论著获奖: | 1. 论文[1]Ma, L.,Qian, J.Z.,Zhao, W. D.,Curtis, Z.,Zhang, R.G. Hydrogeochemical analysis of multiple aquifers in a coal mine based on nonlinear PCA and GIS. Environmental Earth Sciences, 2016,75(8):716.[2]Qian, J.Z.,Ma, L.,Zhan, H.B.,Luo, Q.K.,Wang, X.,Wang, M. The effect of expansion ratio on the critical Reynolds number in single fracture flow with sudden expansion,Hydrological Processes,2016,30(11):1718–1726. [3]马雷,钱家忠,赵卫东. 基于GIS的地下水化学类型空间分区方法. 煤炭学报,2012,37(3):490-494. [4]马雷,钱家忠,赵卫东, 张春雷,潘婧. 多元对应分析法在淮南潘一煤矿地下水化学特征分析中的应用. 煤炭学报. 2009, 34(11): 1517-1521.[5]马雷,钱家忠,赵卫东. 基于GIS和水质水温的矿井突水水源快速判别研究,煤田地质与勘探,2014,42(2):49-53.[6]马雷,钱家忠,赵卫东,周小平. 基于GIS的矿井水害防治辅助决策支持系统. 煤田地质与勘探,2014,42(5):44-49.[7]马雷,钱家忠,赵卫东,周小平. 顾北煤矿地下水化学特征的多元统计分析. 合肥工业大学学报,2013(12):1495-1498.[8]Ma, L., Zhou, X.P., Cao, X.C., Lin, M.L., Yang, D.D. Multivariate statistical analysis of coal mine groundwater chemistry characteristics: A case study of Guqiao Coal Mine, Huainan, China. PROCEEDINGS OF THE 13TH INTERNATIONAL CONFERENCE ON WATER-ROCK INTERACTION, 2010, 309-402.[9]Ma, L., Zhao, W.D., Zhou, X.P. Mine hydrochemistry characteristic analysis and recharge tracing based on MSA and GIS: A case in Panyi, Goldschmidt 2012, MONTRÉAL, CANADA.[10]Ma, L., Liu, Y., Zhou, X.P. Fuzzy comprehensive evaluation method of F statistic weighting in identifying mine water inrush source. International Journal of Engineering, Science and Technology. 2010, 2(7): 123-128.[11]Liu, Y.,Qian, J.Z.,Ma, L.,Zhao, W.D.,Luo, Q.K.,Improvement of numerical simulation of bimolecular reactive transport using time-dependent parameters,Journal of Hydrodynamics,2015, 27(1): 62-67.[12] Qian, J. Z,. Ma, L., Zhang, C. L., Zhou, X. P. Zhang, R. G. The Correspondence Analysis Method for Identification of Hydrochemical Characteristics of Groundwater in Coal Mine. Calibration and Reliability in Groundwater Modeling “Managing Groundwater and the Environment”, Wuhan, 2009, 405-408. [13]Chen, Z., Ma, L., Hua, F., Zhang Y.F., Sun, L.Q. Non-Fickian and non-Darcian laws in the simulation of flow and solute transport. PROCEEDINGS OF THE 13TH INTERNATIONAL CONFERENCE ON WATER-ROCK INTERACTION, 2010, 773-776. [14]Yang D.D., MA L., Qian J.Z., Chen L.W., Cao X.C. Water Inrush Source of Xinzhuangzi Coal Mine Identified with Gray Related Degree Method. Proceedings of the 3rd International Conference on Environment Technology and Knowledge Transfer. Hefei, 2010, 981-984. [15]张瑞钢,钱家忠,马雷,覃华. 可拓识别方法在矿井突水水源判别中的应用. 煤炭学报,2009,34(1):33-38.[16]Qian,J.Z., Wang,L., Ma,L., Lu,Y.H., Zhao,W.D., Zhang, Y. Multivariate statistical analysis of water chemistry in evaluating groundwater geochemical evolution and aquifer connectivity near a large coal mine, Anhui, China. Environmental Earth Sciences, 2016,75:747.[17]Zhao, W.D.,Zhou, W.,Ma, L.,Tian, J.,Research on the terrain-objects oriented DEM and its preliminary application,22nd International Conference on Geoinformatics, Geoinformatics 2014,Kaohsiung,Taiwan,2014.6.25-2014.6.27.[18]潘婧,钱家忠,马雷. 基于离差加权的煤矿突水水源判别模型及应用. 煤田地质与勘探. 2010, 38(1): 54-57.[19]赵卫东,徐媛,马雷,周春寅,钱家忠. 顾及梯田地形的GRID-TIN混合格网数字高程模型研究. 地理与地理信息科学.2013, 29(2):11-16.[20]张明轩,钱家忠,马雷. 改进尼梅罗法和可拓法在地下水环境质量评价中的应用.合肥工业大学学报(自然科学版), 2014,37(11):1361-1365.2. 授权发明专利(1)马雷,钱家忠,赵卫东. 一种含水介质模型的多尺度随机耦合建模方法, 2016, 发明专利(2)钱家忠,马雷,李佩全,等. 一种矿井突水水源快速判别设备, 2016,发明专利(3)钱家忠,李佩全,马雷,等. 一种适用于裂隙水的电导率检测装置, 2014,实用新型专利3. 软件著作权(1)2016-12-15,污染物湿地修复模拟系统V1.0,2016SR375175(2)2016-02-23, 煤田采煤塌陷预测预报系统V1.0,2016SR035540.(3)2015-05-11, 矿区水文地质与水害防治信息共享系统V1.0, 2015SR078125.(4)2014-12-20, 矿井水害防治信息管理与决策支持系统V1.0, 2014SR203781.(5)2014-07-30, 矿井水文地质类型划分软件V1.0,2014SR108809.(6)2009-12-31, 淮南煤矿突水水源快速判别信息系统V1.0,2009SR061248. |