Org. 8822 Surface water measurement and modeling capabilities
Abstract not provided.
Publications
Marine Renewables and Hydrokinetic Research at Sandia National Laboratories
Abstract not provided.
In-stream Hydrokinetic Testing in an Irrigation Canal
Abstract not provided.
Marine Energy Technologies:Technical Advancements and Cost Reduction Opportunities
Abstract not provided.
Evaluation of Composite Materials for Wave and Tidal Energy Technologies
Abstract not provided.
MEC/MHK Load Characterization and Measurements
Abstract not provided.
Overview of the Marine & Hydrokinetic Advanced Materials Program
Abstract not provided.
materials considerations for marine & hydrokinetic energy
Abstract not provided.
Sandia Wave Energy Power Take-off (SWEPT) Lab
Abstract not provided.
High resolution wave modeling for characterizing the wave energy resource along the US East Coast
Abstract not provided.
Wave Modeling Test Bed for Resource Assessment
Abstract not provided.
WAVE ENERGY PRIZE TESTING AND DATA ANALYSIS OVERVIEW
Abstract not provided.
Characterization of Hydrokinetic Turbine Inflow and Wake Flow Using ADCPs
Abstract not provided.
Error assessment for spatio-temporally averaged moving vessel ADCP measurement in a large laboratory channel
Abstract not provided.
Sandia?s High and Mid-Fidelity CFD Capabilities
Abstract not provided.
Sandia?s Recent MHK Field and Laboratory Works
Abstract not provided.
U.S. Department of Energy Reference Model Program RM1: Experimental Results
The Reference Model Project (RMP), sponsored by the U.S. Department of Energy’s (DOE) Wind and Water Power Technologies Program within the Office of Energy Efficiency & Renewable Energy (EERE), aims at expediting industry growth and efficiency by providing nonproprietary Reference Models (RM) of MHK technology designs as study objects for opensource research and development (Neary et al. 2014a,b). As part of this program, MHK turbine models were tested in a large open channel facility at the University of Minnesota’s St. Anthony Falls Laboratory (UMN-SAFL). Reference Model 1 (RM1) is a 1:40 geometric scale dual-rotor axial flow horizontal axis device with counter-rotating rotors, each with a rotor diameter dT = 0.5m. Precise blade angular position and torque measurements were synchronized with three acoustic Doppler velocimeters (ADVs) aligned with each rotor and the midpoint for RM1. Flow conditions for each case were controlled such that depth, h = 1m, and volumetric flow rate, Qw = 2.425m3s-1, resulting in a hub height velocity of approximately Uhub = 1.05ms-1 and blade chord length Reynolds numbers of Rec ≈ 3.0x105. Vertical velocity profiles collected in the wake of each device from 1 to 10 rotor diameters are used to estimate the velocity recovery and turbulent characteristics in the wake, as well as the interaction of the counter-rotating rotor wakes. The development of this high resolution laboratory investigation provides a robust dataset that enables assessing turbulence performance models and their ability to accurately predict device performance metrics, including computational fluid dynamics (CFD) models that can be used to predict turbulent inflow environments, reproduce wake velocity deficit, recovery and higher order turbulent statistics, as well as device performance metrics.
Material Design Tools for Marine and Hydrokinetic Composite Structures
Abstract not provided.
Fiber optic sensors for monitoring hydrokinetic turbine structural loads
Abstract not provided.
Assessing and Testing Hydrokinetic Turbine Performance and Effects on Open Channel Hydrodynamics: An Irrigation Canal Case Study
Hydrokinetic energy from flowing water in open channels has the potential to support local electricity needs with lower regulatory or capital investment than impounding water with more conventional means. MOU agencies involved in federal hydropower development have identified the need to better understand the opportunities for hydrokinetic (HK) energy development within existing canal systems that may already have integrated hydropower plants. This document provides an overview of the main considerations, tools, and assessment methods, for implementing field tests in an open-channel water system to characterize current energy converter (CEC) device performance and hydrodynamic effects. It describes open channel processes relevant to their HK site and perform pertinent analyses to guide siting and CEC layout design, with the goal of streamlining the evaluation process and reducing the risk of interfering with existing uses of the site. This document outlines key site parameters of interest and effective tools and methods for measurement and analysis with examples drawn from the Roza Main Canal, in Yakima, WA to illustrate a site application.
U.S. DOE MHK Composite Materials & Structures Database Webinar FY17 Call for Samples
Abstract not provided.
Overview on MHK Loads Study
Abstract not provided.
WEC-SIM PHASE 1 VALIDATION TESTING - EXPERIMENTAL SETUP AND INITIAL RESULTS
Abstract not provided.
Fiber Optic Instrumentation for Measuring Rotor Strain
Abstract not provided.
Model Test Bed for Evaluating Wave Models and Best Practices for Resource Assessment and Characterization
A wave model test bed is established to benchmark, test and evaluate spectral wave models and modeling methodologies (i.e., best practices) for predicting the wave energy resource parameters recommended by the International Electrotechnical Commission, IEC TS 62600-101Ed. 1.0 ©2015. Among other benefits, the model test bed can be used to investigate the suitability of different models, specifically what source terms should be included in spectral wave models under different wave climate conditions and for different classes of resource assessment. The overarching goal is to use these investigations to provide industry guidance for model selection and modeling best practices depending on the wave site conditions and desired class of resource assessment. Modeling best practices are reviewed, and limitations and knowledge gaps in predicting wave energy resource parameters are identified.
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