姚慰炜,男,汉族,研究员,博士生导师
研究方向:水利工程,水力学及河流动力学,生态水力学,河流生态,大坝过鱼,鱼类栖息地,气候变化对河流栖息地及流域的影响
联系方式: yaoww@scu.edu.cn; science_research@126.com (欢迎有志从事研究的同学积极联系)
姚慰炜博士在全球顶尖大学慕尼黑工业大学(德国)获得博士学位,并且曾在德国,加拿大等多个大学和研究机构工作。在水力生态学领域和国际会议上较活跃,近年来发表70多篇高质量学术论文,申请了90个国内外软件著作权,独立出版英文专著 1 部,另受邀撰写英文专著章节 1 章,担任40余个SCI期刊审稿人及国际会议评阅人。参与组织多次国际会议,并多次受邀做特邀报告。姚老师主要从事生态水力学,鱼类栖息地,鱼类行为,流域生态方面研究。构建了水力生态模型,并通过国际合作的方式应用于美国的科罗拉多河流,瑞士的安恩河,以及中国的大渡河。完善了河流生境修复理论与关键技术。揭示了水库中鱼类的卷吸风险。其创新性模型理论获得了学术界的较高评价。被评为不仅具有较高的理论研究基础,又有很好的工程应用价值。研究成果同时在多个大型水利工程中得到应用,具备较强的成果转换及应用价值。
工作经历
2021 – 至今 四川大学,水利水电学院,博导
2018 – 2021 University of Alberta, Water Resources Engineering, Faculty of Engineering (加拿大), 研究人员
教育经历
2012 – 2016 慕尼黑工业大学 (Technical University of Munich), School of Civil, Geo and Environmental Engineering (德国),博士
2008 – 2011 西北农林科技大学,水利与建筑工程学院,硕士
2004 – 2008 西北农林科技大学,水利与建筑工程学院 本科
研究兴趣
围绕水利工程开发和运行而进行的一系列水力生态研究(鱼类栖息地和生境破坏,洄游受阻,鱼类损伤等问题)主要体现在如下四个方面:
1. 气候变化对河流及栖息地的影响 (气候变化,河流生态,鱼类生境直接的相互关系)
2. 开发和建设全生命周期的水力生态模型 (河流及流域水力生态)
3. 河流鱼类生境补偿和修复 (河流,产卵场、索饵场、越冬场和洄游通道等关键生境保护修复工程)
4. 鱼类行为、鱼类卷吸及水库鱼类生境 (鱼类卷吸及大坝过鱼技术)
5. 流域生态系统演变及影响机制(流域水生态及陆地生态)
部分代表论著(*corresponding author)
[50] Wang, Y., Guo, X., Wang, N., Li, Z., Ouyang, L., Bao, M., Zhang, W., Yao, W*. (2024). Distinctive hydrodynamic properties and ecological responses of multi-thread rivers under different degrees of multiplicity in the Upper Yellow River, Science of total environment.
[49] Xi, Y., Cao, C., Liu, S., Li, P., Xiao, Li., & Yao, W*. (2024). Swimming behaviour of downstream migrating carp in accelerating flows, Journal of hydraulic research. (accepted)
[48] Li, P., Li, Y., Han, Y., Bao, M., Wang, Y., & Yao, W*. (2024). Reconstructing Single Side of Riverbanks Minimizes Adverse Effects on Sailfin Suckers’Habitat, Ecological restoration.
[47] Li, P., Yang, Y., Zhang, W., Cong, N., Yang, G., & Yao, W*. (2024). Enhancing Ecological Success in Yangtze River Channel Construction: A Numerical Modeling Approach, Ecohydrology (accepted)
[46] Yang, Y., Wang, Y., Cong, N., Wang, N., & Yao, W*. (2024). Impacts of the Three Gorges Dam on riparian vegetation in the Yangtze River Basin under climate change. Science of The Total Environment, 912, 169415.
[45] Li, P., Yang, Y., Zhang, W., Cong, N., Yang, G., & Yao, W*. (2024). Forebay entrainment risk effects on two fish species in the Williston Reservoir. Ecological Modelling, 487, 110571.
[44] Liu, S., Cao, C., Xi, Y., Li, P., Chen, X., Xiao, L., & Yao, W*. (2024). Morphology and motor behavior of endemic fishes in the upper reaches of the Yangtze River basin. Journal of Fish Biology.
[43] Wang, Q., Han, Y., Bao, M., Li, P., Li, Y., Zhang, W., & Yao, W*. (2024). Fish entrainment model for decision support in ecosystem management: A case study from China's Maling Reservoir. Ecohydrology & Hydrobiology, 24(1), 226-239.
[42] Wang, Q., Han, Y., Li, P., Zhang, W., Wang, Y., Xi, Y., & Yao, W*. (2023). Ecohydraulic modelling to evaluate cascade dam construction impact and support fish habitat restoration. Ecological Engineering, 192, 106974.
[41] Wang, N., Yang, G., Bao, M., Kattel, G., Li, P., Xi, Y., & Yao, W*. (2023). Evaluating the physical habitat of riffle‐pool design in support of river habitat protection and rehabilitation. Ecohydrology, 16(7), e2579.
[40] Yao, W. (2023). Stocking to offset negative effects of dam construction and balance the ecosystem. Fisheries Management and Ecology, 30(6), 627-647.
[39] Yang, G., Bao, M., Cong, N., Kattel, G., Li, Y., Xi, Y., ... & Yao, W*. (2023). Application of a fish habitat model to assess habitat fragmentation using high flow and sediment transport in the Rumei Dam in Lancang River (China). Ecohydrology, e2583.
[38] Wang, Q., Li, P., Zhang, W., Cong, N., Xi, Y., Xiao, L., ... & Yao, W*. (2023). Evaluating the cascade dam construction effects on endemic fish habitat and population status in spawning sites of Lancang River (in Tibet), China. Ecological Modelling, 483, 110450.
[37] Yao, W., Zhu, D. Z., Langford, M. T., Crossman, J. A., Li, P., Leake, A., & Parkinson, E. (2023). Combining hydro-acoustics and hydraulic modeling for evaluating fish entrainment risk. Ecological Engineering, 194, 107022.
[36] Xi, Y., Li, P., Pang, X., Han, Y., Lin, J., Wang, Q., ... & Yao, W*. (2023). Numerical modelling for ecologically successful spawning-site restoration in Chin-sha River, China. Marine and Freshwater Research, 74(15), 1324-1339.
[35] Bao, M., Li, P., Han, Y., Zhang, W., Li, Y., & Yao, W*. (2022). Using a fish entrainment model assistant in a reservoir operation in China. Journal of Hydroinformatics, 24(4), 765-782.
[34] Yao, W*. (2021) Ecohydraulic tools for aquatic fauna habitat and population status assessment, analysis and monitoring aimed at promoting integrated river management. Ecological Modelling, 456, 109682.
[33] Yu, G. A., Yao, W., Huang, H. Q., & Liu, Z. (2021). Debris flows originating in the mountain cryosphere under a changing climate: A review. Progress in Physical Geography: Earth and Environment, 45(3), 339-374.
[32] Yao, W*., An, R., Yu, G., Li, J., & Ma, X. (2021). Identifying fish ecological risk patterns based on the effects of long-term dam operation schemes. Ecological Engineering, 159, 106102.
[31] Yao, W. (2020). Ecohydraulic model development and application: Evaluating the habitats and population of rainbow trout (Oncorhynchus mykiss), brown trout (Salmo trutta), and flannelmouth sucker (Catostomus latipinnis) in Colorado River. Global Ecology and Conservation, Volume 23, September 2020, e01060 (https://doi.org/10.1016/j.gecco.2020.e01060)
[30] Yao, W*., Zhao, T., Shen, L., & Chen, Y. (2019). Assessing the Geological Stability, Dam Construction Effects, and Ecological Status of Karst Water Areas, Guizhou Province, China. In Karst Water Environment, p.251-269. Springer, Cham. (ISBN: 978-3-319-77367-4)
[29] Yao, W*., Chen, Y., & Ma, X. (2019). A numerical model for river habitat restoration: a case study of the Chin-sha River in China. GLOBAL NEST JOURNAL, 21(3), 355-359.
[28] Yao, Weiwei; Yuansheng Chen, Xiaoyi Ma, Xiaobin Li (2018). The spillway design for the dam’s height over 300 meters. 2018.
[27] Yu, G; Li Z., Huang, H; Yao, W (2018). Effects of riparian vegetation on development of meandering channel in Tarim River, Northwest China. 2018
[26] Wu, L., Yao, W., & Ma, X. (2018). Using the comprehensive governance degree to calibrate a piecewise sediment delivery ratio algorithm for dynamic sediment predictions: A case study in an ecological restoration watershed of northwest China. Journal of Hydrology, 564, 888-899.
[25] Yao, W*., Chen, Y., Yu, G., Xiao, M., Ma, X., & Lei, F. (2018). Developing a Model to Assess the Potential Impact of TUM Hydropower Turbines on Small River Ecology. 10(5), 1662.
[24] Yao, W*., Zhao, T., Chen, Y., Yu, G., & Xiao, M. (2018). Assessing the river habitat suitability and effects of introduction of exotic fish species based on anecohydraulic model system. Ecological Informatics.
[23] Yao, W*., Bui, M. D., & Rutschmann, P. (2018). Development of eco‐hydraulic model for assessing fish habitat and population status in freshwater ecosystems. Ecohydrology.
[22] Yao, W*., & Chen, Y. (2018). Assessing three fish species ecological status in Colorado River, Grand Canyon based on physical habitat and population models. Mathematical biosciences, 298, 91-104.
[21] Yao W, Chen Y., Zhong Y, et al (2017). Habitat models for Assessing River Ecosystems and Their Application to the Development of River Restoration Strategies. Journal of freshwater ecology (DOI:10.1080/02705060.2017.1371088).
[20] Yao W, Chen Y. (2017), Canyon Dam operation effects on rainbow trout habitat and population status. Polish Journal Environmental studies. (DOI: 10.15244/pjoes/74366)
[19] Yao W, Zhao T, Chen Y, Zhang W, et al. (2017), Habitat evaluation model for ecologically successful lake restoration. Lake and reservoir management. (DOI:10.1080/10402381.2017.1336739).
[18] Yao W, Liu H, Chen Y, Zhang W, et al. (2017), simulation spawning and juvenile rainbow trout (Oncorhynchus mykiss) habitat in Colorado river based on high-flow effects. (DOI:10.3390/w9020150).
[17] Yao, W., (2016) Application of ecohydraulic model on hydraulic and water resources engineering (ISSN 1437-3513; ISBN 978-3-943683-11-0) (独著).
[16] Wenyi Zhang, Yao W*, Linkai Li, Qian Zhang (2016) Using an eco-hydrodynamic model to simulate the impact of Trunk Dam construction on Kraal River fish habitat and community. International Journal of Environmental Research 10(2), 227-236..
[15] Zhang, W, Di, Zhong, Yao W*, Li, L. (2016) Optimization the operation of hydraulic dam for ecological flow requirement of You-Shui River due to the construction of hydropower stations. lake and reservoir management, 32(1), 1-12.
[14] Yao, W*., & Rutschmann, P. (2015). Three high flow experiment releases from Glen Canyon Dam on rainbow trout and flannelmouth sucker habitat in Colorado River. Ecological Engineering, 75, 278-290.
[13] Yao, W*., Rutschmann, P., & Bamal, S. (2014). Modeling of River Velocity, Temperature, Bed Deformation and its Effects on Rainbow Trout (Oncorhynchus mykiss) Habitat in Lees Ferry, Colorado River. International Journal of Environmental Research, 8(4), 887-896.
[12] Yao, W*., & Rutschmann, P. (2014). Use of a self-propelled, fish-shaped, computer model to study the effects of shape and tail-beat frequency on torque and velocity in salmon-shaped fish. Marine and Freshwater Behaviour and Physiology, 47(3), 161-172.
[11] Nguyen, T.T., Yao, W., Ma, X, Fan, H. (2012) Clustering Algorithm and Hopfield Neural Network Used to Design Looped Network. Yellow River, Vol.34, No. 5.
[10] Hu, J., Ma, X., Yao, W, Wang, Z., Yin, J. (2012) The design of irrigation networks based on Kruskal Algorithm. China Rural Water and Hydropower. Vol. 2.
[09] Fan, H., Ma, X., Wang, X., Yao, W., Ren, B. (2011) A Numerical Simulation of Infiltration Characteristics in Film Slit Irrigation and Research on Its Simpified Model. China Rural Water and Hydropower. Vol. 1.
[08] Yao, W., Ma. X., Wang, X., Fan, H. (2010) Loop-type Pipe Networks Design Based on Adaptive Genetic Algorithm. Journal of Irrigation and Drainage. Vol.29, No. 4.
[07] Yao, W., Bamal, Sudeep; Rutschmann, Peter (2014) Simulating High-Flow Effects (HFE) on river deformation and rainbow trout (Oncorhynchus mykiss) habitat. –pp. 2471-2476, ISBN 978-1-138-02674-2
[06] Yao, W., Kumar, Vaibhav; Rutschmann, Peter (2014) Simulating dam effects on river deformation and rainbow trout (Oncorhynchus mykiss) population number.pp. 2477-2483, ISBN 978-1-138-02674-2
[05] Yao, W., Bui, Minh Duc; Rutschmann Peter: Application of habitat and population modeling in river management. – In Internationales Symposium Wasser- und Flussbau im Alpenraum 25.-27. , S. 207 – 216.
[04] Rutschmann, Peter, Bui, Minh-Duc, Abdelaziz Shokry, Yao, W, Rutschmann, Benjamin, Geiger Franz. (2014) Ökologische Modellierungen – drei Fallbeispiele.37. Dresdner Wasserbaukolloquium 2014„Simulationsverfahren und Modelle für Wasserbau und Wasserwirtschaft“ (German).
[03] Rutschmann, P., Bui, M. D., Abdelaziz, S., Yao, W., Rutschmann, B., & Geiger, F. (2014) Ökologische Modellierungen–drei Fallbeispiele. (German)
[02] Rutschmann, Peter; Cuchet, Mathilde; Geiger, Franz; Abdelaziz, Shokry; Yao, W. (2013) Wasserkraft und Ökologie – ein hybrider Ansatz. – In: Symposium Wasserkraft AGAW/SWV mit Hauptversammlung. (German)
[01] Yao, W., Ma, X. Y., Li, J., & Parkes, M. (2011). Simulation of point source wetting pattern of subsurface drip irrigation. Irrigation Science, 29(4), 331-339.
会议论文及特邀报告
[16] Yao, Weiwei (2021) River regulation , restoration and fish management solutions. The 2nd International Symposium of Water Disaster Mitigation and Water Environment Regulation July 7-9, 2021, Chengdu, China.
[15] Yao, Weiwei, David Zhu, Pengcheng Li (2020) Fish entrainment modelling in the forebay of a reservoir. NSERC Meeting, March, Vancouver, Canada.
[14] Yao, Weiwei, Pengcheng Li, Rajib (2019) Fish entrainment modelling study, Noverber, Alberta, Canada.
[13] Yao, Weiwei, Yuansheng Chen, Xiaoyi Ma, Xiaobin Li (2018). The spillway design for the dam’s height over 300 meters. River flow 2018
[12] Yao, Weiwei, Yuansheng Chen, Xiaoyi Ma (2018). The ecological status changes due to the dam construction effects: A case study of karst water areas, China. 12th International symposium on Ecohydraulics.
[11] Yao, Weiwei, Yuansheng Chen, Xiaoyi Ma (2018). Using a coupled eco-hydrodynamic model to predict river habitat changes for river restoration strategy. 12th International symposium on Ecohydraulics.
[10] Yu, Guoan; Li Zhiwei., Huang, Heqing; Yao, Weiwei (2018). Effects of riparian vegetation on development of meandering channel in Tarim River, Northwest China. River flow 2018.
[09] Yao, Weiwei; Bui, Minh Duc; Rutschmann Peter(2016). Applying habitat and population model for European grayling (Thymallus thymallus) in Aare River. wasserbau-symposium. S527-542.
[08] Rutschmann, Peter, Bui, Minh-Duc, Abdelaziz Shokry, Yao, Weiwei, Rutschmann, Benjamin, Geiger Franz. (2014) Ökologische Modellierungen – drei Fallbeispiele, 37. Dresdner Wasserbaukolloquium 2014„Simulationsverfahren und Modelle für Wasserbau und Wasserwirtschaft“ (German).
[07] Yao, Weiwei; Bui, Minh Duc; Rutschmann, Peter (2014). Hydraulic modeling of the effects of glen canyon dam operations on larva rainbow trout habitat in the colorado river. the 3rd IAHR Europe Congress, pp. 17-26.
[06] Yao, Weiwei; Bui, Minh Duc; Rutschmann Peter(2014). Application of habitat and population modeling in river management. – In Internationales Symposium Wasser- und Flussbau im Alpenraum 25.-27. , S. 207 – 216.
[05] Yao Weiwei, Bamal Sudeep, Rutschmann Peter(2014). Simulating High-Flow Effects (HFE) on River deformation and rainbow trout (Oncorhynchus mykiss) habitat. Riverflow 2014, pp2471-2476.
[04] Yao Weiwei, Kumar Vaibhav, Rutschmann Peter(2014). Simulating dam effects on river deformation and rainbow trout (Oncorhynchus mykiss) population number. Riverflow 2014, pp2477-2483.
[03] Yao Weiwei(2014). Simulation of Fish Locomotion and Energy Expending. 35Th IAHR, P2600-2610, Chengdu, China
[02] Rutschmann, Peter; Cuchet, Mathilde; Geiger, Franz; Abdelaziz, Shokry; Yao, Weiwei (2013) Wasserkraft und Ökologie – ein hybrider Ansatz. – In: Symposium Wasserkraft AGAW/SWV mit Hauptversammlung. (German).
[01] Yao, Weiwei; Ma, Xiaoyi.(2012). Canal water distribution using genetic algorithm– In: Water infinitely deformable but still limited. Proc. of the 2nd IAHR European Congress, 27. – 29.6.2012, ISBN 978-3-943683-03-5 IAHR.
专利及软件著作权
[90] 软件名称:HYDRODYNAMIC SIMULATION ANALYSIS SOFTWARE. 授权号:1188751(排名2/2,软件所有权人)
[89] 软件名称:ECOHYDRAULIC TOOLS FOR RIVER RESTORATION EVALUATION. 授权号:1188749(排名2/2,软件所有权人)
[88] 软件名称:MODELING AND SIMULATION OF POINT SOURCE DIFFUSION TRANSPORT PROCESS IN RIVERS. 授权号:1188750(排名2/2,软件所有权人)
[87] 软件名称:SOFTWARE: ECO-ENVIRONMENT ASSESSMENT MODELLING SYSTEM FOR THE UPPER STREAM OF LANCANG RIVER. 授权号:1168108(排名1/5)
[86] 软件名称:SOFTWARE: EXPERT MODELLING SYSTEM FOR SPAWNING, FEEDING AND OVERWINTER SITES RESTORATION FOR THE UPPER STREAM OF LANCANG RIVER. 授权号:1168104(排名1/4)
[85] 软件名称:SOFTWARE: FISH HABITAT AND POPULATION DISTRIBUTION MODELLING SYSTEM IN THE UPPER STREAM FOR LANCANG RIVER. 授权号:1168106(排名1/4)
[84] 软件名称:AN INTEGRATED RIVER PHYSICAL ECOLOGICAL MODELLING SYSTEM FOR RIVER BASIN MANAGEMENT. 授权号:1168123(排名1/3)
[83] 软件名称:AN AUXILIARY MODELLING SYSTEM FOR RIVER ECOLOGICAL RECONSTRUCTION. 授权号:1168122(排名1/3)
[82] 软件名称:HYDROPOWER, ECOHYDROLOGY, AND FISH ECOLOGICAL STATUS EVALUATION AND STOCKS SYSTEM. 授权号:1168113(排名1/3)
[81] 软件名称:RIVER AND FISH ECOLOGICAL CONTINUITY AND CONNECTIVITY ASSESSMENT MODELLING SYSTEM. 授权号:1168112(排名1/3)
[80] 软件名称:FULL LIFE CYCLE MODELLING SYSTEM FRAMEWORK FOR HYDROPOWER DEVELOPMENT AND FRESHWATER FISH ECOLOGICAL ASSEMBLAGES. 授权号:1168111(排名2/3)
[79] 软件名称:HYDROPOWER ECOLOGICAL AND ENVIRONMENTAL FLOWS SIMULATION SYSTEM. 授权号:1168109(排名1/3)
[78] 软件名称:RESERVOIR LOW TEMPERATURE WATER INFLUENCE MODELLING SYSTEM. 授权号:1168107(排名1/3)
[77] 软件名称:SOFTWARE: FULL LIFE CYCLE ECO - HYDRAULIC MODELLING SYSTEM FOR THE UPPER STREAM OF LANCANG RIVER. 授权号:1168105(排名1/3)
[76] 软件名称:SOFTWARE: WATER OPTIMIZATION MODELLING SYSTEM FOR IRRIGATION CANAL SYSTEM IN SOUTHERN TIBET. 授权号:1168102(排名1/3)
[75] 软件名称:MODELLING CRITERIA FOR ENHANCING TECHNICAL SOLUTIONS FOR HYDROPOWER PLANTS. 授权号:1168121(排名1/3)
[74] 软件名称:EXPERT MODELLING SYSTEM FOR FISH SWIMMING BEHAVIOR, FISHWAY, SPILLWAY AND HYDROPOWER INTAKES. 授权号:1168114(排名1/2)
[73] 软件名称:FISH POPULATION AND DENSITY EVALUATING INFORMATION SYSTEM. 授权号:1167134(排名1/2)
[72] 软件名称:SOFTWARE: NATURAL RIVER RESTORATION ASSESSMENT SYSTEM. 授权号:1185011(排名1/2)
[71] 软件名称:SOFTWARE: ECOLOGICAL CONSIDERATIONS FOR ASSESSING DAM REMOVAL ALTERNATIVES FOR RIVER RESTORATION. 授权号:1185008(排名1/2)
[70] 软件名称:SOFTWARE: SENSOR NETWORK STRATEGY FOR FISH VISUALIZATION. 授权号:1185006(排名1/2)
[69] 软件名称:SOFTWARE: INSTREAM FLOW MODELS FOR RIVER RESTORATION PLANNING. 授权号:1185005(排名1/2)
[68] 软件名称:SOFTWARE: RIVER RESTORATION TOOLS: ASSESSING THE UNCERTAINTY IN RESTORING PHYSICAL HABITAT. 授权号:1185003(排名1/2)
[67] 软件名称:SOFTWARE: DESIGNING SYSTEM TO SUPPORT UPSTREAM MIGRATING FISH. 授权号:1185002(排名1/2)
[66] 软件名称:SOFTWARE: A RIVER MANAGEMENT TOOLS: BASED ON ECOLOGICAL FLOW. 授权号:1185001(排名1/2)
[65] 软件名称:SOFTWARE: PREDICTING FISH ENTRAINMENT IN RESERVOIR. 授权号:1185000(排名1/2)
[64] 软件名称:SOFTWARE: SIMULATING HYDROPOWER INTAKE-INDUCED FISH ENTRAINMENT. 授权号:1184999(排名1/2)
[63] 软件名称:SOFTWARE: SPAWNING SITES HABITAT DEGRADATION. 授权号:1184998(排名1/2)
[62] 软件名称:SOFTWARE: SPAWNING SITES RESTORATION. 授权号:1184996(排名1/2)
[61] 软件名称:SOFTWARE: ECOLOGICAL EFFECTS OF RIVER REGULATION IN PHYSICAL HABITAT AND FISH POPULATION. 授权号:1184995(排名1/2)
[60] 软件名称:SOFTWARE: ASSESSING RIVER HABITAT AND FISH RESPONSES TO FLOW REGULATION. 授权号:1184994(排名1/2)
[59] 软件名称:SOFTWARE: HYDRODYNAMICS OF FISH HABITATS IN NATURAL STREAMS.授权号:1184993(排名1/2)
[58] 软件名称:SOFTWARE: HYDRODYNAMICS OF FISH AT HYDRAULIC STRUCTURES. 授权号:1184990(排名1/2)
[57] 软件名称:SOFTWARE: ECO-HYDRAULICS MODEL FOR STREAM AND RIVER RESTORATION. 授权号:1184988(排名1/2)
[56] 软件名称:SOFTWARE: HABITAT SIMULATING FOR DAM REMOVALS AND RIVER RESTORATION. 授权号:1184985(排名1/2)
[55] 软件名称:SOFTWARE: THE RIVER RESTORATION EFFECTS ASSESSMENT. 授权号:1184984(排名1/2)
[54] 软件名称:SOFTWARE: HYDRODYNAMICS OF SWIMMING FISH: FISH POPULATION. 授权号:1183973(排名1/2)
[53] 软件名称:SOFTWARE: SIMULATING THE FISH HURT RATE DURING THE HYDROPOWER OPERATION. 授权号:1183972(排名1/2)
[52] 软件名称:SOFTWARE: QUANTIFICATION OF FISH RESPONSE TO DIFFERENT FLOW CONDITIONS. 授权号:1183970(排名1/2)
[51] 软件名称:SOFTWARE: QUANTIFICATION OF FISH ENTRAINMENT RATE: DOWNSTREAM MIGRATION. 授权号:1183965(排名1/2)
[50] 软件名称:SOFTWARE: REGIONAL ECOLOGICAL SIMULATION SYSTEM FOR RIVER VALLEYS IN SOUTHERN TIBET. 授权号:1168110(排名1/2)
[49] 软件名称:HIGH DEBRIS FLOW TRANSPORT MODEL: SPECIFIC TO SHORT TERM RIVER SYSTEM ECOLOGICAL IMPACT. 授权号:1167182(排名1/2)
[48] 软件名称:RIVER HABITAT DEGRADATION ASSESSMENT MODELLING SYSTEM. 授权号:1167181(排名1/2)
[47] 软件名称:RIVER FISH SPAWNING SITE ECO-HYDRAULIC EVALUATION AND RESTORATION MODELLING SYSTEM. 授权号:1167139(排名1/2)
[46] 软件名称:SOFTWARE: RIVER RESTORATION, HABITAT HETEROGENEITY AND BIODIVERSITY SIMULATION SYSTEM. 授权号:1185012(排名1/2)
[45] 软件名称:SOFTWARE: ECOLOGICAL CONNECTIVITY IN ALLUVIAL RIVER ECOSYSTEMS AND ITS DISRUPTION BY FLOW REGULATION. 授权号:1185010(排名1/2)
[44] 软件名称:SOFTWARE: DATA ANALYSIS TOOLS FOR THE EVALUATION OF FISH MIGRATION PATHS. 授权号:1185009(排名1/2)
[43] 软件名称:SOFTWARE: DESIGNING SYSTEM TO SUPPORT DOWNSTREAM MIGRATING FISH. 授权号:1185007(排名1/2)
[42] 软件名称:SOFTWARE: STREAMFLOW REGULATION AND FISH COMMUNITY STRUCTURE. 授权号:1185004(排名1/2)
[41] 软件名称:SOFTWARE: RIVER HABITAT RESTORATION MEASUREMENTS EVALUATION TOOLS. 授权号:1184997(排名1/2)
[40] 软件名称:SOFTWARE: FLOW-SEDIMENT-HABITAT-POPULATION RELATIONS: RIVER REGULATION EFFECTS ON NATIVE FISH ABUNDANCE. 授权号:1184992(排名1/2)
[39] 软件名称:SOFTWARE: RIVER REGULATION AND FISH COMMUNITIES IN NATURAL RIVER. 授权号:1184991(排名1/2)
[38] 软件名称:SOFTWARE: SWIMMING EFFICIENCY OF MIGRATORY FISH SPECIES. 授权号:1184989(排名1/2)
[37] 软件名称:SOFTWARE: LINKING TWO MODELS: TOWARDS AN ECO-HYDRAULIC APPROACH TO SUSTAINABLE RIVER RESTORATION. 授权号:1184987(排名1/2)
[36] 软件名称:SOFTWARE: A MODEL TO INTEGRATE HABITAT AND POPULATION STATUS IN RIVER RESTORATION. 授权号:1184986(排名1/2)
[35] 软件名称:SOFTWARE: EVALUATION OF RIVER RESTORATION BY DAM CONSTRUCTION. 授权号:1184983(排名1/2)
[34] 软件名称:SOFTWARE: SIMULATING OF A RIVER RESTORATION PROJECT IN NATURAL RIVER. 授权号:1184982(排名1/2)
[33] 软件名称:SOFTWARE: MODELING HABITAT CONNECTIVITY IN STREAMS FOR RIVER RESTORATION. 授权号:1184981(排名1/2)
[32] 软件名称:SOFTWARE: HYDRODYNAMICS OF SWIMMING FISH: A SINGLE FISH. 授权号:1183971(排名1/2)
[31] 软件名称:RIVER HYDRAULIC AND ECOLOGICAL MODELLING FRAMEWORK. 授权号:1183969(排名1/2)
[30] 软件名称:SOFTWARE: BIOMARKER INTEGRATED ANALYSIS OF FISH SWIMMING BEHAVIORS. 授权号:1183968(排名1/2)
[29] 软件名称:SOFTWARE: QUANTIFICATION OF HABITAT ALTERATIONS ON THE FISH COMMUNITY. 授权号:1183967(排名1/2)
[28] 软件名称:SOFTWARE: QUANTIFICATION OF FISH MIGRATION SUCCESS RATE. 授权号:1183964(排名1/2)
[27] 软件名称:DEBRIS FLOW LONG-TERM DYNAMIC TRANSPORT MODELLING SYSTEM. 授权号:1168103(排名1/2)
[26] 软件名称:FISH PASSAGE CAPACITY AND FISH ENERGY CONSUMPTION EVALUATING SYSTEM. 授权号:1167146(排名1/2)
[25] 软件名称:AN AUXILIARY MODEL SYSTEM FOR FISH PASSAGE IN HYDROPOWER STATION. 授权号:1167136(排名1/2)
[24] 软件名称:A FISH HABITAT AND POPULATION MAP GENERATION SYSTEM: HABITAT STATUS, POPULATION NUMBER, DENSITY AND AGE STRUCTURE DISTRIBUTION IN RIVERS AND STREAMS. 授权号:1167183(排名1/1)
[23] 软件名称:RIVER HYDROMORPHOLOGICAL AND RIVER ECO-HYDRAULIC MANAGEMENT SYSTEM. 授权号:1167148(排名1/1)
[22] 软件名称:RIVER FISH HABITAT MODELLING: WITH HYDRAULIC PARAMETER TRACKING. 授权号:1167147(排名1/1)
[21] 软件名称:INDIVIDUAL FISH BEHAVIOR EVALUATING INFORMATION SYSTEM. 授权号:1167030(排名1/1)
[20] 软件名称:RIVER ECO-HYDRAULIC MODELLING SYSTEM. 授权号:1167029(排名1/1)
[19] 软件名称:RIVER HABITAT RESTORATION MODELLING SYSTEMS: BASED ON PHYSICAL STRATEGY. 授权号:1167027(排名1/1)
[18] 软件名称:RIVER TOTAL DISSOLVED GAS (TDG) CONCENTRATION PREDICTING SYSTEM授权号:1183966(排名1/2)
[17] 软件名称:RIVER HABITAT RESTORATION MODELLING SYSTEMS: BASED ON FISH STOCKING STRATEGY. 授权号:1167028(排名1/1)
[16] 软件名称:FISH ENTRAINMENT MODELLING SYSTEM IN HYDROPOWER STATION授权号:1167026(排名1/1)
[15] 软件名称:FISH AGE-STRUCTURE POPULATION MODELLING SYSTEM. 授权号:1166899(排名1/1)
[14] 专利名称:一种消能柱式鱼道结构。 授权号:ZL 2015 20981699.4 (排名2/2)
[13] 专利名称:一种漫水桥结构。授权号:ZL2016 2 0378159.1 (排名2/2)
[12] 软件名称:水电建设鱼道过鱼能力及鱼类能量消耗测试系统。授权号:2017SR213982(排名1/1)。
[11] 软件名称:通用型河流生态承载力评价系统。授权号:2017SR538098 (排名1/1)。
[10] 软件名称:河流水沙生态综合管理系统。授权号:2017SR526328(排名1/1)。
[09] 软件名称:河流鱼类栖息地模型系统。授权号:2017SR538076(排名1/1)。
[08] 软件名称:河流生态栖息地修复评测系统。授权号:2017SR526840(排名1/1)。
[07] 软件名称:河流生态承载力修复评测系统。授权号:2017SR526315(排名第1/1)。
[06] 软件名称:河流鱼类种群动态变化模拟系统。授权号:2017SR538088(排名1/1)。
[05] 软件名称:河流鱼类生态补偿机制模型系统。授权号:2017SR526338(排名1/1)。
[04] 软件名称:河流产卵场生态栖息地评测系统。授权号:2017SR527047(排名1/1)。
[03] 软件名称:水库低温水排放对下游河流鱼类影响范围模型系统。授权号:2017SR532005(排名1/1)。
[02] 软件名称:高坝泄洪雾化范围模拟系统。授权号:2017SR537999(排名1/1)。
[01] 软件名称:鱼道入口最佳设计方案及位置确定系统:基于鱼类生态适宜度确定范围。授权号:2017SR532034(排名1/1)。
担任的部分审稿人
01. River research and application (ISSN: 1535-1467);
02. Engineering Applications of Computational Fluid Mechanic (ISSN 1994-2060);
03. Journal of Agricultural Science and Technology (JAST) (ISSN: 1680-7073);
04. International Journal of Environmental Research (ISSN: 1735-6865);
05. Journal of Irrigation and Drainage Engineering (ISSN: 0733-9437);
06. Lake and Resevoir Management (ISSN: 0743-8141)
07. International Journal of Sediment Research (ISSN:1001-6279)
08. Computers & Geosciences (ISSN: 0098 - 3004)
09. Journal of Ecohydraulics (ISSN: 2470-5357)
10. Journal of Water Pollution and Control:
11.Journal of primates;
12. Journal of Ecohydraulics
13. IAHR European Congress
14. Asian Fisheries Science Journal
15. Ecological Modelling
16. Ecological Engineering
17. Hydrological Processes
18. Global Ecology and Conservation
19. Irrigation and drainage
20. Scientific report
21. Ecological informatics
22. Global Ecology and Conservation
23 Science of total environment
24 Journal of natural conservation
25 Journal of hydrology
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课题组接收本科生进行:暑期科研项目、课余科研项目、毕业设计项目。
方向灵活,也可远程进行(暑期、课余项目)。确保科研成果归属。
课题方向选择:鼓励学生自己提出感兴趣的课题,或参考课题组研究兴趣。
感兴趣的同学,请将以下信息发送至本人邮箱(yaoww@scu.edu.cn; science_research@126.com)。邮件主题请注明:“姓名+ 暑期/课余/毕业设计”。
1. 个人简介,包括:专业/年级、学校/学院、英语四/六级成绩、学籍/在读证明、成绩单(纸质版扫描或电子版)
2. 请列出2-3个感兴趣的课题方向。
期待你们的到来。
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课题组接收研究生和博士学生进行访问研究项目、实习项目、联合培养项目、final-year research project、gap-year project等形式的长、短期研究项目。课题组将提供课题以及所需的软件、技能培训,并由课题组老师提供一对一指导,确保学生在疫情期间顺利开展所需的科研项目。
项目内容与时长可依照学生需求和发展拟定。培养方式与目标与本课题组研究生一致,并确保研究成果归属。
课题组尤其注重对学生科研与创新能力的培养,有意者请将个人简历和情况说明发送至本人邮箱(yaoww@scu.edu.cn;science_research@126.com)
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山区河流保护与治理全国重点实验室:
https://skhl.scu.edu.cn/dwjs1/zg/yww.htm
Weiwei YAO, Dr, Professor, He is a specialist in the eco-hydraulic modelling, river and fish restoration, and fish migration. He has worked mainly in the areas of eco-hydraulic, hydraulic engineering and water engineering.
Email: yaoww@scu.edu.cn; science_research@126.com
地址:四川省成都市一环路南一段24号 电话:(028)85401154 四川大学水利水电学院 . 版权所有
备案号:蜀ICP备05006382号 技术支持:四川天汇科技