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摘要 覃英宏2005本科毕业于中国地质大学(武汉)，2008年毕业于中国科学院寒区旱区环境与工程研究所获得硕士学位，2011年毕业于密歇根理工大学获得博士学位，2014-2016年在劳伦斯伯克利国家实验进行博士后研究工作。 覃英宏现任广西大学土木工程学院岩土工程教研室教授，博士生导师，广西大学土木工程学院院长助理(2018-2019)，工程防灾与结构安全教育部重点实验室副主任，入选广西自治区高校引进海外高层次人才“****”引进人才，入选湖北省楚天****计划, 入选广西高等学校高水平创新团队及卓越****，入选斯坦福大学发布了全球前2%顶尖科学家“终身科学影响力排行榜”与“2019年度科学影响力排行榜”。 近年来，覃英宏教授主持国家自然科学基金2项，其他省部级基金3项发表学术论文70余篇，以第一作者或通讯作者在包括Renew Sust Energ Rev (IF=12.11)等顶级杂志发表SCI论文61篇，SCI他引2000余次。其中第一作者50篇，单篇最高他引242次，单篇他引超100次5篇，入选ESI高被引论文9篇，入选ESI热点论文6篇；获得PCT国际发明专利1项；合作出版英文报告1 部.工作 2012.12—至今 广西大学土木建筑工程学院，2015年入选广西高校海外**** 2014.01-2015.01 劳伦斯伯克利国家实验室，环境能源技术分部，热岛小组， 导师： Dr. Ronnen Levinson 2011.07-2012.11 中国地质大学(武汉)工程学院，副教授，入选湖北省楚天学计划教育 2008.09-2011.06 密歇根理工大学博士，导师: Dr.Jacob E. Hiller. 2005.09-2008.07 中科院寒旱所冻土工程国家重点实验室硕士研究生 2001.09-2005.06 中国地质大学(武汉)本科生，专业：勘查技术与工程代表著 1. Qin, Y., He, H., Ou, X., Bao, T., 2019. Experimental study on darkening water-rich mud tailings for accelerating desiccation. Journal of Cleaner Production 240, 118235. （热点论文） 2. Qin, Y., Hiller, J.E., Meng, D., 2019. Linearity between Pavement Thermophysical Properties and Surface Temperatures. Journal of Materials in Civil Engineering 31(11), **. (热点论文) 3. Qin, Y., Zhao, Y., Chen, X., Wang, L., Li, F., Bao, T., 2019. Moist curing increases the solar reflectance of concrete. Construction and Building Materials215, 114-118. (高被引论文) 4. Qin, Y., He, Y., Hiller, J.E., Mei, G., 2018. A new water-retaining paver block for reducing runoff and cooling pavement. Journal of Cleaner Production 199, 948-956. (高被引论文) 5. Qin, Y.,Luo, J., Chen, Z., Mei, G., Yan, L.-E., 2018. Measuring the albedo of limited-extent targets without the aid of known-albedo masks. Solar Energy 171, 971-976. (高被引论文+热点论文) 6. Qin, Y., 2015. A review on the development of cool pavements to mitigate urban heat island effect. Renewable and Sustainable Energy Reviews 52, 445-459. (高被引论文)项目 1. 2013-2015 “再生混凝土透水砖淋滤实验研究” (主持；广西大学启动项目) 2. 2011-2012 湖北省楚天****计划楚天学子启动项目 3. 2011-2012 “冻土地区路面的纵向裂缝形成机理”: (主持, 中国地质大学青年教师项目) 4. 2014-2016 “寒区混凝土通风管耐久性研究”, (主持, 教育部留学回国启动基金) 5. 2014-2018 “再生混凝土在多轴应力下的强度与本构关系研究” (国家自然科学基金) 6. 2016-2018 \"透水混凝土蒸发阻力特征及其影响城市热岛的机制\", (国家自然科学基金) 7. 2016-2019 \"寒区路基反射率及其对调控阴阳坡的应用研究\", (国家自然科学基金) 8. 2016-2019广西海外高校****科研启动基金 9. 广西自然基金项目，“反射路面与城市峡谷太阳辐射反射率、吸收率” 10. 2019-2022 “广西高等学校高水平创新团队及卓越****“项目学术兼职 1. Advances in Geoscience 编委 2. Civil Engineering Journal 编委重要科技奖项情况 1. 广西科技进步二等奖。获奖时间2017.09 2. 广西科技进步二等奖。获奖时间2017.09 3. 密歇根理工大学优秀毕业生奖；获奖时间2011.07人才计划与荣誉 1. 入选湖北省楚天****计划（2011） 2. 入选广西自治区高校引进海外高层次人才“****”引进人才 （2015） 3. 入选广西高等学校高水平创新团队及卓越****(2019) 4. 入选广西高层次人才计划 5. 入选斯坦福大学发布了全球前2%顶尖科学家“终身科学影响力排行榜”（广西区排位(5/9)） 6. 入选斯坦福大学发布了全球前2%顶尖科学家2019年度科学影响力排行榜”（广西区排位(1/56)）
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1. Advances in Geoscience 编委 2. Civil Engineering Journal 编委
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1. 岩土工程勘察 2. 土力学 3. 工程地质学 4. 基础工程 5. 科技英语写作
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道路工程、岩土工程、城市热岛、可再生能源
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1. 2013-2015 “再生混凝土透水砖淋滤实验研究” (主持；广西大学启动项目) 2. 2011-2012 湖北省楚天****计划楚天学子启动项目 3. 2011-2012 “冻土地区路面的纵向裂缝形成机理”: (主持, 中国地质大学青年教师项目) 4. 2014-2016 “寒区混凝土通风管耐久性研究”, (主持, 教育部留学回国启动基金) 5. 2014-2018 “再生混凝土在多轴应力下的强度与本构关系研究” (国家自然科学基金) 6. 2016-2018 \"透水混凝土蒸发阻力特征及其影响城市热岛的机制\", (国家自然科学基金) 7. 2016-2019 \"寒区路基反射率及其对调控阴阳坡的应用研究\", (国家自然科学基金) 8. 2016-2019广西海外高校****科研启动基金 9. 广西自然基金项目，“反射路面与城市峡谷太阳辐射反射率、吸收率” 10. 2019-2022 “广西高等学校高水平创新团队及卓越****“项目
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其它SCI第一作者论文 7. Qin, Y., Zhang, M., Mei, G., 2018. A new simplified method for measuring the permeability characteristics of highly porous media. Journal of Hydrology 562, 725-732. 8. Qin, Y., He, Y., Wu, B., Ma, S., Zhang, X., 2017. Regulating top albedo and bottom emissivity of concrete roof tiles for reducing building heat gains. Energy and Buildings 156(Supp C), 218-224. 9. Qin, Y., He, H., 2017. A new simplified method for measuring the albedo of limited extent targets. Solar Energy 157(Supplement C), 1047-1055. 10. Qin, Y., Zhang, M., Hiller, J.E., 2017. Theoretical and experimental studies on the daily accumulative heat gain from cool roofs. Energy 129, 138-147. 11. Qin, Y., Huang, H., Ying, J., Yang, T., 2017. Simulation of short-wave solar radiative transfer across a roadway embankment. International Journal of Heat and Mass Transfer 108, Part A, 332-340. 12. Qin, Y., Long, X., Ma, X., Huang, H., 2017. Theoretical models for the solar absorptivity of a roadway embankment. Cold Regions Science and Technology 137, 30-35. 13. Qin, Y., Liang, J., Tan, K., Li, F., 2017. The amplitude and maximum of daily pavement surface temperature increase linearly with solar absorption. Road Materials and Pavement Design 18(2), 440-452. 14. Qin, Y., Tan, K., Meng, D., Li, F., 2016. Theory and procedure for measuring the solar reflectance of urbanprototypes. Energy and Buildings 126, 44-50. 15. Qin, Y., Tan, K., Yang, H., Li, F., 2016. The albedo of crushed-rock layers and its implication to cool roadbeds in permafrost regions. Cold Regions Science and Technology 128, 32-37. 16. Qin, Y., Liang, J., Tan, K., Li, F., 2016. A side by side comparison of the cooling effect of building blocks with retro-reflective and diffuse-reflective walls. Solar Energy 133, 172-179. 17. Qin, Y., Tan, K., Liang, J., 2016. Theory and procedure for measuring the albedo of a roadway embankment. Cold Regions Science and Technology 126, 30-35. 18. Qin, Y., 2016. Pavement surface maximum temperature increases linearly with solar absorption and reciprocal thermal inertial. International Journal of Heat and Mass Transfer 97, 391-399. 19. Qin, Y., Hiller, J.E., 2016. Water availability near the surface dominates the evaporation of pervious concrete. Construction and Building Materials 111, 77-84. 20. Qin, Y., Tan, K., Liang, J., Li, Y., Li, F., 2016. Experimental study on the solar reflectance of crushed rock layer with different sizes. Environmental Earth Science 75(9), 817-822. 21. Qin, Y., Liang, J., Luo, Z., Tan, K., Zhu, Z., 2016. Increasing the southern side-slope albedo remedies thermal asymmetry of cold-region roadway embankments. Cold Regions Science and Technology 123, 115-120. 22. Qin, Y., Liang, J., Huang, Z., Tan, K., 2016. Painting the roadway embankment with non-white high reflective pigments to raise the albedo. Environmental Earth Science 75(4), 1-7. 23. Qin, Y., Liang, J., Yang, H., Deng, Z., 2016. Gas permeability of pervious concrete and its implications on the application of pervious pavements. Measurement 78, 104-110. 24. Qin, Y., Tan, K., Liang, J., 2015. Shading boards with smaller lower-surface thermal emissivity perform better cooling effect. Cold Regions Science and Technology 120, 30-34. 25. Qin, Y., Yang, H., 2015. Carbonation dominates the acid intake of recycled concrete aggregate subjected to intermittent leaching. Construction and Building Materials 89, 110-114. 26. Qin, Y., 2015. Urban canyon albedo and its implication on the use of reflective cool pavements. Energy and Buildings 96(0), 86-94. 27. Qin, Y., Yang, H., Deng, Z., 2015. Water Permeability of Pervious Concrete Is Dependent on the Applied Pressure and Testing Methods.Advances in Materials Science and Engineering 2015, 1-6. 28. Qin, Y., Hiller, J.E., 2014. Understanding pavement-surface energy balance and its implications on cool pavement development. Energy and Buildings 85(0), 389-399. 29. Qin, Y., Yang, H., Deng, Z., Zhang, J., 2014. A simplified model for computing pollutants release from granular pavement base to local aquifer. Environmental Earth Science 72(5), 1533-1540. 30. Qin, Y., Bao, T., 2014. Modeling geothermal regime in the Qinghai-Tibet Plateau: an examination of the upper-boundary condition. Arabian Journal of Geosciences 7(3), 855-864. 31. Qin, Y., Hiller, J., 2014. Simulating moisture distribution within concrete pavement slabs: model development and sensitivity study. Materials and Structure 47(1-2), 351-365. 32. Qin, Y., Zhang, J., 2013. A review on the cooling effect of duct-ventilated embankments in China. Cold Regions Science and Technology 95(0), 1-10. 33. Qin, Y., Hiller, J., 2013. Ways of formulating wind speed in heat convection significantly influencing pavement temperature prediction. Heat and Mass Transfer 49(5), 745-752. 34. Qin, Y., Hiller, J., Jiang, G., Bao, T., 2013. Sensitivity of thermal parameters affecting cold-region ground-temperature predictions. Environmental Earth Science 68(6), 1757-1772. 35. Qin, Y., Hiller, J., Bao, T., 2013. Modeling Cold Region Ground Temperatures with a Heat Flux Upper Boundary Model. Journal of Cold Regions Engineering 27(1), 29-43. 36. Qin, Y., Li, G., 2011. Permafrost warming under the earthen roadbed of the Qinghai–Tibet Railway. Environmental Earth Science 64(7), 1975-1983. 37. Qin, Y., Hiller, J.E., 2011. Modeling the temperature and stress distributions in rigid pavements: impact of solar radiation absorption and heat history development. KSCE Journal of Civil Engineering 15(8), 1361-71. 38. Qin, Y., Hiller, J.E., 2011. Modeling temperature distribution in rigid pavement slabs: Impact of air temperature. Construction and Building Materials 25(9), 3753-3761. 39. Qin, Y., Hiller, J.E., 2011. Impacts of diurnal temperature cycles on the geothermal regime on Qinghai-Tibet Plateau. Cold Regions Science and Technology 65(3), 429-436. 40. Qin, Y., Tang, P., 2011. Effects of diurnal temperature rhythm on the geothermal regime under the embankment in Qinghai–Tibet plateau. Arabian Journal of Geosciences 4(1), 259-267. 41. Qin, Y., Zhang, J., 2010. Estimating the stability of unprotected embankment in warm and ice-rich permafrost region. Cold Regions Science and Technology 61(1), 65-71. 42. Qin, Y., Zhang, J., Li, G., Qu, G., 2010. Settlement characteristics of unprotected embankment along the Qinghai-Tibet Railway. Cold Regions Science and Technology 60(1), 84-91. 43. Qin, Y., Zhang, J., Zheng, B., Ma, X., 2009. Experimental study for the compressible behavior of warm and ice-rich frozen soil under the embankment of Qinghai-Tibet Railroad. Cold Regions Science and Technology 57(2-3), 148-153. 44. Qin, Y., Li, Y. and Bao, T., 2020. An experimental study of reflective shading devices for cooling roadbeds in permafrost regions. Solar Energy, 205: 135-141. 45. Qin, Y., 2020. Urban Flooding Mitigation Techniques: A Systematic Review and Future Studies. Water, 12(12): 3579. 46. Qin, Y., Pang, X., Tan, K. and Bao, T., 2021. Evaluation of pervious concrete performance with pulverized biochar as cement replacement. Cement and Concrete Composites, 119: 104022. 47. Qin, Y., and Zheng, B., 2010. The Qinghai–Tibet Railway: A landmark project and its subsequent environmental challenges. Environment, Development and Sustainability, 12(5): 859-873. 48. Qin, Y., Liang, J. Tan, K., Li, F., 2019. Experimental Study the Albedo of Urban Canyon Prototype with Re-flective Pavements (Atreets). Advances in Geoscience, 3 (1), 1-9. 49. Qin, Y., Huang, Z., Yu, Z., Liu, Z., Wang L., (2019). \"A Novel Buffer Tank to Attenuate the Peak Flow of Runoff.\" Civil Engineering Journal, 5(12): 2525-2534. 50. Qin, Y., 2011. Numerical Study on the Curling and Warping of Hardened Rigid Pavement Slabs. PhD, Michigan Technological University.
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1. JE Hiller, Y Deshpande, Y Qin, CJ Shorkey。 Efficient use of recycled concrete in transportation infrastructure. Publisher: Department of Michigan Transportation. 2011.04 2. Y Qin. Numerical study on the curling and warping of hardened rigid pavement slabs. Michigan Technological University. 2011.08
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1. 覃英宏；谭康豪。.一种利用热流平衡模型生产路基遮阳板的方法, 广西大学， 2015 2. 覃英宏；蒙德淼；谭康豪。测量材料表面反射率的方法和装置, 广西大学， 2017 3. 覃英宏；谭康豪。有限区域内测量粗糙表面反射率的方法及装置， 2017 4. 覃英宏；贺玉辉；龙相如。一种先截水后透水的铺面砖及其制备方法, 广西大学， 2017 5. 覃英宏；梅国雄；梁志伟；陈忠儒。一种先集水后慢漏排水系统, 广西大学， 2017 6. 覃英宏；龙相如；陈夏渊；贺玉辉。一种地下先储水后慢渗排水系统, 广西大学， 2017 7. 覃英宏；谭康豪。Method and apparatus for measuring reflectivity of rough surface in limited region, 2017-8-14, 欧洲, LU101289. 8. 覃英宏。温控离合风力驱动装置及单向导冷桩，广西大学，2020
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荣誉： 1. 入选湖北省楚天****计划（2011） 2. 入选广西自治区高校引进海外高层次人才“****”引进人才 （2015） 3. 入选广西高等学校高水平创新团队及卓越****(2019) 4. 入选广西高层次人才计划 5. 入选斯坦福大学发布了全球前2%顶尖科学家“终身科学影响力排行榜”（广西区排位(5/9)） 6. 入选斯坦福大学发布了全球前2%顶尖科学家2019年度科学影响力排行榜”（广西区排位(1/56)）获奖： 1. 2019 广西科技进步二等奖(04) 2. 2017 广西科技进步二等奖(06) 3. 2011密歇根理工大学优秀博士生奖
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现指导博士生5人，硕士生10人。2021招生：1. 学硕5人2. 专硕3人3. 博士2人"}},