两种主要技术型鱼道的水力特性研究进展
摘要
综述竖缝式、组合式及丹尼尔式鱼道水力特性的研究进展,从鱼道结构型式方面对比分析国内外两种主要技术型鱼道水力特性的研究现状和研究结果,指出鱼道中水流的流速、流态、紊动能、雷诺切应力和漩涡尺寸等可能会对鱼类上溯造成困扰的水力因子,同时讨论了鱼道水力学研究中存在的问题并展望该领域的研究方向。
引文
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[8]BOMBA?M,?ETINA M,NOVAK G.Study on Flow Characteristics in Vertical Slot Fishways Regarding Slot Layout Optimization[J].Ecological Engineering,2017(107):126-136.
[9]QUARANTA E,KATOPODIS C,REVELLI R,et al.Turbulent Flow Field Comparison and Related Suitability for Fish Passage of a Standard and a Simplified Low-gradient Vertical Slot Fishway[J].River Research&Applications,2017,33(8):1295-1305.
[10]TARRADE L,TEXIER A,DAVID L,et al.Topologies and Measurements of Turbulent Flow in Vertical Slot Fishways[J].Hydrobiologia,2008,609(1):177-188.
[11]CALLUAUD D,PINEAU G,TEXIER A,et al.Modification of Vertical Slot Fishway Flow with a Supplementary Cylinder[J].Journal of Hydraulic Research,2014,52(5):614-629.
[12]MARRINER B A,BAKI A B M,ZHU D Z,et al.Field and Numerical Assessment of Turning Pool Hydraulics in a Vertical Slot Fishway[J].Ecological Engineering,2014,63(1):88-101.
[13]边永欢,孙双科,张国强,等.竖缝式鱼道90°转弯段水力特性的数值模拟[J].水生态学杂志,2015(1):53-59.
[14]边永欢,孙双科,郑铁刚,等.竖缝式鱼道180°转弯段的水力特性与改进研究[J].四川大学学报(工程科学版),2015(1):90-96.
[15]王猛,史德亮,陈辉,等.竖缝式鱼道池室结构变化对水力特性的影响分析[J].长江科学院院报,2015(1):79-83.
[16]郭维东,孟文,熊守纯,等.同侧竖缝式鱼道结构优化数值模拟研究[J].长江科学院院报,2015(2):48-52.
[17]吕强,孙双科,边永欢.双侧竖缝式鱼道水力特性研究[J].水生态学杂志,2016(4):55-62.
[18]赵彬如,戴会超,戎贵文,等.竖缝位置对竖缝式鱼道水力特性的影响[J].水利水电科技进展,2017(5):69-73,83.
[19]张超,孙双科,李广宁.竖缝式鱼道细部结构改进研究[J].中国水利水电科学研究院学报,2017(5):389-396.
[20]YAGCI O.Hydraulic Aspects of Pool-weir Fishways as Ecologically Friendly Water Structure[J].Ecological Engineering,2010,36(1):36-46.
[21]黄明海,周赤,张亚利,等.竖缝-潜孔组合式鱼道进鱼口渠段三维紊流数值模拟研究[C]//周孝德.水力学与水利信息学进展.西安:西安交通大学出版社,2009:212-218.
[22]王琲,杨文俊,陈辉.竖缝与堰组合式鱼道水力特性数值模拟研究[J].人民长江,2013(11):81-84.
[23]刘鹄,程文,任杰辉,等.竖缝与孔口组合式鱼道流动特性模拟研究[J].水力发电学报,2017(6):38-46.
[24]KATOPODIS C,RAJARATNAM N,WU S,et al.Denil Fishways of Varying Geometry[J].Journal of Hydraulic Engineering,1997,123(123):624-631.
[25]RAJARATNAM N,KATOPODIS C,WU S,et al.Hydraulics of Resting Pools for Denil Fishways[J].Journal of Hydraulic Engineering,1997,123(7):632-638.
[26]佟雪丰,李卫明,刘德富,等.丹尼尔式鱼道内水流紊动特性试验研究[J].水电能源科学,2016(2):94-97,128.
[2]谢平.长江的生物多样性危机——水利工程是祸首,酷渔乱捕是帮凶[J].湖泊科学,2017(6):1279-1299.
[3]NOONAN M J,GRANT J W A,JACKSON C D.A Quantitative Assessment of Fish Passage Efficiency[J].Fish&Fisheries,2012,13(4):450-464.
[4]HODGE B W,FETHERMAN E R,HENDERSON R,et al.Effectiveness of a Fishway for Restoring Passage of Colorado River Cutthroat Trout[J].North American Journal Of Fisheries Management,2017,37(6):1332-1340.
[5]PENNOCK M C A,BENDER M D,HOFMEIER M J,et al.Can Fishways Mitigate Fragmentation Effects on Great Plains Fish Commu[J].Canadian Journal of Fisheries&Aquatic Sciences,2017,75(1):121-130.
[6]MALLEN-COOPER M,STUART I G.Optimising Denil Fishways for Passage of Small and Large Fishes[J].Fisheries Management&Ecology,2007,14(1):61-71.
[7]BERM DEZ M,PUERTAS J,CEA L,et al.Influence of Pool Geometry on the Biological Efficiency of Vertical Slot Fishways[J].Ecological Engineering,2010,36(10):1355-1364.
[8]BOMBA?M,?ETINA M,NOVAK G.Study on Flow Characteristics in Vertical Slot Fishways Regarding Slot Layout Optimization[J].Ecological Engineering,2017(107):126-136.
[9]QUARANTA E,KATOPODIS C,REVELLI R,et al.Turbulent Flow Field Comparison and Related Suitability for Fish Passage of a Standard and a Simplified Low-gradient Vertical Slot Fishway[J].River Research&Applications,2017,33(8):1295-1305.
[10]TARRADE L,TEXIER A,DAVID L,et al.Topologies and Measurements of Turbulent Flow in Vertical Slot Fishways[J].Hydrobiologia,2008,609(1):177-188.
[11]CALLUAUD D,PINEAU G,TEXIER A,et al.Modification of Vertical Slot Fishway Flow with a Supplementary Cylinder[J].Journal of Hydraulic Research,2014,52(5):614-629.
[12]MARRINER B A,BAKI A B M,ZHU D Z,et al.Field and Numerical Assessment of Turning Pool Hydraulics in a Vertical Slot Fishway[J].Ecological Engineering,2014,63(1):88-101.
[13]边永欢,孙双科,张国强,等.竖缝式鱼道90°转弯段水力特性的数值模拟[J].水生态学杂志,2015(1):53-59.
[14]边永欢,孙双科,郑铁刚,等.竖缝式鱼道180°转弯段的水力特性与改进研究[J].四川大学学报(工程科学版),2015(1):90-96.
[15]王猛,史德亮,陈辉,等.竖缝式鱼道池室结构变化对水力特性的影响分析[J].长江科学院院报,2015(1):79-83.
[16]郭维东,孟文,熊守纯,等.同侧竖缝式鱼道结构优化数值模拟研究[J].长江科学院院报,2015(2):48-52.
[17]吕强,孙双科,边永欢.双侧竖缝式鱼道水力特性研究[J].水生态学杂志,2016(4):55-62.
[18]赵彬如,戴会超,戎贵文,等.竖缝位置对竖缝式鱼道水力特性的影响[J].水利水电科技进展,2017(5):69-73,83.
[19]张超,孙双科,李广宁.竖缝式鱼道细部结构改进研究[J].中国水利水电科学研究院学报,2017(5):389-396.
[20]YAGCI O.Hydraulic Aspects of Pool-weir Fishways as Ecologically Friendly Water Structure[J].Ecological Engineering,2010,36(1):36-46.
[21]黄明海,周赤,张亚利,等.竖缝-潜孔组合式鱼道进鱼口渠段三维紊流数值模拟研究[C]//周孝德.水力学与水利信息学进展.西安:西安交通大学出版社,2009:212-218.
[22]王琲,杨文俊,陈辉.竖缝与堰组合式鱼道水力特性数值模拟研究[J].人民长江,2013(11):81-84.
[23]刘鹄,程文,任杰辉,等.竖缝与孔口组合式鱼道流动特性模拟研究[J].水力发电学报,2017(6):38-46.
[24]KATOPODIS C,RAJARATNAM N,WU S,et al.Denil Fishways of Varying Geometry[J].Journal of Hydraulic Engineering,1997,123(123):624-631.
[25]RAJARATNAM N,KATOPODIS C,WU S,et al.Hydraulics of Resting Pools for Denil Fishways[J].Journal of Hydraulic Engineering,1997,123(7):632-638.
[26]佟雪丰,李卫明,刘德富,等.丹尼尔式鱼道内水流紊动特性试验研究[J].水电能源科学,2016(2):94-97,128.