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洪水预报实时校正技术研究进展(中英文)
黄一昕,王钦钊,梁忠民,邓晓栋
引用格式
黄一昕, 王钦钊, 梁忠民, 等. 洪水预报实时校正技术研究进展[J]. 南水北调与水利科技(中英文), 2021, 19(1):12-35.
HUANG Y X, WANG Q Z, LIANG Z M, et al. Research advances on real-time correction methods for flood forecasting[J]. South-to-North Water Transfers and Water Science & Technology, 2021,19(1): 12-35. (in Chinese).
区域节水潜力评估(中文)
秦长海,赵勇,李海红,曲军霖
引用格式
秦长海, 赵勇, 李海红, 等. 区域节水潜力评估[J]. 南水北调与水利科技(中英文), 2021, 19(1):36-42.
QINC H, ZHAO Y, LI H H, et al. Assessment of regional water saving potential[J]. South-to-North Water Transfers and Water Science & Technology, 2021, 19(1): 36-42. (in Chinese).
基于SWMM模型的坡地小区海绵城市改造效果评估(中文)
李怀民,常晓栋,徐宗学,王京晶
引用格式
李怀民, 常晓栋, 徐宗学, 等. 基于SWMM模型的坡地小区海绵城市改造效果评估[J]. 南水北调与水利科技(中英文), 2021, 19(1): 43-49,82.
LI H M, CHANG X D, XU Z X, et al. Assessment of sponge city scheme in a hillside area based on SWMM model[J]. South-to-North Water Transfers and Water Science & Technology, 2021, 19(1): 43-49,82. (in Chinese).
基于区间犹豫模糊语言集的水资源多目标决策(中英文)
肖尧, 钟平安, 徐斌, 马昱斐, 高益辉
引用格式
肖尧, 钟平安, 徐斌, 等. 基于区间犹豫模糊语言集的水资源多目标决策[J]. 南水北调与水利科技(中英文), 2021,19(1): 50-66.
XIAO Y, ZHONG P A, XU B, et al. Multi-objective decision-making of water resources based on interval hesitant fuzzy language set [J]. South-to-North Water Transfers and Water Science & Technology, 2021,19(1):50-66. (in Chinese).
基于AHP和熵权法组合权重的京津冀地区水循环健康模糊综合评价
王富强,马尚钰,赵衡,刘沛衡
引用格式
王富强, 马尚钰, 赵衡, 等. 基于AHP和熵权法组合权重的京津冀地区水循环健康模糊综合评价[J]. 南水北调与水利科技(中英文), 2021,19(1): 67-74.
WANG F Q, MA S Y, ZHAO H, et al. A fuzzy comprehensive evaluation of water cycle health in Beijing-Tianjin-Hebei region based on combined weights of AHP and entropy method[J].South-to-North Water Transfersand Water Science & Technology, 2021, 19(1): 67-74. (in Chinese).
乌兹别克斯坦水资源变化及其对供给压力的影响
于静洁, 阮宏威, 史尚渝, 王平, KHIKMATOV Fazliddin, KULMATOV Rashid
引用格式
于静洁, 阮宏威, 史尚渝, 等. 乌兹别克斯坦水资源变化及其对供给压力的影响[J]. 南水北调与水利科技(中英文), 2021,19(2): 75-82.
YU J J, RUAN H W, SHI S Y, et al. Changes in Uzbekistan′s water resources and its impact on supply pressure[J]. South-to-North Water Transfers and Water Science & Technology, 2021, 19(2): 75-82. (in-Chinese).
沙颍河流域径流过程模拟与径流组分变化特征
甘容, 陈长征
引用格式
甘容, 陈长征. 沙颍河流域径流过程模拟与径流组分变化特征[J]. 南水北调与水利科技(中英文), 2021,19(1): 83-91,128.
GAN R, CHEN C Z. Simulation of runoff process and variation characteristic in Shaying river basin[J]. South-to-North Water Transfers and Water Science & Technology, 2021,19(1): 83-91,128. (in-Chinese).
广东省生产用水结构时空变化及影响因素
陈美琳,陈磊,夏琳琳,蔡宴朋,杨志峰
引用格式
陈美琳, 陈磊, 夏琳琳, 等. 广东省生产用水结构时空变化及影响因素[J]. 南水北调与水利科技(中英文), 2021,19(1): 92-102.
CHEN M L, CHEN L, XIA L L, et al. Spatiotemporal variations and influencing factors of productive water consumption structure in Guangdong province[J]. South-to-North Water Transfers and Water Science & Technology, 2021, 19(1): 92-102. (in Chinese).
大通河上游径流演变及驱动因素定量分析
白雁翎, 王芳, 刘扬
引用格式
白雁翎, 王芳, 刘扬. 大通河上游径流演变及驱动因素定量分析[J]. 南水北调与水利科技(中英文), 2021,19(1): 103-110, 167.
BAI Y L, WANG F, LIU Y. Quantitative analysis of runoff evolution and driving factors in the upper reaches of Datong river[J]. South-to-North Water Transfers and Water Science & Technology, 2021,19(1):103-110,167. (in Chinese).
水库试验段区域地下水位动态特征与影响因素
杨阿敏,李文溢,周维博,安宝军,杨浩
引用格式
杨阿敏, 李文溢, 周维博, 等. 某水库试验段区域地下水位动态特征与影响因素[J]. 南水北调与水利科技(中英文), 2021,19(1): 111-118.
YANG A M, LI W Y, ZHOU W B, et al. Dynamic characteristics and in fluence factors of groundwater level in the experimental section of a reservoir[J]. South-to-North Water Transfers and Water Science & Technology, 2021,19(1): 111-118. (in Chinese).
适宜表征农业干旱的气象干旱指标——以湖南省为例
卓志宇,龙秋波,白鹏
引用格式
卓志宇, 龙秋波 ,白鹏. 适宜表征农业干旱的气象干旱指标[J]. 南水北调与水利科技(中英文), 2021,19(1): 119-128.
ZHUO Z Y, LONG Q B, BAI P. Scale of meteorological drought index suitable for characterizing agricultural drought: A case study of Hunan province[J]. South-to-North Water Transfers and Water Science & Technology, 2021,19(1):119-128. (in Chinese).
黄河流域生态保护和高质量发展
1980-2015年黄河流域土地利用变化特征与驱动力
廖慧,舒章康,金君良,杨传国,王国庆
引用格式
廖慧, 舒章康, 金君良, 等. 1980-2015年黄河流域土地利用变化特征与驱动力[J]. 南水北调与水利科技(中英文), 2021, 19(1):129-139.
LIAO H, SHU Z K, JIN J L, et al. Characteristics and driving forces of land use change in the Yellow river basin from 1980 to 2015[J]. South-to-North Water Transfers and Water Science & Technology, 2021,19(1): 129-139. (in Chinese).
河套盆地晚更新世以来黄河改道对高砷地下水分布的控制机制
曹文庚,董秋瑶,谭俊,高媛媛,赵瑞科
引用格式
曹文庚, 董秋瑶, 谭俊, 等. 河套盆地晚更新世以来黄河改道对高砷地下水分布的控制机制[J]. 南水北调与水利科技(中英文), 2021,19(1): 140-150.
CAO W G, DONG Q Y, TAN J, et al. Mechanism of Yellow river diversion in controlling high arsenic groundwater distribution since Late Pleistocene[J]. South-to-North Water Transfers and Water Science & Technology, 2021,19(1):140-150. (in Chinese).
基于长序列的黄河下游游荡型河道河势演变
许琳娟,王远见,李军华,赵万杰,董伟军
引用格式
许琳娟, 王远见, 李军华, 等. 基于长序列的黄河下游游荡型河道河势演变[J]. 南水北调与水利科技(中英文), 2021,19(1): 151-157,197.
XU L J, WANG Y J, LI J H, et al. River regime evolution of the wandering channel in the lower Yellow river based on long sequence[J]. South-to-North Water Transfers and Water Science & Technology, 2021,19(1):151-157,197. (in Chinese).
生态与环境
拉林河流域地下水中稀土元素质量浓度及分异特征
王慧群,胡斌,滕彦国,詹燕红,翟远征
引用格式
王慧群, 胡斌, 滕彦国, 等. 拉林河流域地下水中稀土元素质量浓度及分异特征[J]. 南水北调与水利科技(中英文), 2021,19(1):158-167.
WANG H Q, HU B, TENG Y G, et al. Mass concentrations and patterns of rare earth elements in groundwater of Lalin river basin[J]. South-to-North Water Transfers and Water Science & Technology, 2021,19(1):158-167. (in Chinese).
基于文献计量学的地下水污染研究现状
谢浩,李军,邹胜章,梁永平,申豪勇,周长松
引用格式
谢浩, 李军, 邹胜章, 等. 基于文献计量学的地下水污染研究现状[J]. 南水北调与水利科技(中英文), 2021,19(1):168-178.
XIE H, LI J, ZOU S Z, et al. Research status of groundwater pollution based on bibliometrics[J]. South-to-North Water Transfers and Water Science & Technology, 2021,19(1):168-178. (in Chinese).
北京市北运河流域河水和地下水多环芳烃分布规律及风险评价
张世伟,李炳华,张大胜,王靖,蒋川
引用格式
张世伟, 李炳华, 张大胜, 等. 北京市北运河流域河水和地下水多环芳烃分布规律及风险评价[J]. 南水北调与水利科技(中英文), 2021,19(1):179-190.
ZHANG S W, LI B H, ZHANG D S, et al. Distribution and risk assessment of PAHs in river water and groundwater in North Canal basin of Beijing[J]. South-to-North Water Transfers and Water Science & Technology, 2021,19(1): 179-190. (in Chinese).
水利工程研究
标准化水厂建设工程造价模型
马可可,王祺,周律,孙傅,陈宇敏,徐艺星,黄新丽
引用格式
马可可, 王祺, 周律,等. 标准化水厂建设工程造价模型[J]. 南水北调与水利科技(中英文), 2021,19(1):191-197.
MA K K, WANGQ, ZHOU L,et al. Standardized constructioncost estimation models for drinking water treatment plant[J]. South-to-North Water Transfersand Water Science & Technology,2021,19(1):191-197. (in Chinese).
超长倒虹吸出口明满流仿真闸门动态边界设置方法
朱哲立,管光华,毛中豪
引用格式
朱哲立, 管光华, 毛中豪.超长倒虹吸出口明满流仿真闸门动态边界设置方法[J]. 南水北调与水利科技(中英文), 2021,19(1):198-206.
ZHUZ L, GUANG H, MAOZ H. Method for dynamic boundary setting in numerical modeling of free-surface-pressurizedflow for outlet gate of long inverted siphon[J]. South-to-NorthWater Transfers and Water Science & Technology, 2021,19(1): 198-206.(in-Chinese).
院士专访
谈2020年我国南北洪涝问题
王浩,孟现勇
引用格式
王浩, 孟现勇. 谈2020年我国南北洪涝问题[J]. 南水北调与水利科技(中英文), 2021,19(1):207-208.
WANG H ,MENG X Y. A Talk about China′s north and south floods in 2020[J]. South-to-North Water Transfers and Water Science & Technology, 2021,19(1): 207-208. (in Chinese).
水文水资源
变化环境下12种潜在蒸散发估算方法在不同干湿区的适用性(中文)
伍海,夏军,赵玲玲,宋进喜,李天生
引用格式
伍海,夏军,赵玲玲,等.变化环境下12种潜在蒸散发估算方法在不同干湿区的适用性[J].南水北调与水利科技(中英文),2021,19(1):01-11.
WU H, XIA J, ZHAO L L, et al. Application of 12 potential evapotranspiration estimation methods under changing environments in different arid and humid regions [J]. South-to-North Water Transfers and Water Science & Technology, 2021, 19(1): 01-11. (in Chinese).
洪水预报实时校正技术研究进展(中英文)
黄一昕,王钦钊,梁忠民,邓晓栋
引用格式
黄一昕, 王钦钊, 梁忠民, 等. 洪水预报实时校正技术研究进展[J]. 南水北调与水利科技(中英文), 2021, 19(1):12-35.
HUANG Y X, WANG Q Z, LIANG Z M, et al. Research advances on real-time correction methods for flood forecasting[J]. South-to-North Water Transfers and Water Science & Technology, 2021,19(1): 12-35. (in Chinese).
区域节水潜力评估(中文)
秦长海,赵勇,李海红,曲军霖
引用格式
秦长海, 赵勇, 李海红, 等. 区域节水潜力评估[J]. 南水北调与水利科技(中英文), 2021, 19(1):36-42.
QINC H, ZHAO Y, LI H H, et al. Assessment of regional water saving potential[J]. South-to-North Water Transfers and Water Science & Technology, 2021, 19(1): 36-42. (in Chinese).
基于SWMM模型的坡地小区海绵城市改造效果评估(中文)
李怀民,常晓栋,徐宗学,王京晶
引用格式
李怀民, 常晓栋, 徐宗学, 等. 基于SWMM模型的坡地小区海绵城市改造效果评估[J]. 南水北调与水利科技(中英文), 2021, 19(1): 43-49,82.
LI H M, CHANG X D, XU Z X, et al. Assessment of sponge city scheme in a hillside area based on SWMM model[J]. South-to-North Water Transfers and Water Science & Technology, 2021, 19(1): 43-49,82. (in Chinese).
基于区间犹豫模糊语言集的水资源多目标决策(中英文)
肖尧, 钟平安, 徐斌, 马昱斐, 高益辉
引用格式
肖尧, 钟平安, 徐斌, 等. 基于区间犹豫模糊语言集的水资源多目标决策[J]. 南水北调与水利科技(中英文), 2021,19(1): 50-66.
XIAO Y, ZHONG P A, XU B, et al. Multi-objective decision-making of water resources based on interval hesitant fuzzy language set [J]. South-to-North Water Transfers and Water Science & Technology, 2021,19(1):50-66. (in Chinese).
基于AHP和熵权法组合权重的京津冀地区水循环健康模糊综合评价
王富强,马尚钰,赵衡,刘沛衡
引用格式
王富强, 马尚钰, 赵衡, 等. 基于AHP和熵权法组合权重的京津冀地区水循环健康模糊综合评价[J]. 南水北调与水利科技(中英文), 2021,19(1): 67-74.
WANG F Q, MA S Y, ZHAO H, et al. A fuzzy comprehensive evaluation of water cycle health in Beijing-Tianjin-Hebei region based on combined weights of AHP and entropy method[J].South-to-North Water Transfersand Water Science & Technology, 2021, 19(1): 67-74. (in Chinese).
乌兹别克斯坦水资源变化及其对供给压力的影响
于静洁, 阮宏威, 史尚渝, 王平, KHIKMATOV Fazliddin, KULMATOV Rashid
引用格式
于静洁, 阮宏威, 史尚渝, 等. 乌兹别克斯坦水资源变化及其对供给压力的影响[J]. 南水北调与水利科技(中英文), 2021,19(2): 75-82.
YU J J, RUAN H W, SHI S Y, et al. Changes in Uzbekistan′s water resources and its impact on supply pressure[J]. South-to-North Water Transfers and Water Science & Technology, 2021, 19(2): 75-82. (in-Chinese).
沙颍河流域径流过程模拟与径流组分变化特征
甘容, 陈长征
引用格式
甘容, 陈长征. 沙颍河流域径流过程模拟与径流组分变化特征[J]. 南水北调与水利科技(中英文), 2021,19(1): 83-91,128.
GAN R, CHEN C Z. Simulation of runoff process and variation characteristic in Shaying river basin[J]. South-to-North Water Transfers and Water Science & Technology, 2021,19(1): 83-91,128. (in-Chinese).
广东省生产用水结构时空变化及影响因素
陈美琳,陈磊,夏琳琳,蔡宴朋,杨志峰
引用格式
陈美琳, 陈磊, 夏琳琳, 等. 广东省生产用水结构时空变化及影响因素[J]. 南水北调与水利科技(中英文), 2021,19(1): 92-102.
CHEN M L, CHEN L, XIA L L, et al. Spatiotemporal variations and influencing factors of productive water consumption structure in Guangdong province[J]. South-to-North Water Transfers and Water Science & Technology, 2021, 19(1): 92-102. (in Chinese).
大通河上游径流演变及驱动因素定量分析
白雁翎, 王芳, 刘扬
引用格式
白雁翎, 王芳, 刘扬. 大通河上游径流演变及驱动因素定量分析[J]. 南水北调与水利科技(中英文), 2021,19(1): 103-110, 167.
BAI Y L, WANG F, LIU Y. Quantitative analysis of runoff evolution and driving factors in the upper reaches of Datong river[J]. South-to-North Water Transfers and Water Science & Technology, 2021,19(1):103-110,167. (in Chinese).
水库试验段区域地下水位动态特征与影响因素
杨阿敏,李文溢,周维博,安宝军,杨浩
引用格式
杨阿敏, 李文溢, 周维博, 等. 某水库试验段区域地下水位动态特征与影响因素[J]. 南水北调与水利科技(中英文), 2021,19(1): 111-118.
YANG A M, LI W Y, ZHOU W B, et al. Dynamic characteristics and in fluence factors of groundwater level in the experimental section of a reservoir[J]. South-to-North Water Transfers and Water Science & Technology, 2021,19(1): 111-118. (in Chinese).
适宜表征农业干旱的气象干旱指标——以湖南省为例
卓志宇,龙秋波,白鹏
引用格式
卓志宇, 龙秋波 ,白鹏. 适宜表征农业干旱的气象干旱指标[J]. 南水北调与水利科技(中英文), 2021,19(1): 119-128.
ZHUO Z Y, LONG Q B, BAI P. Scale of meteorological drought index suitable for characterizing agricultural drought: A case study of Hunan province[J]. South-to-North Water Transfers and Water Science & Technology, 2021,19(1):119-128. (in Chinese).
黄河流域生态保护和高质量发展
1980-2015年黄河流域土地利用变化特征与驱动力
廖慧,舒章康,金君良,杨传国,王国庆
引用格式
廖慧, 舒章康, 金君良, 等. 1980-2015年黄河流域土地利用变化特征与驱动力[J]. 南水北调与水利科技(中英文), 2021, 19(1):129-139.
LIAO H, SHU Z K, JIN J L, et al. Characteristics and driving forces of land use change in the Yellow river basin from 1980 to 2015[J]. South-to-North Water Transfers and Water Science & Technology, 2021,19(1): 129-139. (in Chinese).
河套盆地晚更新世以来黄河改道对高砷地下水分布的控制机制
曹文庚,董秋瑶,谭俊,高媛媛,赵瑞科
引用格式
曹文庚, 董秋瑶, 谭俊, 等. 河套盆地晚更新世以来黄河改道对高砷地下水分布的控制机制[J]. 南水北调与水利科技(中英文), 2021,19(1): 140-150.
CAO W G, DONG Q Y, TAN J, et al. Mechanism of Yellow river diversion in controlling high arsenic groundwater distribution since Late Pleistocene[J]. South-to-North Water Transfers and Water Science & Technology, 2021,19(1):140-150. (in Chinese).
基于长序列的黄河下游游荡型河道河势演变
许琳娟,王远见,李军华,赵万杰,董伟军
引用格式
许琳娟, 王远见, 李军华, 等. 基于长序列的黄河下游游荡型河道河势演变[J]. 南水北调与水利科技(中英文), 2021,19(1): 151-157,197.
XU L J, WANG Y J, LI J H, et al. River regime evolution of the wandering channel in the lower Yellow river based on long sequence[J]. South-to-North Water Transfers and Water Science & Technology, 2021,19(1):151-157,197. (in Chinese).
生态与环境
拉林河流域地下水中稀土元素质量浓度及分异特征
王慧群,胡斌,滕彦国,詹燕红,翟远征
引用格式
王慧群, 胡斌, 滕彦国, 等. 拉林河流域地下水中稀土元素质量浓度及分异特征[J]. 南水北调与水利科技(中英文), 2021,19(1):158-167.
WANG H Q, HU B, TENG Y G, et al. Mass concentrations and patterns of rare earth elements in groundwater of Lalin river basin[J]. South-to-North Water Transfers and Water Science & Technology, 2021,19(1):158-167. (in Chinese).
基于文献计量学的地下水污染研究现状
谢浩,李军,邹胜章,梁永平,申豪勇,周长松
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谢浩, 李军, 邹胜章, 等. 基于文献计量学的地下水污染研究现状[J]. 南水北调与水利科技(中英文), 2021,19(1):168-178.
XIE H, LI J, ZOU S Z, et al. Research status of groundwater pollution based on bibliometrics[J]. South-to-North Water Transfers and Water Science & Technology, 2021,19(1):168-178. (in Chinese).
北京市北运河流域河水和地下水多环芳烃分布规律及风险评价
张世伟,李炳华,张大胜,王靖,蒋川
引用格式
张世伟, 李炳华, 张大胜, 等. 北京市北运河流域河水和地下水多环芳烃分布规律及风险评价[J]. 南水北调与水利科技(中英文), 2021,19(1):179-190.
ZHANG S W, LI B H, ZHANG D S, et al. Distribution and risk assessment of PAHs in river water and groundwater in North Canal basin of Beijing[J]. South-to-North Water Transfers and Water Science & Technology, 2021,19(1): 179-190. (in Chinese).
水利工程研究
标准化水厂建设工程造价模型
马可可,王祺,周律,孙傅,陈宇敏,徐艺星,黄新丽
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马可可, 王祺, 周律,等. 标准化水厂建设工程造价模型[J]. 南水北调与水利科技(中英文), 2021,19(1):191-197.
MA K K, WANGQ, ZHOU L,et al. Standardized constructioncost estimation models for drinking water treatment plant[J]. South-to-North Water Transfersand Water Science & Technology,2021,19(1):191-197. (in Chinese).
超长倒虹吸出口明满流仿真闸门动态边界设置方法
朱哲立,管光华,毛中豪
引用格式
朱哲立, 管光华, 毛中豪.超长倒虹吸出口明满流仿真闸门动态边界设置方法[J]. 南水北调与水利科技(中英文), 2021,19(1):198-206.
ZHUZ L, GUANG H, MAOZ H. Method for dynamic boundary setting in numerical modeling of free-surface-pressurizedflow for outlet gate of long inverted siphon[J]. South-to-NorthWater Transfers and Water Science & Technology, 2021,19(1): 198-206.(in-Chinese).
院士专访
谈2020年我国南北洪涝问题
王浩,孟现勇
引用格式
王浩, 孟现勇. 谈2020年我国南北洪涝问题[J]. 南水北调与水利科技(中英文), 2021,19(1):207-208.
WANG H ,MENG X Y. A Talk about China′s north and south floods in 2020[J]. South-to-North Water Transfers and Water Science & Technology, 2021,19(1): 207-208. (in Chinese).
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