Page 109 - 2022年第53卷第3期
P. 109
mental systems undergoing change[J]. Environmental Modelling & Software,2013,42:55-71 .
[ 18] KASPRZYK J R,REED P M,KIRSCH B R,et al . Managing population and drought risks using many-objective
water portfolio planning under uncertainty[J]. Water Resources Research,2009,45(12):W12401 .
[ 19] 覃晖 . 流域梯级电站群多目标联合优化调度与多属性风险决策[D]. 武汉:华中科技大学,2011 .
[ 20] 赵梦龙 . 黑河干流梯级水电站水库多目标优化调度研究[D]. 西安:西安理工大学,2019 .
[ 21] 陈守煜,袁晶瑄,郭瑜 . 可变模糊决策理论及其在水库防洪调度决策中应用[J]. 大连理工大学学报,2008
(2):259-262 .
[ 22] HASHIMOTO T,STEDINGER J R,LOUCKS D P . Reliability,resiliency,and vulnerability criteria for water re⁃
source system[J]. Water Resources Research,1982,18(1):14-20 .
[ 23] MCMAHON T A,ADELOYE A J,ZHOU S . Understanding performance measures of reservoirs[J]. Journal of
Hydrology,2006,324(1/4):359-382 .
[ 24] REN K,HUANG S,HUANG Q,et al . Assessing the reliability,resilience and vulnerability of water supply sys⁃
tem under multiple uncertain sources[J]. Journal of Cleaner Production,2020,252:119806 .
[ 25] DIAKOULAKI D,G M,PAPAYANNAKIS L . Determining objective weights in multiple criteria problems:the
critic method[J]. Computers & Operations Research,1995,22(7):763-770 .
[ 26] 陈华友 . 多属性决策中基于离差最大化的组合赋权方法[J]. 系统工程与电子技术,2004(2):194-197 .
[ 27] TURNER S W D,BENNETT J C,ROBERTSON D E,et al . Complex relationship between seasonal stream flow
forecast skill and value in reservoir operations[J] . Hydrology and Earth System Sciences,2017,21(9):
4841-4859 .
Research on the design and control of grading
and staged drought-limited water level for reservoir
LUO Chengxin ,DING Wei ,ZHANG Chi ,YAN Denghua ,
1
2
1
1
2 1
YAN Ziqi ,ZHOU Huicheng
(1. School of Hydraulic Engineering, Dalian University of Technology,Dalian 116024,China;
2. Department of Water Resources, China Institute of Water Resources and Hydropower Research,Beijing 100038,China)
Abstract: The reasonable setting and scientific application of the drought-limited water level (DLWL) of
reservoir is of great importance for the safe and efficient use of water resources. Existing researches does
not fully consider water supply guarantee rate and shortage ratio requirements when determining the DLWL,
and the use of optimization methods makes it difficult to apply. To conquer these problems, firstly grading
and staged DLWL is defined. Then a multi-objective optimization method that maximize water supply guaran⁃
tee rate and minimize water supply shortage ratio of all water users is proposed. Based on the optimization
results, the annual variation law of DLWL is analyzed and the critical period in which DLWL has the
greatest influence on water supply is explored. Finally, a simple method to calculate DLWL is proposed,
which is fast, convenient and suitable for engineering application. The results show that the annual varia⁃
tion of the DLWL is consistent with the distribution of water consumption during the year,and the drought
warning water level during the high water use season and the drought preservation water level during the
dry season have a great impact on water supply,which helps to adjust originally determined DLWL in the
simple method. If the DLWL is not set or set according to the existing optimization method, serious water
shortages occur. When the DLWL is set by the optimization method and simple method proposed in this ar⁃
ticle, the reservoir water supply system properly limits water supply in advance and avoid the occurrence
of subsequent serious water shortage events. It makes both probability and severity of system water shortage
events meet requirements,and improves drought resistance. This study provides an optimization method and
a scientific and convenient method for the water conservancy department to formulate reservoir DLWL and
guide reservoir drought resistant operation.
Keywords: drought-limited water level; water supply operation; water supply guarantee rate; water short⁃
age ratio;drought mitigation
(责任编辑:耿庆斋)
— 357 —
