                            3. Jin, M., Liu, W., and Chen, Q. 2016. Accelerating fast fluid dynamics with a coarse-grid projection scheme. Presented at Seminar 42 on Trending Research and Advances in Simulation, ASHRAE Winter Meeting, Orlando, FL.

                            4. Liu, W. and Chen, Q. 2015. Numerical study of the reattachment length in the backward-facing step flow. Presented at Workshop W4: To Predict Low Turbulent Flow on the 9th International Symposium on Heating, Ventilating and Air-Conditioning (ISHVAC) and the 3rd International Conference on Building Energy and Environment (COBEE), Tianjin, China.5. Liu, W., Xue, Y., Zhai, Z., and Chen, Q. 2014. Effect of CFD and FFD models on inverse design. Presented in the Annual Meeting of the Center for Cabin Air Reformative Environment (973 project), Chongqing, China.

                            6. Liu, W., Xue, Y., Zhang T., Zhai, Z., You, X., and Chen, Q. 2014. Inverse design of cabin environment using CFD-based genetic algorithm and adjoint method. Presented in the Annual Meeting of the Center for Cabin Air Reformative Environment (973 project), Chongqing, China.

                            7. Liu, W., and Chen, Q. 2013. Optimal ventilation design in enclosed environment by using an adjoint method. Presented in TSRA/ArchE seminar, Herrick lab, Purdue University, USA.

                            8. Liu, W., and Chen, Q. 2013. Inverse prediction and optimization of PMV in the 1st-class cabin of MD-82. Presented in the Half Annual Meeting of the Center for Cabin Air Reformative Environment (973 project), Qingdao, China.

                            9. Liu, W., and Chen, Q. 2012. Validation of the adjoint method for optimal design of ventilation by two-dimensional cases. Presented in the First Annual Meeting of the Center for Cabin Air Reformative Environment (973 project), Tsinghua University, Beijing, China.

                            10.Liu, W., and Chen, Q. 2012. What should we do when CFD simulations do not agree with measured data? Presented at the 2nd International Conference on Energy and Environment (COBEE 2012), Boulder, Colorado, USA.

                            11.Liu, W., Liu, J., and Chen, Q. 2011. Experimental and numerical investigation of air distribution in a commercial aircraft cabin. Presented in the Academic Conference for Ph.D. Students Majored in Environmental Science, Nankai University, Tianjin, China.

                            12. Liu, W., Liu, J., and Chen, Q. 2010. Studies of air distribution in airliner cabins: a review of the research methods. Presented in the International Workshop on Ventilation, Comfort, and Health in Transport Vehicles, Tianjin, China.


                            研究報告

                            1.Liu, W. and Chen, Q. 2015. To predict low turbulence flow. Final report for workshop on9th International Symposium on Heating, Ventilating and Air-Conditioning (ISHVAC) and the 3rd International Conference on Building Energy and Environment (COBEE), 15 pages, School of Mechanical Engineering, Purdue University.

                            2. Liu, W. 2011. Prediction of duct fitting loses. Final report to ASHRAE TC 5.2, Duct design for ASHRAE RP-1493, 38 pages, School of Environmental Science and Technology, Tianjin University.


                            專利

                            1.劉俊杰、劉煒、沈忱、王聰聰。一種發熱假人模型集群系統。專利號: 2013102946583。中國

                              

                            專著

                            1. Chen, Q., Zhai, Z., You, X., Zhang, T. Inverse design methods for built environment. Taylor & Francis, in production, 2017. (書籍的協調人,主要貢獻在撰寫第一、三、六章)




                            返回原圖
                            /

                             

                            体彩11选5开奖查询