James McVey scite author profile

James McVey

3Publications

0Citation Statements Received

38Citation Statements Given

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Pacific Northwest National Laboratory

Publications

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Tanana River Test Site Model Verification Using the Marine and Hydrokinetic Toolkit (MHKiT)

et al. 2023

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The marine energy (ME) industry historically lacked a standardized data processing toolkit for common tasks such as data ingestion, quality control, and visualization. The marine and hydrokinetic toolkit (MHKiT) solved this issue by providing a public software deployment (open-source and free) toolkit for the ME industry to store and maintain commonly used functionality for wave, tidal, and river energy. This paper demonstrates an initial model verification study in MHKiT. Using Delft3D, a numerical model of the Tanana River Test Site (TRTS) at Nenana, Alaska was created. Field data from the site was collected using an Acoustic Doppler Current Profiler (ADCP) at the proposed Current Energy Converter (CEC) locations. MHKiT is used to process model simulations from Delft3D and compare them to the transect data from the ADCP measurements at TRTS. The ability to use a single tool to process simulation and field data demonstrates the ease at which the ME industry can obtain results and collaborate across specialties, reducing errors and increasing efficiency.

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Quantifying Background Magnetic Fields at Marine Energy Sites: Challenges and Recommendations

Grear

McVey

Cotter

et al. 2022

JMSE

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Unknowns around the environmental effects of marine renewable energy have slowed the deployment of this emerging technology worldwide. Established testing methods are necessary to safely permit and develop marine energy devices. Magnetic fields are one potential cause of environmental effects and are created when electricity is generated and transmitted to shore. Further, the existing variation of the background magnetic field at sites that may be developed for marine energy is largely unknown, making it difficult to assess how much additional stress or impact the anthropogenic magnetic field may have. This study investigates two instruments for their ability to characterize the background magnetic fields at a potential marine energy site in Sequim Bay, WA. Based on this evaluation, this study recommends an Overhauser magnetomer for assessing the background magnetic field and demonstrates the use of this sensor at a potential marine energy site.

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Powering Arctic Observations with Marine Energy

Branch¹,

Grear²,

Rollano³

et al. 2023

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James McVey

Tanana River Test Site Model Verification Using the Marine and Hydrokinetic Toolkit (MHKiT)

Quantifying Background Magnetic Fields at Marine Energy Sites: Challenges and Recommendations

Powering Arctic Observations with Marine Energy

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