Optimizing the operation of the Qingshitan Reservoir in the Lijiang River for multiple human interests and quasi-natural flow maintenance 被引量：2

Optimizing the operation of the Qingshitan Reservoir in the Lijiang River for multiple human interests and quasi-natural flow maintenance

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摘要 For reservoir operation, maintaining a quasi-natural flow regime can benefit river ecosystems, but may sacrifice human interests. This study took the Qingshitan Reservoir in the Lijiang River as a case, and developed an optimization model to explore a trade-off solution between social-economic interests and nature flow maintenance on a monthly base. The objective function considered irrigation, cruise navigation and water supply aspects. An index of flow alteration degree was proposed to measure the difference between the regulated discharge and the natural flow. The index was then used as an additional constraint in the model besides the conventional constraints on reservoir safety. During model solving, different criteria were applied to the index, representing various degrees of alteration of the natural flow regime in the river. Through the model, a relationship between social-economic interests and flow alteration degree was established. Finally, a trade-off solution of the reservoir operation was defined that led to a favorable social-economic benefit at an acceptable alteration of the natural flow. For reservoir operation, maintaining a quasi-natural flow regime can benefit river ecosystems, but may sacrifice human interests. This study took the Qingshitan Reservoir in the Lijiang River as a case, and developed an optimization model to explore a trade-off solution between social-economic interests and nature flow maintenance on a monthly base. The objective function considered irrigation, cruise navigation and water supply aspects. An index of flow alteration degree was proposed to measure the difference between the regulated discharge and the natural flow. The index was then used as an additional constraint in the model besides the conventional constraints on reservoir safety. During model solving, different criteria were applied to the index, representing various degrees of alteration of the natural flow regime in the river. Through the model, a relationship between social-economic interests and flow alteration degree was established. Finally, a trade-off solution of the reservoir operation was defined that led to a favorable social-economic benefit at an acceptable alteration of the natural flow.

作者 Qiuwen Chen Duan Chen Ruiguang Han Ruonan Li Jinfeng Ma Koen Blanckaert

机构地区 Research Center for Eco-Environmental Sciences Three Gorges University Changjiang River Scientific Research Institute Laboratory of Hydraulic Constructions Haihe Water Conservancy Commission

出处《Journal of Environmental Sciences》 SCIE EI CAS CSCD 2012年第11期1923-1928,共6页 环境科学学报（英文版）

基金 supported by the National Natural Science Foundation of China (No.50920105907) the National Basic Research Program (973) of (No.2010CB429004) the100 Talent Program of Chinese Academy of Sciences (No.A1049) the Chutian Scholarship (No.KJ2010B002)

关键词 reservoir operation optimization model flow alteration trade-off solution reservoir operation optimization model flow alteration trade-off solution

分类号 TV87 [水利工程—水利水电工程] X22 [环境科学与工程—环境科学]

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2012年第11期

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