隧道连通输水多水库运行规律模拟

Khairul Iqbal, Moh Abduh, , Variadi
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引用次数: 0

摘要

多油藏作业规律要求其技术参数的制定具有准确性。这样做是为了防止其中一个储层的操作失败。水转移的概念是管理水资源在接收流域和捐赠流域之间的分配。可转移水的可用性必须优先考虑,以满足供体水库的用水需求。这两个水库的储水量旨在满足水的需求,特别是在受援国。在模拟中,连接隧道的标高是最小用水限制。连网隧洞的位置和容量决定了多水库的运行规律。在两个水库的运行中,Rukoh Tiro水库的相互连接的隧道调水。模拟分三个季节进行,考虑了各流域入水量、水库下游需水量和水库技术条件。三季同时运行的鹿湖水库的模拟结果表明,灌溉需水量的满足率可以达到100%。通过相互连接的隧道的调水过程贯穿全年。该水库运行规则可为多水库运行提供参考,以获得最优的水库运行规则。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Simulation of Multi Reservoir Operation Rules with Interconnected Tunnel and Water Transfer
The multi-reservoir operation rules require accuracy in developing its technical parameters. This is done to prevent operational failure in one of the reservoirs. The water transfer concept is to manage the water resources distribution between the receiving watershed and the donor watershed. The availability of transferable water must be prioritized, meeting the water demand of the donor reservoir. Storage capacity in both reservoirs aims to meet water demand, especially in the recipient. The elevation of the interconnecting tunnel is the minimum limit for water use in simulation. The interconnected tunnels' location and capacity will determine the multi-reservoir's operation rule. The interconnected tunnel in the Rukoh Tiro reservoir transfers water in the operation of the two reservoirs. The simulation is carried out in three seasons, considering the inflow of each watershed, the reservoir's downstream water demand, and the reservoir's technical conditions. The simulation results of the Rukoh Tiro reservoir operated simultaneously in all three seasons show that the fulfillment of irrigation water demand can reach 100% as needed. The water transfer process through interconnected tunnels occurs throughout the year. The reservoir operating rule is expected to be a reference in the multi-reservoir operation to obtain an optimal reservoir operating rule.
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