高级检索

      鱼类繁殖期生态约束下水风光储调峰策略研究

      Study on peak-regulation strategies for integrated hydro-wind-solar-storage operation under ecological constraints during fish spawning periods

      • 摘要: 为保护鱼类繁殖,黄河上游水电站需在特定季节实施模拟自然水文情势的生态调度,导致调峰能力受限。以玛尔挡水风光储基地为对象,研究了常规水电站按径流运行时,利用其水库作为下库形成抽水蓄能电站的调峰模式,构建了水风光储联合运行模型,定量评估了不同抽蓄容量对调峰能力和库区水位的影响。结果表明:配置抽水蓄能电站可有效平衡新能源波动,增加抽蓄装机(1 800~4 200 MW)可使系统剩余负荷波动降低40.1%,但同时,作为其下库的常规水库平均日内最大水位变幅增加174.17%,最大水位爬坡率增加60.82%。研究揭示了调峰效益与水位扰动间的权衡关系,并提出了生态约束下的协同调峰策略:常规水电站保持径流运行,抽蓄承担调峰,同时对库区水位变幅设置生态红线,以平衡调峰需求与生态保护。

         

        Abstract: To protect fish reproduction, hydropower stations in the upper reaches of Yellow River are required to implement ecological dispatching that simulates natural hydrological regimes during specific seasons, which limits their peak shaving capacity. Taking the Maerdang hydro-wind-solar-storage base as the research object, this paper investigated a peak shaving mode that took the reservoir of run-of-river conventional hydropower station as the lower reservoir to build a pumped storage power station. A joint operation model for the hydro-wind-solar-storage system was constructed to quantitatively evaluate the impact of different pumped storage capacities on peak shaving performance and reservoir water levels. The results indicated that the configuration of a pumped storage power station can effectively balance renewable energy fluctuations. Increasing the pumped storage installed capacity (from 1 800 MW to 4 200 MW) reduced the system′s residual load fluctuation by 40.1%. However, the average daily maximum water level fluctuation of the conventional reservoir increased by 174.17%, and the maximum water level ramp rate increased by 60. 82%. This study quantitatively revealed the trade-off between peak shaving benefits and water level disturbances and proposed a coordinated peak shaving strategy under ecological constraints. The conventional hydropower station maintained run-of-river operation, the pumped storage station undertook peak shaving tasks, and ecological red lines were established for reservoir water level fluctuations to balance peak shaving demands with ecological protection.

         

      /

      返回文章
      返回