Restoration Hydro: A Watershed Approach to Standard Modular New Hydropower Article Swipe

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Abe Schneider , Jessica R. Penrod , Jin Zhao , Tatiana Marzan , Tim Abbe , Susan Dickerson‐Lange , Megan Sapp Nelson , Brian Chevalier , John Anderson , Scott DeNeale , Kevin A. Stewart , Paul G. Matson , Christopher R. DeRolph , Gbadebo Oladosu , Lindsay George , Jeremy C. Wells , Samuel Stein , Laurel G. Larsen ·

YOU? · · 2022 · Open Access · · DOI: https://doi.org/10.2172/1989190

The objectives of FOA DE- FOA-0001836- “Standard Modular Hydropower” included designing a standardized, modular, and environmentally compatible hydropower schematic for implementation in greenfield sites that generate up to 10 MW of capacity. Utilizing funds competitively awarded under DOE’s Water Power Technologies Office, the Natel Energy team developed a concept for modular new stream reach (NSR) hydropower that incorporates multi species upstream and downstream fish passage, improved river channel connectivity, and recreational modules. The in-stream design of the collective modules minimized site specific design and maximized the opportunities for modularity. Financial data was also presented using actual costs from regional suppliers, with figures provided in 2022 dollars. While the project team did not address potential permitting process improvements, the site selection criteria did consider established barriers to hydropower development such as tribal and preserved lands, interconnection proximity, and endangered species to exclude or deprioritize. The project’s design schematic met the objectives of the FOA, and presented a unique solution that targets alluvial pockets as natural features for sustainable development. Natel’s concept also incorporated the company's fish-safe Restoration Hydro Turbine for safe downstream passage, while featuring a rock arch that integrates fish passage, water, recreation, and grade control modules (including sediment). Alignment with the Department of Energy Office of Energy Efficiency and Renewable Energy (EERE) “Innovative Design Concepts for Standard Modular Hydropower and Pumped-Storage Hydropower” Program: According to the Hydropower Vision (DOE, 2016), approximately 16 GW of hydropower growth is possible with the development of technology solutions that balance efficiency, economics, and environmental sustainability. The desired outcome of the SMH program is transformational innovation specifically in the site identification, conceptual, and detailed design phases of technology development lifecycles (DOE, 2018). In developing the SMH design schematic, the team aimed to address the opportunities outlined in the Vision through an inverted design philosophy; rather than singularly prioritizing efficiency and power production, the team focused on integrating hydropower with restoration of degraded streams to optimal ecosystem function and provision of exceptional recreation value as design criteria. To achieve this, Restoration Hydro incorporates the principles of nature-based engineering (WWAP, 2018) and biomimicry (Biomimicry NL.) to strategically deploy complementary combinations of permanent, semi-permanent, and ephemeral low-head structures - such as natural and engineered log jams - that harness geomorphological and hydrological processes at the landscape-scale. Primary applications of Restoration Hydro include: 1) restoration of degraded watersheds’ natural ecological function and enhancement of hydrological connectivity; and 2) creation of associated co-benefits to hydro production, including increased groundwater recharge, improved sediment transport and management, improved water security and water quality. Restoration Hydro projects build upon proven watershed restoration engineering techniques by integrating hydropower turbines into low-head structures using innovative and evolving civil works concepts that facilitate fish and sediment passage, and in some cases create additional revenue-generating recreational opportunities. Powering low-head structures creates a directly monetizable layer of economic value in the form of flexible, reliable, renewable energy on top of the already high-value water, environmental and recreational benefits of watershed and river restoration. The approach aims to create a virtuous, self-reinforcing cycle whereby Restoration Hydro projects support the scaling of ecosystem restoration activities, creating a water-energy-carbon multiplier effect that, through the principles of adaptive change management: 1) improves the resilience of landscapes and downstream population centers for changing hydrological cycles; 2) creates a reliable energy resource that facilitates the integration of intermittent renewable power sources into grids; and 3) supports climate change mitigation through grid decarbonization and enhanced ecosystem carbon capture and retention.

Related Topics

Hydropower

Watershed (Image Processing)

Modular Design

Environmental Science

Computer Science

Engineering

Geotechnical Engineering

Programming Language

Electrical Engineering

Machine Learning

Concepts

Hydropower Watershed Modular design Hydrology (agriculture) Environmental science Computer science Water resource management Geology Engineering Geotechnical engineering Programming language Electrical engineering Machine learning

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Type: report
Language: en
Landing Page: http://doi.org/10.2172/1989190
OA Status: green
Related Works: 10
OpenAlex ID: https://openalex.org/W4386531701

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OpenAlex ID: https://openalex.org/W4386531701

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DOI: https://doi.org/10.2172/1989190

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Title: Restoration Hydro: A Watershed Approach to Standard Modular New Hydropower

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Type: report

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Language: en

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Publication year: 2022

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Publication date: 2022-11-28

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Authors: Abe Schneider, Jessica R. Penrod, Jin Zhao, Tatiana Marzan, Tim Abbe, Susan Dickerson‐Lange, Megan Sapp Nelson, Brian Chevalier, John Anderson, Scott DeNeale, Kevin A. Stewart, Paul G. Matson, Christopher R. DeRolph, Gbadebo Oladosu, Lindsay George, Jeremy C. Wells, Samuel Stein, Laurel G. Larsen

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Landing page: https://doi.org/10.2172/1989190

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OA URL: https://www.osti.gov/biblio/1989190

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Concepts: Hydropower, Watershed, Modular design, Hydrology (agriculture), Environmental science, Computer science, Water resource management, Geology, Engineering, Geotechnical engineering, Programming language, Electrical engineering, Machine learning

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abstract_inverted_index.standardized,	12
abstract_inverted_index.strategically	350
abstract_inverted_index.watersheds’	389
abstract_inverted_index.“Innovative	213
abstract_inverted_index.Pumped-Storage	221
abstract_inverted_index.implementation	20
abstract_inverted_index.opportunities.	460
abstract_inverted_index.decarbonization	568
abstract_inverted_index.environmentally	15
abstract_inverted_index.identification,	266
abstract_inverted_index.interconnection	134
abstract_inverted_index.semi-permanent,	356
abstract_inverted_index.sustainability.	251
abstract_inverted_index.geomorphological	372
abstract_inverted_index.landscape-scale.	378
abstract_inverted_index.self-reinforcing	503
abstract_inverted_index.transformational	260
abstract_inverted_index.revenue-generating	458
abstract_inverted_index.water-energy-carbon	518
cited_by_percentile_year
countries_distinct_count	1
institutions_distinct_count	18
citation_normalized_percentile