[1] Mingyue Fan, Weijun Li, Xilian Luo, Qingxiang Shui, Lizhi Jing, Zhaolin Gu*, Chuck Wah Yu, Parameterised drag model for the underlying surface roughness of buildings in urban wind environment simulation, Building and Environment, 209, 108651; doi.org/10.1016/j.buildenv.2021.108651, 2022

[2] Yu-Tong Mu, Pu He, Zhao-Lin Gu, Zhi-Guo Qu, Wen-Quan Tao, Modelling the reactive transport processes in different reconstructed agglomerates of a PEFC catalyst layer, Electrochimica Acta, 404, 139721; doi:10.1016/j.electacta.2021.139721, 2022

[3] Mingyue Fan, Zhaolin Gu*, Weijun Li, Dian Zhou, Chuck Wah Yu, Integration of a large green corridor with an underground complex - a low carbon building solution for urban climate revival, Indoor and Built Environment, doi: 10.1177/1420326X211067607, 2022

[4] Li Han, Jingyuan Zhao*, Yuejing Gao, Zhaolin Gu, Prediction and evaluation of spatial distributions of ozone and urban heat island using a machine learning modified land use regression methodSustainable Cities and Society, 78, 103643; doi:10.1016/j.scs.2021.103643, 2022

[5] Yujun Yang*, Dian Zhou, Yupeng Wang, Xiangzhao Meng, Zhaolin Gu, Duo Xu, Xiaoxue Han, Planning method of centralized greening in high-rise residential blocks based on improvement of thermal comfort in summer, Sustainable Cities and Society, 103802, doi:10.1016/j.scs.2022.103802, 2022

[6] Zanshe Wang*, Yue Wu, Zhaoying Jia, Qi Gao, Zhaolin Gu, Research on health and thermal comfort of unit-type student apartments in the western China Science and Technology Innovation Harbor, Frontiers in Public Health, 10, 850107; doi:10.3389/fpubh.2022.850107, 2022

[7] Ying Sun, Zhaolin Gu*, Implementation of construction waste recycling under construction sustainability incentives: A multi-agent stochastic evolutionary game approach, Sustainability, 14, 3702; doi:10.3390/su14063702, 2022

[8] Bin Chang, He Wen, Chuck Wah Yu, Xilian Luo*, Zhaolin Gu, Preservation of earthen relic sites against salt damages by using a sand layer. Indoor and Built Environment, doi:10.1177/1420326X211060756, 2022

[9] Ran Li, Zanshe Wang, Meijuan Chen, Zhang Li, Xiaowei Luo, Weizhen Lu* ,Zhaolin Gu*, Fabrication and characterization of superhydrophobic Al-based Surface used for finned-tube heat exchangers, Materials, 15, 3060; doi: 10.3390/ma15093060, 2022

[10] Chao Hong, Yujun Yang, Shuwei Ge, Guankun Chai, Peizhi Zhao, Qingxiang Shui, Zhaolin Gu*, Is the design guidance of color and material for urban buildings a good choice in terms of thermal performance? Sustainable Cities and Society, 83, 103927; doi: 10.1016/j.scs.2022.103927, 2022

[11] Ying Sun, Zhaolin Gu*, Using computer vision to recognize construction waste: A Trustworthy Datasets Perspective, Resources, Conservation & Recycling, 183,106362; doi:10.1016/j.resconrec.2022.106362, 2022

[12] Bingtao Hu, Zhaolin Gu*, Chenxing Zhou, Le Wang, Chuanqing Huang, Junwei Su*, Investigation of the effect of capillary barrier on water–oil movement in water Flooding, Applied Sciences, 12, 6285. https://doi.org/10.3390/app12126285, 2022

[13] Chao Hong, Yupeng Wang, Zhaolin Gu*, Chuck Wah Yu, Cool facades to mitigate urban heat island effects, Indoor and Built Environment, doi: 10.1177/1420326X221115369,2022

[14] Chao Hong, Yupeng Wang*, Zhaolin Gu*, How to understand the heat island effects in high-rise compact urban canopy? City and Built Environment, in press

[15] Zanshe Wang*, Zhiwei Li, Guotai Lu, Qi Gao, Runxia Zhang, Zhaolin Gu, Experimental study on phase change heat storage of valley electricity and economic evaluation of commercial building heating, Sustainable Cities and Society, 86, 104098; doi: 10.1016/j.scs.2022.104098, 2022 

[16] Zanshe Wang* , Zhaoying Jia, Ran Li , Qi Gao and Zhaolin Gu, Analysis and experimental study on water vapor partial pressure in the membrane distillation process, Membranes, 12, 802. https://doi.org/10.3390/membranes12080802, 2022

[17] Zi‑Xiang Tong, Ming‑Jia Li*, Zhaolin Gu, Jun‑Jie Yan, Wen‑Quan Tao, A Gaussian process regression accelerated multiscale model for conduction‑radiation heat transfer in periodic composite materials with temperature‑dependent thermal properties, Advances in Aerodynamics, 4:30; https://doi.org/10.1186/s42774‑022‑00122‑0, 2022

[18] 王艳妮,杨敬婷,黄贤峰,陆标,顾兆林*, 贵州省生物质燃烧源大气污染物排放清单, 环境科学, 录用



[1] Jin Li, Tian Tian, Guan Zhang, Zongkuan Liu*, Zhaolin Gu*, Jiaxin Niu, Reaction model for the aging and shelf-life prediction of double-base propellant SF-3, Propellants, Explosives. Pyrotechnics, 46, 986-994; DOI: 10.1002/prep.202100017, 2021

[2] Zhang Li, Zhaolin Gu, Ran Li, Chen Wang, Chungang Chen, Chunlei Yu, Yigen Zhang, Qinglin Shu, Junwei Su*, Investigation on droplet dynamic snap-off process in a short, abrupt constriction, Chemical Engineering Science, 235, 116496, 2021

[3] Guoliang Chai, Le Wang, Zhaolin Gu, Chunlei Yu, Yigen Zhang, Qinglin Shu, Junwei Su*, A consistent sharp interface fictitious domain method for moving boundary problems with arbitrarily polyhedral mesh,International Journal of Numerical methods in Fluids, 93: 2065-2088; DOI: 10.1002/fld.4965, 2021

[4] Le Wang*, Junwei Su, Zhaolin Gu, Liyu Tang, Numerical study on flow field and pollutant dispersion in an ideal street canyon within a real tree model at different wind velocities, Computers and Mathematics with Applications, 81: 679–692, 2021

[5] Duo Xu, Dian Zhou*, Yupeng Wang, Xiangzhao Meng, Zhaolin Gu, Yujun Yang, Temporal and spatial heterogeneity research of urban anthropogenic heat emissions based on multi-source spatial big data fusion for Xi’an, China, Energy & Buildings, 240, 110884, 2021

[6] 王艳妮,秦俊虎,杨敬婷,郑明杰,徐玮,黄贤峰,顾兆林*, 基于入户调查的贵阳市生活燃煤排放清单, 环境科学学报,41(5): 1-9, 2021

[7] Han Li, Zhao Jingyuan*, Gu Zhaolin*, Assessing air quality changes in Xi'an Air Pollution During the COVID-19 Pandemic: a case study in Xi'an, China, Sustainable City and Society 70, 102934, 2021

[8] Qingxiang Shui, Cuie Duan, Daguo Wang, Zhaolin Gu*, New insights into numerical simulations of flow around two tandem square cylinders, AIP Advances 11, 045315; doi: 10.1063/5.0042797, 2021

[9] 贺沅平, 张云伟, 顾兆林*, 2021. 特强沙尘暴灾害性天气的特征及触发机制的研究进展和展望. 中国环境科学, doi: 10.19674/j.cnki.issn1000-6923.20210425.0092021

[10] Yuanping HE, Xinqi XU, Zhaolin GU, Xinhao CHEN, Yuman LI, Shaojia FAN*, Vertical distribution characteristics of aerosol particles over the Guanzhong Plain. Atmospheric Environment, doi: 10.1016/j.atmosenv.2021.118444, 2021 

[11] 张润霞,顾兆林*,王赞社,康彦青,基于自然冷源的蓄冷材料制备及蓄释冷实验研究,建筑节能,49(2): 86-90, 2021

[12] 张润霞,顾兆林*,王赞社,康彦青,白梦梦,空气能蓄冷用相变材料研制及热物性表征,化工进展,doi: 10.16085/j.issn.1000-6613.2020-16602021

[13] Xilian Luo*, Xingyu Huang, Zhuangbo Feng, Juan Li, Zhaolin Gu*, Influence of air inlet/outlet arrangement of displacement ventilation on local environment control for unearthed relics within site museum, Energy and Buildings, 246, 111116, 2021, doi: 10.1016/j.enbuild.2021.111116

[14] Zhaolin Gu*, Yuanping He*, Yunwei Zhang, Junwei Su, Renjian Zhang, Chuck Wah Yu, Daizhou Zhang, An overview of triggering mechanisms and characteristics of local strong sandstorms in China and Haboobs, Atmosphere, 12, 752. doi:10.3390/atmos12060752, 2021

[15] Jie Han, Han Dai, Zhaolin Gu*, Sandstorms and desertification in Mongolia, an example of future climate events. A review, Environmental Chemistry Letters, doi: 10.1007/s10311-021-01285-w, 2021

[16] Chengyu Han, Zhaolin Gu*, Hexiang Yang, EKC Test of the Relationship between Nitrogen Dioxide Pollution and Economic Growth—A Spatial Econometric Analysis Based on Chinese City Data, International Journal of Environment Reseasrch and Public Health, 18, 9697. https://doi.org/10.3390/ijerph18189697, 2021

[17] Qingxiang Shui, Xinyi Wu, Chao Hong, Yunwei Zhang, Nyuk Hien Wong, Chuck Wah Yu, Zhaolin Gu*, Daguo Wang, Reformulation and improvement of a universal subgrid eddy viscosity model based on the multiscale framework, Computer Methods in Applied Mechanics and Engineering, https://doi.org/10.1016/j.cma.2021.114216, 2021

[18] Jin Li, Xinxin Liang, Guan Zhang, Sijie Cao, Zongkuan Liu*, Zhaolin Gu*, Pu Liu, Shrinking Particle Reaction Model for a Waste Double-Base Propellant During Alkaline Hydrolysis, Propellants, Explosives. Pyrotechnics, DOI: 10.1002/prep.202100206, 2021

[19] Yuexi Dang, Xilian Luo*, Bin Chang, Xingyu Huang, Zhuangbo Feng, Zhaolin Gu, Local attachment ventilation system for the unearthed relic preservation area within site museum, Sustainable Cities and Society, https://doi.org/10.1016/j.scs.2021.1035372021

[20] Xilian Luo*, Yuexi Dang, Chuck Wah Yu, Zhaolin Gu, The practice of local environment control for the funerary pits of Emperor Qin’s Mausoleum Site Museum, Indoor and Built Environment, 30(3): 293–297, 2021

[21] Yue Chang, Jingfeng Xiao*, Xuxiang Li*, Ariane Middel, Yunwei Zhang, Zhaolin Gu, Yiping Wu, Shan He, Exploring diurnal thermal variations in urban local climate zones with ECOSTRESS land surface temperature data, Remote Sensing of Environment, 263, 112544, https://doi.org/10.1016/j.rse.2021.112544, 2021

[22] 罗昔联*,汪怡珂,韩霁昌,顾兆林.实验年限对砒砂岩改良风沙土微观结构的影响,西安交通大学学报. 2021,55(12):174-181

[23] 罗昔联*,王乐,顾兆林.树冠特对城市街谷内流场及污染物扩散影响的数值模拟研究应用力学学报,202138(5):1-8(网络首发页码).

[24] Yunwei Zhang*, Jili Zhang, Xiaoqian Zhang, Dian Zhou, Zhaolin Gu*, Analyzing the Characteristics of UHI (Urban Heat Island) in Summer Daytime Based on Observations on 50 Sites in 11 LCZ (Local Climate Zone) Types in Xi’an, China, Sustainability, 13, 83; https://doi.org/10.3390/su13010083, 2021




[1] Jin Li, Chao He**, Tian Tian, Zongkuan Liu*, Zhaolin Gu, Guan Zhang, Wendong Wang, UASB-modified Bardenpho process for enhancing bio-treatment efficiency of leachate from a municipal solid waste incineration plant, Waste Management, 102: 97–105, 2020 

[2] Yuanping He, Zhaolin Gu*, Weizhen Lu*, Liyuan Zhang, Daizhou Zhang, Tomoaki Okuda, Chuck Wah Yu, Charging states on atmospheric aerosol particles affected by meteorological conditions, Particuology, DOI: 10.1016/j.partic.2019.12.007, 2020

[3] Zanshe Wang, Ran Li, Juntao Hu, Xianwei Hu, Zhaolin Gu*, Experimental study on hybrid organic phase change materials used for solar energy storage, Journal of Thermal Science, DOI: 10.1007/s11630-020-1224-3, 2020

[4] Liyuan Zhang, Junwei Su, Yu Huang, Qiyuan Wang, Renjian Zhang, Yunfei Wu, Yue Zhang, Yan Cheng, Yuanping He, Shuncheng Lee, Chuck Yu, Zhaolin Gu*, Examining the physical and chemical contributions to size spectrum evolution during the development of hazes, Scientific Reports, DOI: 10.1038/s41598-020-62296-1, 2020 

[5] Xilian Luo*, Shilin Lei, Wei Tian, Zhaolin Gu*, Evaluation of air curtain system orientated to local environmental control of archaeological museum: A case study for the stone armor pit of Emperor Qin’s Mausoleum Museum, Sustainable Cities and Society, 57, 102121, 2020

[6] Le Wang, Junwei Su*, Zhaolin Gu, Qingxiang Shui, Effect of street canyon shape and tree layout on pollutant diffusion under real tree model, Sustainability, 12, 2105; doi:10.3390/su12052105, 2020

[7] Yuanping He, Zhaolin Gu*, Qingxiang Shui, Botao Liu, Weizhen Lu, Renjian Zhang, Daizhou Zhang, Chuck Wah Yu, RANS Simulation of Local Strong Sandstorms Induced by a Cold Pool with Vorticity, Atmosphere, 11, 321; doi:10.3390/atmos11040321, 2020

[8] Weijun Li, Yuanping He, Yunwei Zhang, Qingxiang Shui1, Xinyi Wu, Chuck Wah Yu, Zhaolin Gu*, Numerical study of the composite effects of uneven street canyons and time-varying inflows on the air flows and pollutant dispersion, Aerosol and Air Quality Research, doi: 10.4209/aaqr.2019.06.0322, 2020 

[9] 汪怡珂罗昔联陈思宇夏寅马涛顾兆林*, 文物的赋存环境及其预防性保护问题文物保护与考古科学,32(2): 95-102, 2020

[10] Xilian Luo*, Xiaoyu Zhu, Wei Tian, Zhaolin Gu*, The negative impact of skylights on light-irresponsive historical sites within archaeological museums: A case study, Solar Energy, 202, 104-114, 2020

[11] Mu, Y.T., Li, Z.A., Gu, Z.L., Tao, W.Q.*, Computational fluid dynamics prediction of formaldehyde emission and sorption processes in a small test chamber with mixing fan and vents, Atmospheric Environment, doi: 10.1016/j.atmosenv.2020.117455, 2020

[12] Junwei Su, Guoliang Chai, Le Wang, Jinbiao Yu, Weidong Cao, Zhaolin Gu, Chungang Chen*, Wei Meng, Direct numerical simulation of particle pore-scale transport through three-dimensional porous media with arbitrarily polyhedral mesh, Powder Technology, doi: 10.1016/j.powtec.2020.04.007, 2020 

[13] Li Han, Jingyuan Zhao*, Yuejing Gao, Zhaolin Gu*, Kai Xin, Jianxin Zhang, Spatial distribution characteristics of PM2.5 and PM10 in Xi’an City predicted by land use regression models, Sustainable Cities and Society, 61, 102329, 2020

 [14] Yu-Tong Mu*, Adam Z Weber, Zhao-Lin Gu, Tobias Schuler, Wen-Quan Tao. Mesoscopic analyses of the impact of morphology and operating conditions on the transport resistances in a proton-exchange-membrane fuel-cell catalyst layer, Sustainable Energy and Fuels, doi: 10.1039/D0SE00560F, 2020 

[15] Zi-Xiang Tong, Ming-Jia Li, Jun-Jie Yan, Zhao-Lin Gu, A theoretical analysis of the hydrodynamic influence on the growth of microalgae in the photobioreactors with simple growth kinetics, International Journal of Heat and Mass Transfer, 158, 119986, 2020 

[16] Zi-Xiang Tong, Ming-Jia Li*, Dong Li, Zhaolin Gu, Wen-Quan Tao, Two-dimensional numerical model for predicting fouling shape growth based on immersed boundary method and lattice Boltzmann method, Applied Thermal Engineering, 179, 115755, 2020

[17] Liyuan Zhang, Xiaoxiao Yi, Min Zhao*, Zhaolin Gu, Reduction of solar photovoltaic due to aerosol pollution in megacities in western China during 2014 to 2018, Indoor and Built Environment, DOI: /10.1177/1420326X20939310, 2020

[18] Qinxiang Shui, Cuie Duan, Xinyi Wu, Yunwei Zhang, Xilian Luo, Chao Hong, Yuanping He, Nyuk Hien Wong, Zhaolin Gu*, A hybrid dynamic Smagorinsky model for large eddy simulation, International Journal of Heat and Fluid Flow, 86, 108698, 2020, DOI: /10.1016/j.ijheatfluidflow.2020.108698 

[19] Wang Zanshe, Yin Fangting, Li Ran, Gu Zhaolin*, Experimentation and analysis of a membrane-based air pre-dehumidification for capillary radiant air conditioning system, Indoor and Built Enviroment, DOI: /10.1177/1420326X20967389, 2020

[20] Yunwei Zhang, Zhaolin Gu*, Chuck Wah Yu, Impact factors on airflow and pollutant dispersion in urban street canyons and comprehensive simulations: A review, Current Pollution Reports, DOI:/10.1007/s40726-020-00166-0, 2020

[21] Bin Chang, Yuexi Dang, Xilian Luo*, Chuck Wah Yu, Zhaolin Gu*, Sustainability of evaporative cooling system for environment control for preservation of unearthed historical sites within archaeological museums in China, Sustainability, 12, 9882; doi:10.3390/su12239882, 2020



[1] Yuanping He, Zhaolin Gu*, Weizhen Lu*, Liyuan Zhang, Tomoaki Okuda, Kentaro Fujioka, Hui Luo, Chuck Wah Yu, Atmospheric humidity and particle charging state on agglomeration of aerosol particles, Atmospheric Environment, doi: 10.1016/j.atmosenv.2018.10.035, 197: 141-149, 2019

[2] Junwei Su, Guoliang Chai, Le Wang, Weidong Cao, Zhaolin Gu, Chungang Chen*, Xiao Yun Xu, Pore-scale direct numerical simulation of particle transport in porous media, Chemical Engineering Science, 199: 613–627, 2019

[3] Yunwei Zhang*, Shan He, Zhaolin Gu, Na Wei, Chuck Wah Yu, Xuxiang Li, Renjian Zhang, Xian Sun, Dian Zhou, Measurement, normalisation and mapping of urban-scale wind environment in Xi’an, China, Indoor and Built Environment, DOI: 10.1177/1420326X18804103

[4] Shan He, Yunwei Zhang*, Zhaolin Gu and Junwei Su, Local climate zone classification with different source data in Xi’an, China, Indoor and Built Environment, DOI: 10.1177/1420326X18796545

[5] Jin Li, Xiaohu Yin, Zongkuan Liu*, Zhaolin Gu, Jiaxin Niu, Reaction yield model of nitrocellulose alkaline hydrolysis, Journal of Hazardous Materials, DOI: 10.1016/j.jhaz.mat.2019.03.044

[6] Zhisheng An*, Rujin Huang, Renyi Zhang, Xuexi Tie, Guohui Li, Junji Cao, Weijian Zhou, Zhenguo Shi, Yongming Han, Zhaolin Gu, Yuemeng Ji, Severe haze in Northern China: A synergy of anthropogenic emissions and atmospherci processes, The proceeding of the National Academy of Sciences of the United States of America (PNAS), DOI: 10.1073/pnas.1900125116

[7] Weijun Li, Yuanping He, Yunwei Zhang, Junwei Su, Chungang Chen, Chuck Wah Yu,Renjian Zhang, Zhaolin Gu*, LES simulation of flow field and pollutant dispersion in a street canyon under time-varying inflows with TimeVarying-SIMPLE approach, Building and Environment, 157: 185-196, DOI:10.1016/j.buildenv.2019.04.049  

[8] Weijun Li, Yang Zhang, Bin Yang, Yunwei Zhang, Weizhen Lu, Qingxiang Shui, Xinyi Wu, Yuamping He, Zhaolin Gu*, Large-scale turbulence structures in a laboratory-scale boundary layer under steady and gusty wind inflows, Scientific Reports9: 9373, https://doi.org/10.1038/s41598-019-45873-x, 2019

[9] Guoliang Chai, Junwei Su*, Wang Le, Chunlei Yu, Yigen Zhang and Zhaolin Gu, Improving the Accuracy of Fictitious Domain Method using Indicator Function from Volume Intersection, Advances in Mathematical Physics, DOI: 10.1155/2019/5450313, 2019

[10] 李娟,罗昔联,常彬,顾兆林,回风位置对文物保存环境置换通风调控性能的影响,西安交通大学学报,53(5): 115-121, 2019

[11] Xilian Luo*, Bin Chang, Wei Tian, Juan Li, Zhaolin Gu*, Experimental study on local environmental control for historical site in archaeological museum by evaporative cooling system, Renewable Energy, 143: 798-809, 2019

[12] Junwei Su, Guoliang Chai, Le Wang, Weidong Cao; Jinbiao Yu; Zhaolin Gu; Chungang Chen*, Direct Numerical Simulation of Pore Scale Particle-Water-Oil Transport in Porous Media, Journal of Petroleum Science and Engineering, 180: 159-175, 2019

[13] Yuanping He, Mingxu Zhang, Weijun Li, Junwei Su, Kiwamu Kase, Chuck Wah Yu, Zhaolin Gu*, Feasibility of  a new helical blade structure for a PV integrated wind turbine in a heat-driven swirling wind field, Energy, https://doi.org/10.1016/j.energy.2019.07.029, 2019

[14] Xilian Luo, Chuck Wah Yu, Dian Zhou, Zhaolin Gu*, Challenges and adaptation to urban climate change in China: A viewpoint of urban climate and urban planning, Indoor and Built Environment, 28(9): 1157-1161, 2019

[15] Junwei Su, Juan Li, Xilian Luo*, Chuck Wah Yu, Zhaolin Gu, Experimental evaluation of a capillary heating bed driven by an air source heat pump and solar energy, Indoor and Built Environment, DOI: 10.1177/1420326X19878576, 2019

[16] Yutong Mu, Adam Z. Weber, Zhaolin Gu, Wenquan Tao*, Mesoscopic modeling of transport resistances in a polymer-electrolyte fuelcell catalyst layer: Analysis of hydrogen limiting currents, Applied Energy, 255, 113895, 2019

[17] Junwei Su, Le Wang*, Yumin Zhang, Zhaolin Gu, A Numerical Study on Influent Flow Rate Variations in a Secondary Settling Tank, Processes 7, 884; doi:10.3390/pr7120884, 2019

[18]Yan Cheng*, Lu Yan, Yu Huang, Qiyuan Wang, Lidia Morawska**, Zhaolin Gu, Junji Cao, Liyuan Zhang, Bowei Li, Yelin Wang, Characterization of particle size distributions during winter haze episodes in urban air, Atmospheric Research, 228:55-67, 2019

[19] Junwei Su, Le Wang* , Zhaolin Gu, Meimei Song, Zhourong Cao, Effects of real trees and their structure on pollutant dispersion and flow field in an idealized street canyon, Atmospheric Pollution Research, 10:1699-1710, 2019

[20] 苏军伟王乐*, 顾兆林陈杰不同入口流量二沉池非牛顿液体/固体两相模拟,应用力学学报,36(5): 1018-1025, 2019




[1] Yuanping He, Zhaolin Gu*, Junwei Su, Chungang Chen, Mingxu Zhang, Liyuan Zhang, Weizhen Lu*, Coupling Eulerian-Lagrangian method of air-particle two-phase flow with population balance equations to simulate the evolution of vehicle exhaust plume,  International Journal Numerical Method in Fluids, 88(3): 117-140; doi:10.1002/fld.4514, 2018 (期刊封面报道论文)

[2] Yunwei Zhang, Zhaolin Gu*, Chuck Wah Yu, Review on numerical simulation of airflow and pollutant dispersion in urban street canyons under natural background wind condition, Aerosol and Air Quality Research, doi: 10.4209/aaqr.2017.09.0303, 18(3): 780-789, 2018 

[3] Xilian Luo*, Zhaolin GU*, Wei Tian, Yin Xia, Tao Ma, Experimental study of a local ventilation strategy to protect semi-exposed relics in a site museum, Energy and Buildings, doi: 10.1016/j.enbuild.2017.12.001, 159: 558-571, 2018

[4] Yutong Mu, Zhaolin Gu, Pu He, Wenquan Tao*, Lattice Boltzmann method for conjugated heat and mass transfer with general interfacial conditions, PHYSICAL REVIEW E, 98(4): 043309, 2018, doi: 10.1103/PhysRevE.98.043309

[5] Cuie Duan, Weizhen Lu, Yunwei Zhang, Zhaolin Gu*, A new urban canopy parameterization scheme for wind environment simulations, Indoor and Built Environment, doi: 10.1177/1420326X17741338, 27(3): 402-422, 2018

[6] Junwei Su, Le Wang, Zhaolin Gu, Yunwei Zhang, Chungang Chen*, Advances in Pore-Scale Simulation of Oil Reservoirs, Energies, 2018, 11, doi:10.3390/en11050000

[7] Su Junwei, Le Wang, Gu Zhaolin, Chen Chungang*, Local Fixed Pivot Quadratue Method of Moments for solution of population balance equation, Processes, 2018, doi:10.3390/pr6110209

[8] He Wen, Xilian Luo*, Yuhui Shen, Min Zhao, Zhaolin GU,Research of Evaporative Cooling Experiment in Summer of Residential Buildings in Xi'an, Energy Procedia, 152(11): 928-934, doi:  10.1016/j.egypro.2018.09.095 

[9]  王赞社胡俊涛顾兆林杨利生膜蒸馏技术在溶液蓄能中的应用,制冷学报,39(3): 7-12, 2018



[1] M. Zhao, Z.L. Gu, W.B. Kang, X. Liu, L.Y. Zhang, L.W. Jin, Q.L. Zhang, Experimental investigation and feasibility analysis on a capillary radiant heat system based on solar and air source heat pump dual heat source, Applied Energy, 185(2): 2094-2105, 2017 (ESI高被引论文

[2] Liyuan Zhang, Yan Cheng, Yue Zhang, Yuanping He, Zhaolin Gu, Chuck Yu, Impact of air humidity fluctuation on the reise of PM mass concerntration based on the high-resolution monitoring data, Aerosol and Air Quality Research, 17: 543-552, 2017

[3] Zhang Yunwei, Gu Zhaolin, Yu Chuck Wah, Large eddy simulation of vehicle induced turbulence in an urban street canyon with a new dynamically vehicle-tracking scheme, Aerosol and Air Quality Research, 17(3): 865-874, doi: 10.4209/aaqr.2016.05.0204, 2017

[4] Zanshe Wang, Lisheng Yang, Juntao Hu, Zhaolin Gu, Analysis on cascade heat utilization of solar energy in building heating based on phase change thermal storage, Procedia Engineering, 205(1): 2266-2272, 2017

[5] Zanshe Wang, Lisheng Yang, Juntao Hu, Xianwei Hu, Zhaolin Gu,Experimental study on phase change thermal storage of crystalline hydrated salt applied in solar thermal utilization, Procedia Engineering, 205(1): 2259-2265, 2017

[6] 王赞社,杨利生胡显威罗昔联,顾兆林参比温度曲线法的改进与实验研究制冷学报, 38(6): 34-38, 2017

[7] 高松赵民李扬王宇昂孟祥兆顾兆林金立文辐射供冷空调系统下的人体热舒适性研究西安交通大学学报, 51(9): 98-104, 2017

[8] M. Zhao, W.B. Kang, X. L. Luo, C. Yu, X. Z. Meng, Z. L. Gu, Performance comparison of capillary mat radiant and floor radiant heating systems assisted by air source heat pump in residential building, Indoor and Built Environment, 26(9): 1292-1304, DOI: 10.1177/1420326X16674517, 2017 

[9] 张铭旭, 顾兆林, 罗昔联, 苏军伟, 段翠娥, 一种新型旋转风能系统中聚热棚的模拟和实验研究, 工程热物理学报, 38(9): 1980-1985, 2017



[1] 张云伟顾兆林周典城市局部气候分区及其参数化条件下风环境模拟地球环境学报,2016, 7(5): 480-486

[2] 李为君,顾兆林,张云伟,段翠娥,张力元,LU Weizhen Jane,时变来流条件下大气边界层流动过程的大涡模拟,计算物理,2016, 33(6): 691-697

[3] Aymeric Spiga, Erika Barth, Zhaolin Gu, Fabian Hoffmann, Junshi Ito, Bradley, Jemmett-Smith, Martina Klose, Seiya Nishizawa, Siegfried Raasch, Scot Rafkin, Tetsuya Takemi, Daniel Tyler, Wei Wei, Large-Eddy Simulations of convective vortices and dust devils, Space Science Reviews, DOI:10.1007/s11214-016-0284-x, 2016

[4] M. V. Kurgansky, R. D. Lorenz, N. O. Renno, T. Takemi, Z. l. Gu, W. Wei. Dust devil steady-state structure from a fluid dynamics perspective, Space Science Reviews, DOI 10.1007/s11214-016-0281-0, 2016

[5] 苏军伟,王乐,张云伟,顾兆林,隔声屏障对街道峡谷污染物扩散影响,环境工程,http://www.cnki.net/kcms/detail/11.2097.X.20160629.1407.068.html

[6] 苏军伟,顾兆林,气固颗粒系统模拟的研究进展,化学反应工程与工艺, 32(3): 261-276, 2016

[7] 贺沅平,危卫,顾兆林,龙卷风风场下水面船舶倾覆的力学机理浅析,西安交通大学学报,2016, 50(5): 120-124

[8] Xilian Luo, Wenwu Li, Yuehui Yu, Liwen Jin, Zhaolin Gu, An energy efficient strategy for local environment control of relics preservation in archaeology museums with funerary pits, Energy Procedia, 88: 271 – 276, 2016

[9] Liyuan Zhang, Zhaolin Gu, Chuck Yu, Yunwei Zhang, Yan Cheng, Surface charges on aerosol particles - accelerating particle growth rate and atmospheric pollution, Indoor and Built Environment, 25(3): 437-440, 2016

[10] Ralph D. Lorenz, Matthew R. Balme, Zhaolin Gu, Henrik Kahanpää, Martina Klose, Michael V. Kurgansky, Manish R. Patel, Dennis Reiss, Angelo Pio Rossi, Aymeric Spiga, Tetsuya Takemi, Wei Wei, History and Applications of Dust Devil Studies, Space Science Reviews, DOI 10.1007/s11214-016-0239-2, 2016

[11]  Xilian Luo, Zhaolin Gu, Wei Tian, Ku Li, An independent and simultaneous operational mode of air conditioning systems for visitors and relics in archaeology museum, Applied Thermal Engineering, 100: 911-924, 2016

[12] Xilian Luo, Zhaolin Gu, Chuck Wah Yu, Ku Li, Bo Xiao, Preservation of in situ artefacts by local heating in earthen pit in archaeology museum in cold winter, Building and Environment, 99: 29-43; 10.1016/j.buildenv.2016.01.015,2016

[13] Xilian Luo, Zhaolin Gu, Chuck Yu, Kiwamu Kase. Efficacy of an air curtain system for local pit environmental control for relic preservation in Archaeology Museums, Indoor and Built Environment, 25: 29-40; DOI: 10.1177/1420326X15585327, 2016

[14] 张云伟,王晴茹,陈嘉,刘随心,胡塔峰,顾兆林,城市街谷内PM2.5浓度时空变化及影响因素分析,中国环境科学,36(10): 2944-2949, 2016

[15] 苏军伟,王乐,顾兆林,张云伟,基于颗粒能量耗散模型的多相网格质点法的旋风分离器模拟,环境工程学报,1010: 5735-5742, 2016

[16] Junwei Su, Chuanqing Huang, Zhaolin Gu, Chungang Chen*, Xiaoyun Xu, An Efficient RIGID Algorithm and Its Application to the Simulation of Particle Transport in Porous Medium, Transport in porous media, 114(1): 99-131, 2016



[1] 张云伟, 张海炜, 顾兆林. 行驶车辆诱导城市街谷内流场的大涡模拟. 环境科学与技术, 38(9): 64-69, 2015

[2] 张海炜, 张云伟, 顾兆林. 西安市机动车尾气排放特征分析. 环境工程, 33(增刊): 393-397, 2015
[3] 危卫, 张力元, 顾兆林, 工业中粉体颗粒的荷电机理及数值模拟方法, 物理学报, 64(16), 168301, 2015
[4] 张润霞,王赞社,孟祥兆,王芳,刘丰榕,顾兆林,溶液除湿中基于水蒸汽压差的传质系数,化工学报,66(12): 4774-4779, 2015
[5] Wei Wei, Zhaolin Gu, Electrification of particulte entrained  flows— mechanisms, applications, and numerical methodology, Physics Reports: A Review Section of Physics Letters, doi: /10.1016/j.physrep.2015.10.001, 2015
[6] Junwei Su, Zhaolin Gu, Chungang Chen, XiaoYun Xu, A two-layer mesh method for discrete element simulation of gas-particle systems with arbitrarily polyhedral mesh, International Journal for Numerical Methods in Engineering, 103(10): 759-780, 2015
[7] Weijun Li, Yunwei Zhang, Wei Wei, Zhaolin Gu,Discussions of some issues for wind blown sand flow simulation. Procedia IUTAM, 17:119-128, 2015
[8] H. Yang, M. Zhao, Z.L. Gu, L.W. Jin, J.C. Chai. A further discussion on the effective thermal conductivity of metal foam: An improved model. International Journal of Heat and Mass Transfer, 86: 207-211, 2015
[9] Chao he, Ran Li, Zongkuan Liu, Zhaolin Gu, Characterization and performance of ploy-silicic-cation coagulation in treatment of recycled treatment wastewater, Desalination and Water Treatment, doi: 10.1080/19443994.2015.1007170, 2015
[10] Fen Cui, Weijun Li, Guozheng Wang, Zhaolin Gu, Zanshe Wang. Design and Study of Gas-tight Premium Threads for Tubing and Casing. Journal of Petroleum Science and Engineering, 133(9): 208-217, 2015
[11] Mingxu Zhang, Xilian Luo, Tianyu Li, Liyuan Zhang, Xiangzhao Meng, Kiwamu Kase, Chuck W F Yu, Zhaolin Gu, From dust devil to sustainable swirling wind energy, Scientific Reports, 5, 8322; DOI:10.1038/srep08322, 2015
[12] Xilian Luo, Zhaolin Gu, Tianyu Li, Xiangzhao Meng, Tao Ma, Chuck Yu, Environmental control strategies for the in situ preservation of unearthed relics in archaeology museums, Journal of Cultural Heritage,16: 790-797;  DOI:10.1016/j.culher.2015.03.013, 2015

[13] Xilian Luo, Zhaolin Gu, Chuck Yu, Desiccation cracking of earthen sites in archaeology museum- a viewpoint of chemical potential difference of water content, Indoor and Built Environment, 24(2):147-152, 2015

[14]孟祥兆,路昭,金立文,罗昔联,顾兆林,汉阳陵遗址文物保存风幕隔离及富氮低氧环境数值模拟研究,文物保护与考古科学,27(3): 1-7,2015



 [1] 王国正,崔奋,顾兆林,王赞社,张德松, 热洗清蜡工艺技术对比研究及应用,石油矿场机械,43(9):81-85, 2014

[2] 吕玉卓, 路原睿, 顾兆林, 考虑对流换热的水平套管式蓄热体数值模拟,石油化工设备, 43(3): 38-41, 2014
[3] 刘丰榕, 王芳, 王赞社, 罗昔联, 顾兆林, 扩散吸收式冰箱平直翅片管冷凝器数值模拟,制冷与空调,14(6): 44-47, 2014
[4] Na Chang, Zhaolin Gu, Kinetic model of low temperature coal tar hydrocracking in supercritical gasoline for reducing coke production, Korean Journal of Chemical Engineering, 31(5), 780-784, 2014

[5] Junwei Su, Zhaolin Gu, Mingxu Zhang, XiaoYun Xu, An improved version of RIGID for discrete element simulation of particle flows with arbitrarily complex geometry, Powder Technology, 253(2): 393-405, 2014



[1] Yan Cheng, Shuncheng Lee, Zhaolin Gu, Kinfai Ho, Yunwei Zhang, Yu Huang, PM2.5 and PM10-2.5 chemical composition and source apportionment near a Hong Kong roadway, Particuology, doi:10.1016/j.partic.2013.10.003, 2013

[2] Yunwei Zhang, Zhaolin Gu, Zanshe Wang, Chuck Yu, Revisit of wind flows between wind tunnels and real canyons — the viewpoint of Reynolds dynamic similarity, Indoor and Built Environment, 22(3):467-470, 2013

[3] Yunwei Zhang, Zhaolin Gu, Air quality by urban design, Nature Geoscience, 6(7): 506-506, 2013

[4] Zhaolin Gu, Wei Wei, Junwei Su, and Chuck Yu, The role of water content in triboelectric charging of wind-blown sand, Scientific Report, DOI:10.1038 /srep01337, 2013

[5] Zhaolin Gu, Xilian Luo, Xiangzhao Meng, Zanshe Wang, Tao Ma, Chuck Yu, Bo Rong, Ku Li, Wenwu Li, Ying Tan, Reintegrating the primitive environment for relics preservation in archaeology museums, Environmental Science and Technology, 47(3): 1504-1509, 2013

[6] Wei Wei, Zhaolin Gu, Sheng Wang, Yunwei Zhang, Kangbin Lei, Kiwamu Kase, Numerical simulation of the cone-jet formation and current generation in electrostatic spray - modeling as regards space charged droplet effect, Journal of Micromechanics and Microengineering, doi:10.1088/0960-1317/23/1/015004, 2013

[7] Wei Wei, Sheng Wang, Zhaolin Gu, Takeshi Fukuda, Kiwamu Kase, Jungmyoung Ju, Yutaka Yamagata, Yusuke Tajima, Numerical simulation of nanoparticle pattern fabricated by electrostatic spray deposition, Particuology, 11(1): 20-24, 2013

[8] Yunwei Zhang, Zhaolin Gu, Zanshe Wang, Yan Cheng, Frank S. C. Lee, Advances in the fine scale simulation of urban wind environment, Indoor and Built Environment, 22(1): 332-336, 2013

[9] 张云伟, 顾兆林, 段翠娥, 苏磊杰. 行驶车辆对城市街谷内空气流动与污染物扩散影响的数值模拟, 中国粉体技术, 19(5): 1-6, 2013

[10] 顾兆林,张铭旭,采用低温太阳能集热的旋转热浮力射流风能利用的概念,西安交通大学学报, 2013, 47(1): 7-10

[11] 危卫,张云伟,顾兆林, 电场作用下电流变液滴的变形及力学行为, 科学通报, 58(3): 197-205, 2013



[1] 王乐, 张云伟, 顾兆林,动态风场及交通流量下街道峡谷内污染物扩散模拟,中国环境科学, 2012, 32(12): 2161-2167

[2] 危卫,鲁录义,顾兆林,风沙运动的电场-流场耦合模型及气固两相流数值模拟,物理学报,2012,61(15): 158301

[3] Yun-Wei Zhang, Zhao-Lin Gu, Yan Cheng, Zhen-Xing Shen, Jun-Gang Dong, Shun-Cheng Lee, Measurement study of diurnal variations of PM2.5 mass concentrations and affecting factors on pollutant dispersion in urban street canyons under weak-wind conditions in Xi’an, Aerosol and Air Quality Research, 2012, 12(6): 1261-1268

[4] Yunwei Zhang, Zhaolin Gu, Chuck Yu, Time-series numerical simulation of wind flow within urban canopy layer and its integration effect for prediction of pollutant concentration variation, Indoor and Built Environment, 2012, 21(3): 355–357

[5] Xilian Luo, Zhaolin Gu, Kangbin Lei, Xiangzhao Meng, Kiwamu Kase, A three-dimensional Cartesian cut cell method for incompressible viscous flow with irregular domains, International Journal Numerical Method in Fluids, 2012, 69(12): 1939–1959

[6] GU Zhaolin, JIAO Jianying, Zhang Yunwei, Junwei Su, Large eddy simulation using a dynamic mixing length subgrid-scale model, International Journal Numerical Method in Fluids, 2012, 69(9): 1457–1472

[7] Zhaolin Gu, Na Chang, Xiongpo Hou, Juanping Wang, Zongkuan Liu, Experimental study on the coal tar hydrocracking process in supercritical solvents, Fuel, 2012, 91: 33-39



[1] Junwei Su, Zhaolin Gu, X.Yun Xu, Discrete element simulation of particle flow in arbitrarily complex geometries, Chemical Engineering Science, 2011, 66: 6069-6088

[2] 顾兆林,张云伟,城市街谷的空气流动与污染物扩散研究—物理模型的发展及数学模拟,地球环境学报,2011, 2: 362-373

[3]  Zhaolin Gu, Yunwei Zhang, Yan Cheng, Shun-Cheng Lee, Effect of uneven building layout on air flow and pollutant dispersion in non-uniform street canyons, Building and Environment, 2011, 46: 2657-2665

[4] Yun-Wei Zhang, Zhao-Lin Gu, Cheng Yan, Shun-Cheng Lee, Effect of real-time boundary wind conditions on the air flow and pollutant dispersion in an urban street canyon—large eddy simulations, Atmospheric environment, 2011, 45: 3352-3359

[5] Zhaolin Gu, Jianying Jiao, Yunwei Zhang, Junwei Su, The nature of a universal subgrid eddy viscosity model in turbulent channel flow, Europhysics letters (EPL), 2011, 94, 34003

[6] Lin Li, Cheng Guangxu, Lau, SiuKit, Li Yun, Gu Zhaolin, Transmission loss investigation of two-dimensional thin mufflers by the modal expansion method using a new line source model, Acta Acustica united with Acustica, 97(1): 54-61, 2011

[7] 顾兆林, 侯雄坡, 王赞社, 冯诗愚, 高秀峰, 李云, 基于脉冲信号概念的往复压缩机流量调节方法分析,科学通报, 2011,56(15): 1169-1176

[8] Gu Zhaolin, Hou Xiongpo, Wang Zanshe, Feng Shiyu, Gao Xiufeng, Li Yun, Methods for large reciprocating compressor capacity control: A review based on pulse signal concept, Chinese Science Bulletin, 2011, 56(19): 1967-1974; DOI: 10.1007/s11434-011-4530-z

[9] 顾兆林, 张云伟, 雷康斌.不同大气稳定度下绿化街谷流动的大涡模拟, 中国科学,E辑:技术科学, 2011, 41 (1): 109-118

[10] Yun-Wei Zhang, Zhao-Lin Gu, Shun-Cheng Lee, Tzung-May Fu, Kin-Fai Ho, Numerical and in situ investigation of fine particle dispersion in an actual deep street canyon in Hong Kong, Indoor and Built Environment, 2011, 20(2): 206-216

[11]  Gu Zhaolin, Jiao Jianying, Su Junwei, Large eddy simulation of wind field and plume dispersion within different obstacle arrays using dynamic mixing length subgrid scheme, Boundary Layer Meteorology, 2011,139: 439-455

[12] Na Chang, Zhaolin Gu, Zanshe Wang, Zongkuan Liu, Xiongpo Hou, Juanping Wang. Study of Y zeolite catalysts for coal tar hydro-cracking in supercritical gasoline. Journal of Porous Materials, 2011, 18(5): 589-596

[13] Luo X L, Lei K B, Gu Z L, Wang S, Kase K. A novel Cartesian cut cell solver for incompressible viscous flow in irregular domains. International Journal Numerical Method in Fluids, 2011, 67: 289-313



[1] Gu Zhao-lin, Zhang Yun-wei, Lei Kang-bin.Large eddy simulation of flow in a street canyon with tree planting under different atmospheric stabilities. Science in China Series, E-Technological Sciences, 2010, 53(7): 1928-1937

[2] Zhaolin GU, Wei WEI, Yongzhi ZHAO, An overview of surface conditions in numerical simulations of dust devils and the consequent near-surface air flow fields, Aerosol and Air Quality Research, 2010, 10: 272–281

[3] Luyi Lu, Zhaolin Gu, Kangbin Lei, Sheng Wang, Kiwamu Kase, An efficient algorithm for detecting particle contact in non-uniform size particulate system, Particuology, 2010, 8: 127-132

[4] He Chao, Gu Zhaolin, Yang Shucheng, Liang Jidong, Dai Weina, He Yanling, Technical measures to achieve a cleaner production mode for recycled paper mills, Frontiers of Environmental Science & Engineering in China, 4(4): 466-474, 2010

[5] 常娜, 顾兆林, 候雄坡, 刘宗宽, 王赞社. 高温煤焦油加氢动力学研究. 煤炭转化. 2010, 33(2): 52-56.

[6] 常娜, 候雄坡, 刘宗宽, 顾兆林, 王赞社. 超临界汽油中煤焦油加氢裂化催化剂研究. 化学工程. 2010.38(8): 83-86.

[7] 罗昔联, 顾兆林, 雷康斌, 加濑究, 一种三维切削网格上的N-S方程离散方法,西安交通大学学报,2010, 44(5): 15-20

[8] 鲁录义,危卫,罗昔联,顾兆林,一种有限容积法中极点奇异单元的处理方法,西安交通大学学报,2010, 44(3): 95-99

[9] 苏军伟,顾兆林,X Yun Xu,离散相系统群体平衡模型的求解算法,中国科学,B辑:化学,40(2): 144-160, 2010



[1] Luyi Lu, Zhaolin Gu, Kangbin Lei, An inter-particle contact area and time restoration for softening treatment in thermal discrete element modeling, Europhysics letters (EPL), 87 (2009) 44004

[2] Zhaolin Gu, Luyi Lu , Li Ai, Impact energy loss from particle surface roughness in particulate system, Europhysics letters (EPL), 87 (2009) 14003

[3] Wang Zanshe, Gu Zhaolin, Feng Shiyu, Li Yun, Application of vacuum membrane distillation to lithium bromide absorption refrigeration system, Int. J. Refrig. 32: 1587-1596, 2009

[4] 林力,李云,顾兆林,刘兆杰,程光旭,计算二维声腔传递矩阵的正方形线声源模型,物理学报,58(8):5484-5490,2009

[5] 罗昔联,顾兆林,雷康斌,加濑究,一种求解N-S方程的自适应直角网格方法,西安交通大学学报,43(11): 11-17, 2009

[6] 王赞社,顾兆林,冯诗愚,李云,膜蒸馏技术在能量转换过程中的应用—基础与展望,科学通报,54(14): 2033-2044, 2009

[7] WANG ZanShe, GU ZhaoLin, FENG ShiYu, LI Yun, Applications of Membrane Distillation Technology in Energy Transformation Process—Basis and Prospect, Chinese Science Bulletin, 54: 2766―2780, doi: 10.1007/s11434-009-0390-1, 2009

[8] SU JunWei, GU ZhaoLin, XU X Yun,Advances in Numerical Methods for the Solution of Population Balance Equations for Disperse Phase Systems,Science in China Series, B-Chemistry, 52(8): 1063-1079, 2009

[9] 罗昔联,顾兆林,雷康斌,王盛,加濑究,基于四叉树切削网格的N-S方程求解方法,中国科学,G辑:物理学 力学 天文学,39(6): 887-8894, 2009

[10] Luo Xilian, Gu Zhaolin, Lei Kangbin, Wang Sheng, Kase Kiwamu, Solution of N-S equations based on quadtree cut cell method, Science in China Series, G-Physics, Mechanics & Astronomy,52(6): 877-884, 2009

[11] 樊敏, 顾兆林, 非机理性水质模型研究综述, 环境科学与管理, 34(9):63-67, 2009

[12] 樊敏, 顾兆林, 时间序列分析在大气环境中的应用, 环境工程, 27(S1): 540-542, 2009

[13] 樊敏, 顾兆林, 地表水环境的灰色聚类分析环境科学与管理, 34(10):189-194, 2009

[14] 王赞社, 冯诗愚, 李云, 顾兆林, 中空纤维膜换热器传热传质特性的实验和理论研究, 西安交通大学学报,43(5): 40-45, 2009

[15] 王赞社, 冯诗愚, 李云, 顾兆林,中空纤维膜溶液热交换器的传热传质模拟研究, 西安交通大学学报,43(3): 36-40, 2009

[16] 冯诗愚, 高秀峰, 刘卫华, 李云, 顾兆林, 内啮合摆线转子压缩机型线连续性条件研究, 西安交通大学学报,43(1): 34-37, 2009

[17]Gu Zhaolin, Su Junwei, Jiao JianYing, X.Yun Xu. Simulation of micro-behavior including  Nucleation, Growth and Aggregation in particle system,Science in China Series, B-Chemistry, 52(2): 241-248, 2009



[1] 鲁录义,顾兆林,罗昔联,雷康斌,一种风沙运动的颗粒动力学静电起电模型,物理学报, 57(11): 6939-6945, 2008

[2] 苏军伟,焦建英,顾兆林,X Yun Xu,多相体系中成核、长大、聚并微观过程的模拟,中国科学,B辑:化学,38(9): 844-850, 2008

[3] Junwei Su, Zhaolin Gu, Yun Li, Shiyu Feng, X. Yun Xu, An adaptive direct quadrature method of moment for population balance equation, AICHE Journal, 54(11): 2872-2887, 2008

[4] Z.L. Gu, J. Qiu, Y.Z. Zhao, X.P. Hou,Analysis on dust devil containing loess dusts of different sizes, Aerosol and Air Quality Research , 8(1): 65-77, 2008

[5] J. Qiu, Z. L. Gu, and Z. S. Wang, Numerical study of the response of an atmospheric surface layer to a spatially nonuniform plant canopy, Boundary-layer Meteorology, 127: 293-311 (DOI: 10.1007/s10546-008-9262-5), 2008

[6] Gu Zhaolin, Qiu Jian, Zhao Yongzhi, Li Yun, Simulation of Terrestrial Dust Devil Patterns, Advances in Atmospheric Sciences, 25(1): 31-42, 2008

[7] 鲁录义,周逢森,顾兆林,多分散系统不同粒径颗粒碰撞的多重八叉树搜索算法,西安交通大学学报,42(3): 304-308, 2008

[8] 邱剑,顾兆林,利用高阶分区并行算法实现直接数值模拟,计算力学学报,Vol.25(1): 20-24, 2008

[9] 冯诗愚,胡伟,高秀峰,李云,顾兆林,王惠余,罗聪,热泵辅助太阳能中央热水系统年运行特性研究,太阳能学报,29(3): 283-289, 2008

[10] 王赞社,顾兆林,侯雄坡,冯诗愚,一种独立式内燃机驱动的船用空调装置试验研究,制冷学报,29(3):24-28,2008

[11] 王赞社,顾兆林,赵红轩,王广飚,低温贮箱多路管道增压的一种模糊算法研究,火箭推进,34(2):7-12, 2008



[1] 冯诗愚,高秀峰,刘卫华,李云,顾兆林,郁永章,二氧化碳制冷系统内啮合转子压缩机齿间受力特性,机械工程学报,43(12):150-154, 2007

[2] 王赞社,顾兆林,冯诗愚,邱剑,低温推进剂贮箱增压过程的传热传质数学模拟,低温工程,No.6, 28-31, 2007

[3] 冯诗愚,刘卫华,高秀峰,李云,顾兆林,一种新型内啮合转子压缩机几何关系,南京航空航天大学学报,39(5):650-654, 2007

[4] 冯诗愚,高秀峰,刘卫华,李云,顾兆林,内啮合转子压缩机齿间啮合效率研究,西安交通大学学报,41(9):1040-1043, 2007

[5] 冯诗愚,刘卫华,高秀峰,李云,顾兆林,内啮合转子压缩机气体力及力矩,南京航空航天大学学报,39(4):453-456, 2007

[6] 冯诗愚,高秀峰,胡伟,李云,顾兆林,王惠余,罗聪,并联式太阳热泵热水器中热泵子系统性能研究,太阳能学报,28(2): 125-129, 2007

[7] 冯诗愚,高秀峰,胡伟,刘卫华,李云,顾兆林,间隙对内啮合摆线转子压缩机运动特性的影响,西安交通大学学报,41(7):797-801, 2007

[8] 冯诗愚,高秀峰,李云,王赞社,顾兆林,内啮合转子压缩机基本几何理论研究,流体机械,35(2):13-17, 2007

[9] 常娜,顾兆林,李云,石煤提钒离子交换工艺研究,无机盐工业,39(3):53-55, 2007

[10] 苏军伟,顾兆林,李云,冯诗愚,体积属性的群体平衡模型矩积分方法研究,化学反应工程与工艺,Vol. 23 (6): 518-524, 2007

[11] 罗昔联,顾兆林,基于DPM模型的街谷内颗粒物扩散特性研究,中国科学院研究生院学报,Vol. 24 (5): 578-583, 2007

[12] 顾兆林,苏军伟,李云,冯诗愚,两相及多相体系的离散相行为与群体平衡模型,化学反应工程与工艺,Vol. 23 (2): 162-167, 2007

[13] Junwei Su, Zhaolin Gu, Yun Li, Shiyu Feng, Y. Xu,  Solution of population balance equation using quadrature method of moments with an adjustable factor, Chemical Engineering Sciences, Vol 62: 5897-5911, 2007

[14] 邱剑,顾兆林,王赞社,一种改进后的亚格子特征尺度表达式,计算物理,Vol. 24 (6): 711-716, 2007

[15] 苏军伟,顾兆林,李云,以体积为内部坐标数量平衡模型的矩直接积分方法,西安交通大学学报,Vol. 41 (5): 621-624, 2007

[16] 顾兆林,邱剑,鲁录义,赵永志,尘卷风的研究进展,中国沙漠,Vol. 27(5):843-850, 2007

[17] Zhaolin Gu, Zhonghua Tao, Nan Xu, Yun Li, Retrofitting of a distillery based on process synthesis, Energy Conv. and Manag. 48(2):335-343, 2007



[1] 苏军伟,顾兆林,李云,各向同性颗粒系统数量平衡方程的直接矩积分求解法,化学反应工程与工艺,Vol. 22 (4): 310–316, 2006

[2] 常娜,顾兆林,李云,石煤提钒浸出工艺研究,无机盐工业,38(7):57-59, 2006

[3] 胡伟,顾兆林,高秀峰,冯诗愚,王惠余,罗聪,热泵辅助太阳能中央热水系统压缩机选择研究,中国建设动态(阳光能源),No.6: 23-26, 2006

[4] 冯诗愚,高秀峰,刘卫华,李云,顾兆林,郁永章,内啮合转子压缩机齿间接触力研究,压缩机技术,No.5: 1-5, 2006

[5] Zhaolin Gu, Yongzhi Zhao, Yun Li, Yongzhang Yu, Xiao Feng, Numerical Simulation of Dust Lifting within Dust Devils--Simulation of an Intense Vortex, Journal of Atmospheric Sciences, 63 (10): 2630–2641, 2006


[1] 金泰来,魏建锋,顾兆林,赵永庆,常辉,工业纯钛特高温下的氧化行为研究,稀有金属材料与工程, 34(12): 1998-2001, 2005

[2] 金泰来,魏建锋,顾兆林,赵永庆,常辉,TC4合金特高温下的氧化行为研究,钛工业进展,22(4): 19-22, 2005

[3] 赵小明,陆世豪,顾兆林,刘志刚,准稳态理论测量融解热及比热容的实验研究,西安交通大学学报,39(9): 958-961, 2005 (EI AN: 0542923648)

[4] 刘红娟,顾兆林,令彤彤,冷凝排热-相变蓄热热回收空调系统的实验研究,制冷学报,No.1: 1-4, 2005

[5] 陶忠华,顾兆林,李云刘宗宽,酒精生产过程用能状况的诊断和调优,化工进展,24(2): 182-185, 2005


[1] Xiao FENG, Guohui Zhong, Ping ZHU, Zhaolin GU, Cumulative exergy analysis of heat exchanger production and heat exchange processes, Energy & Fuels, 8(4): 1194-1198, 2004

[2] Zhaolin GU,Hongjuan LIU , Thermal energy recovery of air conditioning system----heat recovery system calculation and phase change materials development, Applied Thermal Engineering, 24(17): 2511-2526, 2004

[3] 蔡国光,顾兆林,王梓入,阮耕茂,邱剑,无水酒精恒沸精馏塔的动态模拟计算,酿酒科技, No.2: 58-60, 2004

[4]  高秀峰,冯诗愚,顾兆林,郁永章,圆弧类修正齿型涡旋机械气体力研究,西安交通大学学报,38(11): 1165-1168, 2004

[5]   Yongzhi Zhao, Zhaolin Gu, Yongzhang Yu, Xiao Feng, Mechanism and Large Eddy Simulation of Dust Devils, Atmosphere-Ocean, 42(1):61-84, 2004

[6]  Jian Qiu, Zhaolin Gu, Guoguang Cai, Steam compression with evaporative spray cooling, International Journal of Computer Applications in Technology,21(4): 189-193, 2004


[1]  赵永志,顾兆林,李云,郁永章,冯霄,带有中间激冷器的气化炉激冷室下降管的数值研究,化学工程,31(6): 22-25, 2003

[2]  顾兆林,赵永志,郁永章,冯霄,尘卷风的形成、结构和卷起沙尘过程的数值研究,气象学报,61(6):751-760, 2003

[3]  刘宗宽,顾兆林,贺延龄,冯  霄,燃料乙醇热泵恒沸精馏新工艺的研究,化工进展,22(11):1147-1149, 2003

[4]  刘晓莉,顾兆林,刘宗宽,周聪勇,贾亚妮,麦草浆蒸汽压缩加热黑液浓缩碱回收新工艺,节能技术,21(5):27-28,2003

[5]  Zhaolin Gu, Jian Qiu, Yun Li, Guoguang Cai, Heat pump system utilizing produced water in oil fields, Applied Thermal Engineering,23(15): 1959-1970, 2003

[6]  Zhaolin GU, Haruki Sato, Review and Conceptual Feasibility Study of Refrigeration Systems Utilizing Natural Working Fluids, Thermal Science and Engineering, 11(1): 1-11, 2003

[7]  刘红娟,傅秦生,顾兆林,NH3/CO2低温制冷系统热力学分析,华北电力大学学报,30(5):73-78, 2003

[8]  龚晓波,顾兆林,林高平,冯霄,郁永章,林宗虎,水煤浆气化炉激冷流程中气液两相负浮力流动的数值模拟,化工学报,54(7):930-935, 2003

[9]  赵永志,顾兆林,郁永章,冯霄,李云,水煤浆气化炉激冷室下降管内流动与传热数学模拟,化工学报,54(1): 115-118, 2003

[10]  赵永志,顾兆林,郁永章,李云,冯霄,自由水涡的结构及运动特征的数值研究,西安交通大学学报,37(1): 84-88, 2003


[1]  赵永志,顾兆林,郁永章,冯霄,盆池涡涡动过程数值研究,水利学报,No.12: 1-6, 2002

[2]  Jiang LB; Gu ZL; Feng X; Li Y, Thermo-economical analysis between new absorption- ejector hybrid refrigeration system and small double-effect absorption system, Applied Thermal Engineering,  22(9): 1027-11036, 2002

[3]  Zhaolin GU, Haruki Sato, Performance of supercritical cycles for geothermal binary design, International Journal of Energy Conv. and Manag. 43(7):961-971, 2002

[4]  顾兆林,刘红娟,李云,NH3/CO2低温制冷系统研究,西安交通大学学报,36(5): 536-540, 2002

[5]  顾兆林,郑东宏,李云,极高环境温度下的两级空调系统研究,西安交通大学学报,36(7): 757-760, 2002

[6]  刘卫华,高秀峰,冯诗愚,顾兆林,郁永章,双涡圈涡旋机械修正齿型的基元面积计算,西安交通大学学报,36(11):1195-11198, 2002


[1]  高秀峰,刘卫华,冯诗愚,顾兆林,郁永章,涡旋齿端等β角圆弧类型线修正理论的研究,西安交通大学学报,35(8): 750-754, 2001

[2]  顾兆林,压缩式制冷技术的新进展-制冷工质的环境效应及特点,流体机械,29(10): 53-57, 2001

[3]  顾兆林,压缩式制冷技术的新进展-系统设计与单元设备,流体机械,Vol. 29(12): 44-49, 2001

[4]  Zhaolin GU, Haruki SATO,Optimization of cyclic parameters of a supercritical cycle for geothermal power generation,International Journal of Energy Conv. and Manag. 42(12): 1409-1416, 2001

[5]  Zhaolin GU, Haruki SATO, Xiao FENG,Using supercritical recovery and heating processes in Stirling engine for high thermal efficiency,Applied Thermal Engineering,21(16): 1621-1630, 2001


[1]  李云,顾兆林,郁永章,冯霄,气化炉激冷室工作过程数学模拟,高校化学工程学报, 14(2): 134-137, 2000

[2]  李云,顾兆林,冯霄,郁永章,利用双流体模型研究不同煤种对煤气化激冷过程的影响,西安交通大学学报,34(8): 83-87, 2000

[3]  李云,顾兆林,郁永章,冯霄, 气化炉下降管传热传质过程的模拟,西安交通大学学报,34(4): 82-85, 2000

[4]  蒋立本,顾兆林,冯霄,李云吸收-喷射与吸收式制冷系统的热热经济学比较,西安交通大学学报,34(6):76-79, 2000

[5]  顾兆林,王艳晖,蒋立本,李云,郁永章,再制造、再制造产品设计及支持系统,现代机械,No.2: 20-23, 2000

[6]  高秀峰,冯诗愚,顾兆林,郁永章,对称圆弧修正齿型涡旋压缩机排气孔开设分析,西安交通大学学报,34(6):89-92, 2000

[7]  顾兆林,高秀峰,李云,郁永章,蒋德明,新型汽油机用废气涡旋增压器的研究,小型内燃机,29(3): 1-7, 2000

[8]  李云,顾兆林,冯霄,郁永章等,TEXACO气化炉激冷室下降管传热传质过程研究,化学工程,28(4): 22-24, 2000

[9]  蒋立本,顾兆林,吸收--喷射复合制冷循环与双效吸收式制冷循环的比较研究,流体机械,28(6): 45-48, 2000


[1]  Jianqiang DENG, Zhaolin Gu, Yongzhang YU, Impacts of the split conjugated pistons in conjugated cylinders of a multiple stage reciprocating compressor in start duration,ASME Advanced Energy Systems Division,AES 39:113-118, Nov. 14-19, 1999

[2]  高秀峰,冯诗愚,顾兆林,郁永章,涡旋齿端不等β角圆弧类型线修正研究,西安交通大学学报,33(12): 56-60,1999

[3]  马国远,顾兆林,郁永章,双工作腔滑片压缩机气缸型线的研究及几何特性分析,西安交通大学学报,33(10): 82-87,1999

[4]  蒋立本,顾兆林,李云,冯霄,吸收--喷射复合制冷循环与双效吸收式制冷循环技术经济性能的比较,流体机械,27(8), 1999(增刊)

[5]  王彦峰,顾兆林,冯诗愚,李云,冯霄,吸收--喷射复合制冷循环热力学优化研究,西安交通大学学报,33(8):69-73, 1999

[6]  邓建强,顾兆林,郁永章,往复压缩机级差活塞新结构—浮动活塞动力学(一):数学模型,流体机械,27(8): 12-16, 1999

[7]  邓建强,顾兆林,郁永章,往复压缩机级差活塞新结构—浮动活塞动力学(二):计算分析,流体机械,27(9): 18-21, 1999

[8]  龚晓波,顾兆林,蒋立本,吕根,郁永章,体外心肺旁路的一次性血泵设计与试验,,流体机械,27(6): 7-11,1999

[9]  龚晓波,顾兆林,冯霄,郁永章,压缩—喷射复合式热泵热经济性研究,化学工程, 27(6): 51-54, 1999

[10]  顾兆林,蒋立本,李云,吸收--喷射复合制冷技术研究进展,低温工程,No.2:1-4, 1999

[11]  王彦峰,顾兆林,冯霄,郁永章,热管换热器在制备裂化催化剂工艺流程中的应用,节能,No.5: 26-29, 1999


[1]  顾兆林,郁永章,蒋德明,涡旋式内燃机工作过程的分析,内燃机工程,19(1):22-27,1998

[2]  顾兆林,郁永章,蒋德明,双涡圈及多涡圈涡旋压缩机容积特性的研究,西安交通大学学报,32(12) :90-93,1998

[3]  冯诗愚,顾兆林,李云,涡旋机械的涡旋体始端型线研究,西安交通大学学报,32(1): 88-92,1998

[4]  顾兆林,闵东红,冯诗愚,李云,CH3OH-ZnCl2-LiBr吸收--喷射复合制冷系统的变工况分析,太阳能学报,19(3): 254-259, 1998

[5]  林高平,顾兆林,跨临界制冷循环性能研究,西安交通大学学报,32(8): 35-38,1998

[6]  林高平,顾兆林,郁永章,气体临界状态附近压缩机级吸气系数的计算与分析,西安交通大学学报,32(1): 68-71,1998

[7]  李云,顾兆林,郁永章,不同阀片质量的气阀性能研究,流体机械,26(2): 20-22,1998

[8]  顾兆林,冯诗愚,郁永章,LiBr—H2O吸收--喷射复合制冷循环流程的研究,西安交通大学学报,32(1):61-64, 1998

[9]  顾兆林,邓建强,郁永章,往复压缩机高压级采用自由活塞结构的启动过程研究,压缩机技术,No.6: 8-11,1998

[10]  林高平,李云,顾兆林,郁永章,大化肥装置往复式二氧化碳升压机的扩能改造分析与计算,压缩机技术,No.4: 3-6,1998


[1]  林高平,顾兆林,郁永章,化肥装置CO2往复压缩机级吸气系数的计算与分析,化工机械,24(4):208-211, 1997

[2]  李云,顾兆林,郁永章,压缩机环状阀设计的几个问题,流体机械,25(6): 28-30,1997

[3]  李云,钱泽球,顾兆林,郁永章,压缩机环状阀的比弹簧力及弹簧与阀片的撞击问题研究,压缩机技术,No.6: 3-5,1997


[1]  顾兆林,郁永章,涡旋压缩机基本参数选择及结构参数λ=H/Pt,压缩机技术,No.3: 9-12,1996

[2]  顾兆林,涡旋压缩机设计研究,低温工程,No.1: 6-11,1996

[3]  顾兆林,李云,再论涡旋机械防自转机构,压缩机技术,No.1: 17-20,1996

[4]  顾兆林,钱承耀,李兴武,冯诗愚,太阳能吸收-喷射复合制冷系统研究,太阳能学报,17(1): 75-80,1996

[5]  顾兆林,郁永章,新型涡旋机械原理及其在内燃机中的应用(2),小型内燃机,25(1): 1-5,1996

[6]  顾兆林,郁永章,涡旋压缩机设计计算研究,流体机械,24(2): 48-52,1996

[7]  顾兆林,郁永章,刘传李,蒋德明,废气涡旋式增压器的理论研究,内燃机工程,17(1): 23-28,1996

[8]  冯诗愚,顾兆林,低焓能吸收式制冷系统的分析与改进,新能源,18(10),1996


[1]  顾兆林,郁永章,蒋德明,一种新型燃气机-涡旋发动机的理论研究,内燃机学报,13(4): 361-367,1995

[2]  顾兆林,郁永章,蒋德明,一种新型内燃机-涡旋发动机的理论研究,西安交通大学学报,29(11): 89-95,1995

[3]  顾兆林,郁永章,蒸喷热泵在制取DDGS工艺中应用研究,节能技术,No.3: 13-15, 1995

[4]  顾兆林,郁永章,制取DDGS工艺中的热泵方案比较分析,节能技术,No.6: 43-46, 1995

[5]  顾兆林,郁永章,新型涡旋机械原理及其在内燃机中的应用(1),小型内燃机,24(6): 51-56,1995

[6]  顾兆林,郁永章,新型车用废气涡旋式增压器的设计研究,内燃机工程,16(5): 34-37,1995

[7]  顾兆林,李云,叶士禄,郁永章,无阀的电磁振动压缩机工作过程研究,压缩机技术,No.5: 10-12,1994

[8]  顾兆林,郁永章,蒸喷热泵在多效蒸发工艺中的应用研究,流体机械,22(12): 53-54,1994

[9]  顾兆林,叶士禄,郁永章,特种微型高压压缩机设计研究,低温工程,No.3: 10-12,1992

[10]  顾兆林,涡旋压缩机工作过程的分析与模拟,低温工程,No.3: 23-27,1992

[11]  顾兆林,郁永章,多级涡旋压缩机设计计算初探,压缩机技术,No.5: 1-5,1991 



1) Zhaolin Gu, Wei Wei, Electrification of Particuates in Industrial and Natural Multiphase Flows, Springer,  2017, ISBN 978-981-10-3025-3, 

    ISBN 978-981-10-3026-0 (eBook) ,  (https://link.springer.com/book/10.1007%2F978-981-10-3026-0;)

2) Zhaolin Gu (参著3 Chapters), Eds: D. Rennis, R. Lorenz, M. Balme, L. Neakrase, A. P. Rossi, A. Spiga, J. Zarnecki, Dust Devils, Springer, 2017,

    ISBN 978-94-024-1133-1.

3)  顾兆林,张云伟著,城市与建筑风环境的大涡模拟方法及其应用,科学出版社,2014年6月(2012年度国家科学技术学术著作出版基金资助)
4)  任超,吴恩融编著,城市环境气候图-可持续城市规划辅助信息系统工具,中国建筑工业出版社,2012年9月,顾兆林参著第9章
5)  顾兆林著,风扬粉尘-近地层湍流与气固两相流”,科学出版社,2010年7月(2008年度国家科学技术学术著作出版基金资助)
6)  陈杰瑢主编,《环境工程技术手册》,编撰1章(第四篇物理性污染控制,第1章噪声控制),北京:科学出版社,2008年5月
7)   Zhaolin Gu, Shiyu Feng (Eds), Proceedings of 4th International Conference on Compressor and Refrigeration, Xi’an: Xi’anJiaotongUniversity Press, October, 2003
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