作 者:Ren, KangHuang, ShengzhiHuang, QiangWang, HaoLeng, GuoyongCheng, LinyinFang, WeiLi, Pei
作者机构:State Key Laboratory of Eco-hydraulics in Northwest Arid Region of ChinaXi'an University of Technology Xi'an710048 ChinaState Key Laboratory of Simulation and Regulation of Water Cycle in River BasinChina Institute of Water Resources and Hydropower Research Beijing100038 ChinaKey Laboratory of Water Cycle and Related Land Surface ProcessesInstitute of Geographic Sciences and Natural Resources Research Chinese Academy of Sciences Beijing100101 ChinaDepartment of GeosciencesUniversity of Arkansas FayettevilleAR72701 United States
出 版 物:《Journal of Cleaner Production》
年 卷 期:2019年第231卷第Sep.10期
页 面:406-418
核心收录:
中图分类:X[环境科学、安全科学]
学科分类:08[工学]
基 金:This research is jointly funded by the National Key Research and Development Program of China ( 2017YFC0405900 )the National Natural Science Foundation of China ( 51709221 )the Planning Project of Science and Technology of Water Resources of Shaanxi ( 2017slkj-16 and 2017slkj-19 )the Open Research Fund of State Key Laboratory of Simulation and Regulation of Water Cycle in River Basin ( China Institute of Water Resources and Hydropower Research ) ( IWHR-SKL-KF201803 )and the Belt and Road Special Foundation of the State Key Laboratory of Hydrology-Water Resources andHydraulic Engineering ( 2018490711 ).
主 题:Reservoirs (water)Constrained optimizationEconomic and social effectsEcosystemsHydrogeologyRiversSustainable developmentCuckoo search algorithmsEcological environmentsFeasible regionsHydrological alterationsInterbasin water transferNatural flow regimeWater resources managementWater resources utilizations
摘 要:Although construction of reservoirs and dams is one of the most common approaches to satisfy water demand and alleviate water scarcity, this approach severely affects river ecosystems. The most direct impact of human activities on rivers, for instance, regulating river can lead to degraded riverine ecosystems as part of the hydrological alteration. This paper determines the available ratio of water resource of natural or semi-natural rivers for ecological feasible regions using a method that transcends the traditional perspective of designed environmental flow. Our framework involves a modified percent of flow approach to identify the ecological feasible region of water resources utilization, which sequentially acts as a constraint for a reservoir optimization model based on the Cuckoo Search algorithm to obtain an optimal diversion process. Indicators of the hydrological alteration statistical method and the histogram matching approach are used to examine the framework s performance. The Han to Wei inter-basin water transfer project of China is selected as a case study. Results indicate that: (1) the allowable diversion rate with this modified percent of flow approach is more effective for reducing interference of diversion on the ecosystems than the conventional planned diversion rule; water demand, however, cannot be satisfied by the allowable diversion rate; (2) ecological feasible region is an accessible constraint for reservoir operation model, and the optimal diversion rate of such model is a trade-off output between the human water demand and the riverine ecosystems protection; and (3) increased allowable diversion rates alter flow indicators including the February flow, 30-day minimum flow, and low pulse count more appreciably than does the optimal diversion rate. This study provides key insights on how to achieve a trade-off between human water demand and riverine ecosystems protection, therefore contributing to the local sustainable development of social economy and ecological environment. © 2019 Else
