Timing is everything: Rethinking flexible hydropower operations for the economy and environment

IF 1.7 4区 环境科学与生态学 Q4 ENVIRONMENTAL SCIENCES
Sarah Pfeifle, Katie Kennedy, Richard Palmer
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Abstract

Hydropower facilities can alter river flow regimes, leading to ecological degradation and conflicts between revenue generation and ecological objectives. This study develops a new and unique framework (FREE—Flexible Releases for Economics and the Environment) for hydropower management that uses operational flexibility to balance economic and ecological objectives that are, respectively, maximized through unrestricted hydropeaking and maintaining natural flows. FREE integrates flexibility by permitting reservoir releases to deviate from inflows when power generation is most economically valuable. Operational flexibility is characterized by the magnitude and frequency of deviations from an inflow‐equals‐outflow (IEO) regime and is applied seasonally to reflect varying economic and ecological needs throughout the year. FREE is implemented using an optimization model applied to three hydropeaking facilities on the mainstem Connecticut River that are currently in a relicensing process. Estimated impacts of operational flexibility are quantified on annual and seasonal scales, with economic goals measured by power and revenue, and ecological goals by a proxy measure: the Richard‐Baker flashiness (RBF) index. To explore operational flexibility, two inflow regimes are investigated: existing inflows, which are altered by upstream hydropower operations, and estimated unaltered inflows. FREE was presented to interested parties engaged in the Connecticut River relicensing process, where it was applied in collaborative negotiations designed to develop integrated, dynamic, economically viable, and ecologically supportive hydropower operations. Trade‐offs between estimated revenue generation and RBF, as applicable to these interested parties, were presented along a Pareto frontier.
时机就是一切:重新思考灵活的水电运行对经济和环境的影响
水力发电设施会改变河流水流状态,导致生态退化以及发电收入与生态目标之间的冲突。本研究为水电管理制定了一个新颖独特的框架(FREE--经济与环境的灵活泄放),利用运行灵活性来平衡经济目标和生态目标,这两个目标分别通过不受限制的水力发电和保持自然流量来实现最大化。当发电最具经济价值时,FREE 允许水库的泄洪量偏离流入量,从而整合了灵活性。运行灵活性的特点是偏离 "流入等于流出"(IEO)机制的幅度和频率,并按季节应用,以反映全年不同的经济和生态需求。目前,康涅狄格河干流上的三座水力发电设施正在重新许可过程中,使用优化模型实现了自由运行。运行灵活性的估计影响按年度和季节尺度进行量化,经济目标以功率和收入衡量,生态目标以理查德-贝克闪蒸指数(RBF)作为替代衡量标准。为了探索运行灵活性,对两种流入量机制进行了调查:受上游水电运行影响而发生变化的现有流入量,以及未发生变化的估计流入量。在康涅狄格河重新许可过程中,FREE 被提交给相关各方,并应用于旨在开发综合、动态、经济可行和生态支持性水电运营的合作谈判中。适用于这些相关方的估计创收和 RBF 之间的权衡,沿着帕累托前沿进行了展示。
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来源期刊
River Research and Applications
River Research and Applications 环境科学-环境科学
CiteScore
4.60
自引率
9.10%
发文量
158
审稿时长
6 months
期刊介绍: River Research and Applications , previously published as Regulated Rivers: Research and Management (1987-2001), is an international journal dedicated to the promotion of basic and applied scientific research on rivers. The journal publishes original scientific and technical papers on biological, ecological, geomorphological, hydrological, engineering and geographical aspects related to rivers in both the developed and developing world. Papers showing how basic studies and new science can be of use in applied problems associated with river management, regulation and restoration are encouraged as is interdisciplinary research concerned directly or indirectly with river management problems.
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