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- Pumped Storage
Analysis of the Effects of Pre-whirl on the Efficiency and Operating Range of Hydro Pumps used in Pumped Storage Facilities
Lead Companies
The Pennsylvania State University
Lead Researcher (s)
- Keith Martin
This paper discusses the application of computational fluid dynamics (CFD) to a case study of a hydraulic pump turbine operating in pumping mode. Emphasis is on the effects of induced pre-whirl on flow patterns through the impeller and on pump performance. ANSYS R Fluent, Academic Research, Release 14.0, software is used to model three-dimensional (3D) Reynolds-averaged Navier-Stokes (RANS) equations with a k − ω SST turbulence model. Full-wheel fixed rotor simulations are used to identify operating parameters that are used in more computationally intensive full-wheel moving mesh simulations.
Technology Application
Pumped Storage
Research Category
Powerhouse Pump
Research Sub-Category
Turbine
Status
complete
Completion Date
2015
- Conventional Hydro
Annex IX
Lead Companies
PNNL
Lead Researcher (s)
- Abhishek Somani
This project aims to explore the unique role of hydropower in producing significant amounts of firm renewable energy and storage to support VRE’s, and providing flexible energy services to support electricity systems – collectively termed ‘hydro balancing’. Specifically, Phase 2 will develop an understanding of two key strategic themes: (1) How hydropower may be valued in future electricity market scenarios, and (2) How hydropower may be valued in providing climate change adaptation services (e.g. flood control).Phase 2 will capture the contribution of hydropower by documenting the capabilities, challenges, opportunities, and market structures for compensating hydropower services in TCP member countries as well as additional countries recruited to the effort.
Technology Application
Conventional Hydro
Research Category
Interconnect Integration and Markets
Research Sub-Category
Renewable Integration
Status
ongoing
Completion Date
TBD
- Conventional Hydro
Annual Hydropower Market and Trends Report
Lead Companies
Oak Ridge National Laboratory (ORNL)
Lead Researcher (s)
- Rocio Uria Martinez (uriamartiner@ornl.gov)
This project informs the Water Power Technologies Office's research and development planning and provides stakeholders with comprehensive and up-to-date data and analysis on U.S hydropower and pumped storage hydropower assets and industry trends. The main deliverable from this project is the U.S. Hydropower Market Report (HMR) which is intended to be a foundational reference publication on U.S. hydropower development, performance, and supply chain trends for industry and other stakeholders such as other federal partners and policymakers. Technology Application
Conventional Hydro, Pumped Storage
Research Category
Interconnect Integration and Markets
Research Sub-Category
Markets
Status
ongoing
Completion Date
TBD
- Conventional Hydro
Applied Statistical Analysis Techniques for Hydro Generation and Runoff
Lead Companies
CEATI International
Lead Researcher (s)
- #0426
The focus of this report is to review the current practices for data analysis techniques, with specific emphasis on contemporary approaches relevant to hydropower systems.
Technology Application
Conventional Hydro
Research Category
Interconnect Integration and Markets
Research Sub-Category
Hydraulic Optimization
Status
complete
Completion Date
2020
- Marine Energy
AquaHarmonics Support FOA 1663
Lead Companies
Sandia National Laboratories
Lead Researcher (s)
- Budi Gunawan
As a result of the Funding Opportunity Announcement (FOA) 1663, Marine and Hydrokinetic Technology Development and Advancement, a team led by AquaHarmonics, Inc. (AH), that includes Sandia National Laboratories (SNL) was selected as one of the FOA award recipients. The main objective of the proposed project is to advance the technology readiness of the AquaHarmonics’ device, by developing a 1:7th scale prototype and conducting an open water testing for an extended period (~12 months) at the Navy’s Wave Energy Test Site (WETS). During the open water testing, it is expected that the device will maintain an Average Climate Capture Width per Characteristic Capital Expenditure (ACE) target of at least 3m/M$, as has been demonstrated previously on a smaller scale device during the Wave Energy Prize competition. SNL will leverage its capability and experience in WEC design and testing to assist AquaHarmonics in WEC dry and open water testing, device design and PTO-control model development.
Technology Application
Marine Energy
Research Category
Technology
Research Sub-Category
Wave
Status
ongoing
Completion Date
TBD
- Conventional Hydro
Assessing potential future changes in atmospheric rivers over the western coast of the U.S
Lead Companies
Bureau of Reclamation
Lead Researcher (s)
- Michael Wright
Do dynamically downscaled, higher-resolution regional climate model simulations from the North American Coordinated Regional Climate Downscaling Experiment (NA-CORDEX) offer clear, stakeholder-relevant benefit to the understanding of current causes and future projections of precipitation amount, type, and distribution for the Western United States? The proposed research would reduce uncertainty in regional climate projections, particularly with regard to downscaling (7.02). In short, the proposed research offers insight into issue after issue which has been identified as a "gap" impeding effective utilization of temperature and precipitation projections by water resource managers.
Technology Application
Conventional Hydro
Research Category
Environmental and Sustainability
Research Sub-Category
Water Resources
Status
ongoing
Completion Date
2020
- Conventional Hydro
Assessing the impact of physically realized hydro-climate extremes on water supply
Lead Companies
Bureau of Reclamation
Lead Researcher (s)
- Marketa McGuire
This scoping proposal seeks to develop a detailed collaborative experiment to advance our understanding of the impacts of extreme hydro-climate events on water management of Reclamation's reservoirs. A particular focus will be the roles of climate variability versus long-term trends in producing extreme events. We plan to leverage the joint expertise/interests at the University of Colorado at Boulder (CU), the National Center for Atmospheric Research (NCAR), the U.S. Bureau of Reclamation (Reclamation), and possibly elsewhere, to investigate atmospheric/climate drivers of hydrologic and land surface processes during drought periods and/or wet (i.e. pluvial) periods to understand the likelihood of acute or prolonged extremes.
Technology Application
Conventional Hydro
Research Category
Environmental and Sustainability
Research Sub-Category
Water Resources
Status
ongoing
Completion Date
2021
- Marine Energy
Assessing the Use of Environmental DNA to Monitor Changes in Habitats Caused by Offshore Energy Developments
Lead Companies
Pacific Northwest National Laboratory
Lead Researcher (s)
- Lenaig Hemery
Technology Application
Marine Energy
Research Category
Technology
Research Sub-Category
Wave
Status
ongoing
Completion Date
TBD
- Conventional Hydro
Autonomous acoustic receiver system for 3D tracking and monitoring real-time fish survival
Lead Companies
PNNL
Lead Researcher (s)
- Jayson Martinez
This project is developing two technologies related to JSATS autonomous acoustic receivers: 1) a system which can be used to estimate fish survival in near real-time for optimizing hydropower operations, hereafter referred to as the Real-time Autonomous Acoustic Detection System (RAADS); 2) an advanced machine learning based 3D acoustic-tagged fish tracking system, hereafter referred to as the Machine Learning Autonomous Tracking System (MLATS).RAADS will allow detection information from acoustic-tagged fish to be broadcast from underwater autonomous acoustic receivers to a surface-based receiver that would then transmit the data to an offsite location. This will generate timely information that can be input into models that would allow metrics of fish survival and behavior to be calculated and displayed on a dashboard.
Technology Application
Conventional Hydro
Research Category
Environmental and Sustainability
Research Sub-Category
Fish and Aquatic Resources
Status
ongoing
Completion Date
TBD
Don’t see your waterpower research?
Have questions about WaRP?
Contact Marla Barnes at: marla@hydro.org