2008/10-2011/09，日本爱媛大学，获日本政府文部科学省奖学金国费留学，农业联合研究科，博士； 　　2005/09-2008/07，内蒙古农业大学，水利与土木建筑工程学院，工学硕士； 　　2001/09-2005/07，内蒙古农业大学，水利与土木建筑工程学院，工学学士。

　2013/07-今，江苏大学，流体机械工程技术研究中心，副研究员 　　2017/03-2018/03，Delft University of Technology, Department of water management, 访问学者 　　2011/10-2013/06，日本爱媛大学，作物科学研究室，特别研究员

　　主持和参加的科研项目： 　　1、日本政府基础科研基金项、18255008、“熱帯泥炭湿地林でのCDM植林を含む総合的環境修復を可能にするための基礎研究” (Basic study for overall environmental rehabilitation including CDM plantation in tropical pest swamp forest) . 　　2、日本政府基础科研基金项目，対流圏オゾン濃度の上昇が植生の蒸発散と群落微気象に及ぼす影響 (Effects of the elevated tropospheric O3 content on evapotranspiration and micrometeorology within and above the vegetation canopy). 　　3、内蒙古自治区自然科学基金重点项目，编号200508010303，盐渍化土壤水－热－盐迁移与节水灌溉理论研究. 　　4、中日国际合作项目，黄河流域水资源合理利用管理与优化调度(The CREST- Yellow River Project of JST). 　　5、江苏省农机三新项目，编号：NJ2014-10，江苏省茶叶精确灌溉模式及智能化喷灌系统的研究. 　　6、江苏省自然科学基金项目，编号：BK20140546，温室茄子腾发对环境的响应机理及双源预测模型的研究。 　　7、国家自然科学基金，编号：51509107，温室黄瓜耗水对环境的响应机理及预测模型的研究。

　期刊论文： 　　[1] Yan H. and Oue H*. (2011) Application of the two-layer model for predicting transpiration from the rice canopy and water surface evaporation beneath the canopy. Agricultural Meteorology, 67(3). 89-97. 　　[2] Yan H., Zhang C*., Oue H., Sugimoto H. (2012) Comparison of Different Methods for Estimating Soil Surface Evaporation in a Bare Field. Meteorology and Atmospheric Physics, Volume 118, Issue 3–4, pp 143–149. 　　[3] Yan H., Oue H*., Zhang C. (2011) Predicting water surface evaporation in the paddy field by solving energy balance equation beneath the rice canopy. Paddy and Water Environment, 10(2): 121-127. 　　[4] Yan H. and Oue H*. (2009) Modeling soil evaporation beneath the buckwheat canopy with surface moisture availability. Agricultural Meteorology, 22:12-16. 　　[5] Zhang C., Yan H*., Shi H., Sugimoto H. (2013) Study of crop coefficient and the ratio of soil evaporation to evapotranspiration in an irrigated maize field in an arid area of Yellow River Basin in China. Meteorology and Atmospheric Physics, 121, 207–214. DOI 10.1007/s00703–013–0264–6. 　　[6] 闫浩芳, 史海滨*, 薛铸, 张义强, 刘宏云. 内蒙古河套灌区ET0不同计算方法的对比研究, 农业工程学报, (2008) 24(2): 103-106. 　　[7] Yan H, Shi H, Oue H, Zhang C, Xue Z, Cai B, Wang G.(2015b) Modeling bulk canopy resistance from climatic variables for predicting hourly evapotranspiration of maize and buckwheat. Meteorology and Atmospheric Physics 127(3):305–312. 　　[8] Yan H, Zhang C, Oue H et al. (2015a) Study of evapotranspiration and evaporation beneath the canopy in a buckwheat field. Theoretical and applied climatology. 122:721–728. 　　[9] Yan H., Zhang C., Oue H., Peng G., Darko R. (2017) Determination of crop and soil evaporation coefficients based on pan evaporation for estimating evapotranspiration in a paddy field. IJABE, 10(4):130-139. 　　[10] Yan H.,Zhang C., Peng G., Darko R., Cai B. (2017) Modeling canopy resistance for estimating latent heat flux at a tea field in south China. Experimental Agriculture, 2017:1-14. 　　[11] Yan H., Zhang C. Oue H. Parameterization of canopy resistance for modeling the energy partitioning of a paddy rice field. Paddy and water environment, 2017, in press. 　　[12] Darko R, Yuan S, Yan H., Liu J., Abbey A. (2016) Calibration and validation of AquaCrop for deficit and full irrigation of tomato. Int J Agric&Biol Eng., 9(3): 104-110. 　　[13] Zhang C., Yan H*., Takase K, Oue H. (2016) Comparison of the Soil Physical Properties and Hydrological Processes in Two Different Forest Type Catchments. Water Resources. 43(1): 225-237. 　　[14] Zhang C., Takase K*., Oue H., Ebisu N., Yan H.(2013) Effects of Land Use Change on Hydrological Cycle from Forest to Upland Field in a Catchment, Japan. Frontiers of Structural and Civil Engineering, 7(4):456-465. 　　[15] 薛铸, 史海滨*, 郭云, 张义强,闫浩芳,李亮. 盐渍化土壤水肥耦合对向日葵苗期生长影响的试验, 农业工程学报, (2007), 23(3): 91-94. 　　[16] 张川，闫浩芳*，大上博基，等，(2015). 表层有效土壤水分参数化及冠层下土面蒸发模拟，农业工程学报，31（2）：102-107. 　　[17] Abubaker, B., Li. H, Elshaikh N.A., Basheer, A.K., Yan. H. (2016). Impact of center pivot sprinkler speed and water regimes on potato crop productivity. Int. J. Agric. Biol. 18: 1174‒1180. 　　[18] Abubaker, B., Li. H, Elshaikh N.A., Yan. H. (2016). Assessing impacts of water harvesting techniques on the water footprint of sorghum in Western Sudan. Outlook on Agriculture,45(3), 185-191. 　　[19] Abubaker, B., Ali, Li H, Yan H., Elshaikh N.A. (2016). "Obsolete pesticide contamination: a new type of water and soil pollution". Current science, 111; (6): 966-966. 　　[20] Abubaker, B., Ali, Li H,Elshaikh N.A.,Yan H. (2016). "Conservation tillage as an approach to enhance crops water use efficiency."Acta Agriculturae Scandinavica, Section B-Soil & Plant Science(2016): 1-11. 　　[21] Abubaker, B., Li. H, Elshaikh N.A., Yan. H. (2017). The role of supplemental irrigation to crop water use under rainwater harvesting. Biosci. J., 33, (4): p. 944-955. 　　[22] Darko R, Yuan S, Yan H., Liu J. Zhu X. (2017). Overview of advances in improving uniformity and water use efficiency of sprinkler irrigation. Int J Agric&Biol Eng, 10(2):1-15. 　　[23] Darko R, Yuan S, Li H., Liu J., Yan H. (2015). Irrigation, a productive tool for food security-a review. "Acta Agriculturae Scandinavica, Section B-Soil & Plant Science: 1-15. 　　[24] 赵宝山, 闫浩芳*, 张川等. (2017) Venlo型温室内参考作物蒸散量计算方法评价比较研究.灌溉排水学报，36:87-91. 　　部分会议论文： 　　[1] 闫浩芳, 史海滨*, 薛铸, 张义强, 刘宏云. 内蒙古河套灌区不同作物蒸腾量及作物系数的研究,农业水土工程专业委员会第五次学术会议, (2008). 　　[2] Yan H., Shi H*. and Oue H. Soil evaporation in the maize field in the Hetao Irrigation District, 平成20年度日本農業気象学会中国四国支部大会, 福山, 12月, 講演要旨集, 80-82 (2008). 　　[3] Yan H. and Oue H*. Modeling soil evaporation in a maize field in the arid region, Inner Mongolia, 農業環境工学関連学会2009年合同大会, 東京, 9月, 講演要旨集(CD-ROM), (2009). 　　[4] Yan H. and Oue, H*. Modeling soil evaporation beneath the buckwheat canopy with LAI and soil water content. 第64回農業農村工学会2009年中国四国支部講演会,　徳島, 10月, 講演要旨集, 4-6. (2009). 　　[5] Yan H. and Oue, H*. Modeling water surface evaporation beneath the rice canopy with bulk transfer coefficient and the net radiation sub-model., 農業気象学会中国四国支部, 高知, 12月,　講演要旨集, 74-76. (2009). 　　[6] Yan H. and Oue H*. Modeling transpiration and water surface evaporation beneath the canopy in the paddy field with the aerodynamic and canopy resistance. International Symposium on Agriculture Meteorology (ISAM2010), Nagoya, March, P.81. (2010) 　　[7] Zhang C., Takase K*., Yan H. and Inoue K. Comparision of the Hydrological Model Parameters in Tow Forest Catchments. 水文水資源学会,京都，8月, P13 (2011). 　　[8] Zhang C., Yan H., Takase K*. and Ebisu N. Determination of Parameters of a Lumped Conceptual Hydrologic Model. 水文水資源学会, 广島，9月, P57 (2012). 　　[9] 越智由紀恵, 闫浩芳*, 杉本秀樹, 荒木卓哉, 上野秀人. 乾燥クラゲと米ぬかの用が水稲の期生育と根の機能に及ぼす影響(The effect of using mixed dry jellyfish and rice bran on the rice early growth and root activity). 日本作物学会四国支部, 香川, (2012). 　　[10] Yan H., Zhang C.*, Oue H., Wang G., He B. Study of evapotranspiration and evaporation beneath the canopy in a buckwheat field in Japan. ASABE, Canada, July. (2014) 　　[11] Yan H., Oue H. et al., Parameterization of canopy resistance for modeling evapotranspiration of a paddy rice field. ASABE, Orlando, 2016.7