黃冠華,1966年6月出生,是中國農業大學水利工程系的教授和博士生導師。他是教育部長江學者特聘教授,也是國家杰出青年基金的獲得者。
人物簡介
1986、1989、1995年分別獲武漢大學動力與機械學院(現武漢大學) 農田水利工程專業學士、碩士和博士學位;1995-1997年在中國農業大學從事博士后研究工作;1997年9月至今為中國農業大學水利與土木工程學院副教授、教授,兼任中國-以色列國際農業研究培訓中心主任、國際學院院長。并先后在哥廷根大學、英國哈珀亞當斯大學學院、以色列農業研究組織從事合作研究與學術訪問。
研究領域
2、農田水、鹽、熱、氮/碳耦合過程模擬
3、農業水文與伴生過程對變化環境響應
4、農業節水的生態環境效應
5、區域水轉化多過程與尺度效應
學術任職
先后擔任國際農業工程委員會(CIGR)水土分會常務理事、秘書長、主席,中國農業工程學會農業水土工程專業委員會、中國自然資源學會水資源專業委員會委員。同時擔任《Paddy and Water Environment》(Springer) 編輯、《International Journal of Agricultural and Biological Engineering》編委、《工程勘察》編委。
主要成就
科研項目
先后主持和參加國家重大科技支撐計劃項目課題、國家“973”計劃課題、國家“863”計劃課題、國家杰出青年科學基金、國家自然科學基金重點、面上及中以、中葡國際合作項目等20多項。近年來主持的主要研究項目有:
1、國家自然科學重點基金項目“黑河市流域農業節水的生態水文效應及多尺度用水效率評估”(91125017),2011~2014;
2、國家自然科學杰出青年基金項目“土壤水、地下水與溶質運移理論”(51125036), 2012~2015;
3、國家“十二五”科技支撐計劃項目《農業綜合節水關鍵技術研究與示范》課題“農業綜合節水效益評價與環境響應評估方法”(2011BAD25B05),2011- 2013;
4、水利部公益性行業項目“集約化種植區水體農業面源污染風險及調控” (20090108),2009- 2012;
5、中以科技戰略合作研究基金“西北和以色列典型經濟作物節水和提高水分生產率的調虧灌溉技術研究“(CIJRP-2009006), 2010-2012;
6、國家自然科學基金項目“集約種植區灌水與施肥驅動的地下水硝酸鹽污染效應與調控研究“ (50979106), 2010~2012
發表論文
近年來,先后在《Journal of Hydrology》《Advances in Water Resources》《Agricultural Water Management》《Journal of Contaminant Hydrology》《Plant and Soil》《Water Resources Research》等10余種國際刊物,《中國科學》《水利學報》《水動力學研究與進展》《農業工程學報》等國內期刊發表發表學術論文150余篇,其中被SCI收錄40余篇、EI收錄70余篇。合作出版專著(教材)與會議文集8部。
近年來部分論文:
1.Liu H., H. Yang, J. Zheng, D. Jia, J. Wang, Y. Li, G. Huang. Irrigation scheduling strategies based on soil matric potential on yield and fruit,quality of mulched-drip irrigated chili pepper in Northwest China. Agricultural H?O Management, 2012, 115: 232-241.
2.Zheng J., G. Huang, J. Wang, Q. Huang , L. S. Pereira, X. Xu, H. Liu. Effects of water deficits on growth, yield, and water 生產率 of drip irrigated onion (蔥屬 cepa L.) in an arid region of Northwest China. Irrigation Science. DOI: 10.1007s00271-012-0378-5, 2012.
3.Huo Z., S. Feng, G. Huang, Y. Zheng, Y. Wang, P. Guo. Effect of groundwater level depth and irrigation amount on water fluxes at water table and water use of wheat. Irrigation and 排水法 DOI: 10.1002ird.685, 2012.
4.Li J., K. You, H. Zhan, and G. Huang. Analytical solution to subsurface air 壓強 in a three-layer unsaturated zone with atmospheric pressure changes. Transport in Porous Media, DOI: 10.1007s11242-012-9964-5, 2012.
5.Ghanbarian-Alavijeh B., R. Taghizadeh-Mehrjardi, G. Huang. Estimating 質量 fractal 量綱 of soil using artificial neural networks for improved prediction of H?O retention curve. Soil Science, 2012, 177: 471-479.
6.Li J., H. Zhan, G. Huang, and K. You. Determining Air Permeability in Reclaimed Coastal Land Based on Tidal Fluctuations. Environmental 地球 Scien國際消費類電子產品展覽會, 2012,66:1259–1268
7.Gao G., H. Zhan, S. Feng, B. Fu, G. Huang. A 無線電話immobile model with an AGB星 scale-dependent dispersion 函數 Journal of Hydrology. 2012, 424–425: 172-183
8.Huo Z., S. Feng, S. Kang, G. Huang, F. Wang, P. Guo. Integrated neural networks for monthly river flow estimation in arid inland basin of Northwest China. Journal of Hydrology, 2012, 420–421:159-170
9.Xu X., G. Huang, H. Zhan, Z. Qu, Q. Huang. Integration of SWAP and MODFLOW-2000 for estimation of groundwater recharge and evapo蒸騰作用 Journal of Hydrology, 2012, 412-413:170-178
10.Xu X., G. Huang, Z. Qu, L. S. Pereira. Using MODFLOW and GIS to assess changes in groundwater 動力學 in response to H?O儲蓄 measures in irrigation districts of the upper 黃色 River basin. Water Resources 管理學, 2011, 25: 2035-2059
11.Wang K. G. Huang. Effect of 滲透性 variations on solute transport in highly heterogeneous porous media. Advances in H?O Resources, 2011, 34: 671-683
12.Li J, H Zhan, G. Huang, and K You. Tide-induced 氣流 in a two-layered coastal land with atmospheric 壓強 fluctuations. Advances in Water Resource, 2011, 34:649-658
13.Wen Z., G. Huang, H. Zhan. Non-Darcian flow to a well in leaky aquifers using the Forchheimer 方程 Hydrogeology Journal, 2011,19: 563-573
14.Li J., G. Huang, H, Zhan. On the Applicability of linearization method of vapor flow in porous media. Transport in Porous Media, 2011, 87:815-834
15.Liu H., G. Huang, L. Yu, Y. Luo. Responses of winter wheat evapotranspiration and yield to sprinkler irrigation regimes. Agricultural H?O Management, 2011, 98: 483-492
16.Wen Z., G. Huang, H. Zhan, Solutions for non-Darcian flow to an X波段 well. Ground Water, 2011, 49(2): 280-285
17.Wen Z., G. Huang, H. Zhan, Constant-head test in leaky aquifers with a finite-thickness skin. Journal of Hydrology, 2011, 399:326-334
18.Ghanbarian-Alavijeh B., H. Milla′n, G. Huang. A review of fractal, prefractal and pore-固體-fractal models for parameterizing the soil H?O retention curve. Canadian Journal of Soil Science, 2011, 91: 1-14
19.Xu X., G. Huang, Z. Qu, L. S. Pereira. Assessing the groundwater 動力學 and predicting impacts of water-儲蓄 in the Hetao Irrigation District, 黃色 River basin. Agricultural H?O Management, 2010, 98:301-313
20.Gao, G., H. Zhan, S. Feng, B. Fu, Y. Ma, and G. Huang. A new 無線電話immobile model for reactive solute transport with scale-dependent dispersion. Water Resources Research, 2010, 46, W08533, DOI:10.10292009WR008707.
21.Gao G., S. Feng, H. Zhan, G. Huang, X. Mao. Evaluation anomalous solute transport in large heterogeneous soil column with 無線電話immobile model. Journal of Hydrologic Engineering, 2009, 14(9):966-974, 10.1061 (ASCE) HE.1943-5584.0000071
22.Gao G., H. Zhan, S. Feng, G. Huang, X. Mao. Comparison of alternative models for simulating anomalous solute transport in a large heterogeneous soil column. Journal of Hydrology, 2009, 377: 391-404
23.Zhan H., Z. Wen, G. Huang, and D. Sun. Two-dimensional solute transport in an aquitard-aquifer system. Journal of Contaminant Hydrology, 2009, 107, 162-174
24.Liu H., G. Huang. Laboratory experiment on drip emitter clogging with fresh H?O and treated sewage effluent. Agricultural Water Management, 2009, 96: 745-756
25.Wen Z., G. Huang, H. Zhan. A numerical solution for non-Darcian flow in a confined aquifer using the 功率 law 函數 Journal of Hydrology, 2009, 364 : 99–106
26.Wen Z., G. Huang, H. Zhan. Non-Darcian flow to a well in an aquifer-aquitard system. Advances in H?O Resources, 2008, 31: 1754–1763
27.Huang Q., G. Huang, H. Zhan. A finite element solution for the fractional advection- dispersion 方程 Advances in Water Resources, 2008, 31:1578-1589
28.Liu H., S. Cohen, J. Tanny, J. H. Lemcoff, G. Huang. 蒸騰作用 measurement of banana (Musa sp.) plants with the thermal dissipation probe method. 植物界 and Soil, 2008, 308:227-238
29.Liu H., S. Cohen, J. Tanny, J. H. Lemcoff, G. Huang. Estimation of banana (Musa sp.) plant 蒸騰作用 using a standard 20 cm pan in a greenhouse. Irrigation and 排水法 Systems, 2008, 22(3-4): 311-323
30.Wang X., G. Huang. Evaluation on the irrigation and 受精卵 管理學 practices under the application of treated sewage H?O in Beijing, China. Agricultural Water Management, 2008, 95:1011-1027
31.Wen Z., G. Huang, H. Zhan, J. Li. Two-region non-Darcian flow toward a well in a confined aquifer, Advances in Water Resources, 2008,31:818-827
32.Wen Z., G. Huang, H. Zhan. An analytical solution for non-Darcian flow in a confined aquifer using the 功率 law 函數 Advances in H?O Resources, 2008, 31:44-55
33.Huang, G., Q. Huang, H. Zhan. 質證 of one-dimensional scale-dependent fractional advection dispersion 方程 Journal of Contaminant Hydrology, 2006, 85:53-71
34.Xiong Y., G. Huang, Q. Huang, Modeling solute transport in one-dimensional homogeneous and heterogeneous soil columns with continuous 時間 random walk. Journal of Contaminant Hydrology, 2006, 86:163-175
35.Wen Z., G. Huang, H. Zhan. Non-Darcian flow in a single vertical 斷裂 toward a well. Journal of Hydrology, 2006, 330: 698-708
36.Huang G. and R. Zhang. Evaluation of soil H?O retention curve with pore-solid fractal model. Geoderma, 2005, 127: 52-61
37.Huang G. Modeling soil water regime and corn yields considering climatic uncertainty. 植物界 and Soil , 2004, 259 (1-2): 221-229
發明專利
獲專利5件,軟件著作權3項。
人才培養
指導博士生13名(已畢業7名),博士后1名,碩士生40名(已畢業26名)。先后為研究生主講過《溶質運移理論》《污水資源化原理與農業應用》,博士生《農業水土工程專論》《水文與水資源專論》等課程。為本科生主講過《水資源系統分析》《農田水利學》等課程。
學術榮譽
2012年入選教育部長江學者特聘教授,2011年國家杰出青年基金獲得者、2007年獲中國農學會青年科技獎、2005入選教育部新世紀優秀人才支持計劃、2000年獲霍英東青年教師基金。
參考資料 >
中國農業大學水利與土木工程學院黃冠華.中國農業大學水利與土木工程學院.2012-10-23