个人信息Personal Information
教授
博士生导师
硕士生导师
性别:男
毕业院校:大连理工大学
学位:博士
所在单位:水利工程系
学科:水文学及水资源. 工程管理
办公地点:实验3#-435
联系方式:电话:13804245837 QQ:2246578293 微信:dutwaterzhou
电子邮箱:hczhou@dlut.edu.cn
A method for implementing the real-time dynamic control of flood-limited water level
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论文类型:期刊论文
发表时间:2017-11-01
发表刊物:ENVIRONMENTAL EARTH SCIENCES
收录刊物:SCIE、EI、Scopus
卷号:76
期号:21
ISSN号:1866-6280
关键字:Reservoir operation; Dynamic control of flood-limited water level; Real-time operation; Hydrological and meteorological forecast
摘要:Many studies have proven that the dynamic control of flood-limited water level (DC-FLWL) is an effective methodology to balance flood control and water conservation for reservoir operations during the flood season. However, these studies have focused on determining the bound of FLWL; few studies have investigated the implementation of real-time DC-FLWL, which actually is the core of DC-FLWL. To implement real-time DC-FLWL, a new method for considering rain forecast is presented in the present study. The proposed method includes two procedures: prerelease and prefill, which constitute the prerelease-refill and the prefill-prerelease schemes. For each scheme, the categorical rain forecast with a lead time of 24 h is used as the trigger for different actions, while hydrological forecast and discharge are used to calculate the action details, including the water level reserved and the amount of discharge water. The method is examined via the operation of the flood event "19960810,'' which occurred in the catchment of the Biliuhe reservoir in China. The results show that although the maximum water level and the maximum discharge of the three schemes have the same value, the water level at the end of both the prerelease-refill and the prefill-prerelease schemes of DC-FLWL is 68.8 and 68.5 m, which are both higher than the planning scheme, i.e., 68.1 m. These findings further confirm the effectiveness of DC-FLWL and also prove that the proposed method is suitable for implementing real-time DC-FLWL.