Modeling Magnetic Fields from a DC Power Cable Buried Beneath San Francisco Bay Based on Empirical Measurements

The Trans Bay Cable (TBC) is a ±200-kilovolt (kV), 400 MW 85-km long High Voltage Direct Current (DC) buried transmission line linking Pittsburg, CA with San Francisco, CA (SF) beneath the San Francisco Estuary. The TBC runs parallel to the migratory route of various marine species, including green...

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Bibliographic Details
Published in:PloS one 2016-02, Vol.11 (2), p.e0148543-e0148543
Main Authors: Kavet, Robert, Wyman, Megan T, Klimley, A Peter
Format: Article
Language:English
Subjects:
Acipenser medirostris
Analysis
Animal Migration
Animals
Anomalies
BASIC BIOLOGICAL SCIENCES
Bays
Biology and Life Sciences
Conductors
Direct current
Disease transmission
Earth Sciences
Electric Power Supplies - adverse effects
Electric power transmission
Electric Wiring - adverse effects
Endangered & extinct species
Engineering and Technology
Environmental aspects
Environmental Monitoring
ENVIRONMENTAL SCIENCES
Estuaries
Fishes
Fishes - physiology
Geomagnetic field
Geomagnetic fields
Geomagnetism
High voltage
Magnetic fields
Magnetic Fields - adverse effects
Magnetometers
Magnetometry
marine fish
Mathematical models
Measurement
Migration
Modelling
Models, Theoretical
Object recognition
Oncorhynchus keta
Oncorhynchus mykiss
Oncorhynchus tshawytscha
Physical Sciences
Polls & surveys
Power cables
Research and Analysis Methods
Rivers
Salmon
San Francisco
Studies
Sturgeon
sturgeons
surveys
Transmission lines
Trout
Underground cables
Underground transmission lines
Wildlife conservation
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Description
Summary:The Trans Bay Cable (TBC) is a ±200-kilovolt (kV), 400 MW 85-km long High Voltage Direct Current (DC) buried transmission line linking Pittsburg, CA with San Francisco, CA (SF) beneath the San Francisco Estuary. The TBC runs parallel to the migratory route of various marine species, including green sturgeon, Chinook salmon, and steelhead trout. In July and August 2014, an extensive series of magnetic field measurements were taken using a pair of submerged Geometrics magnetometers towed behind a survey vessel in four locations in the San Francisco estuary along profiles that cross the cable's path; these included the San Francisco-Oakland Bay Bridge (BB), the Richmond-San Rafael Bridge (RSR), the Benicia-Martinez Bridge (Ben) and an area in San Pablo Bay (SP) in which a bridge is not present. In this paper, we apply basic formulas that ideally describe the magnetic field from a DC cable summed vectorially with the background geomagnetic field (in the absence of other sources that would perturb the ambient field) to derive characteristics of the cable that are otherwise not immediately observable. Magnetic field profiles from measurements taken along 170 survey lines were inspected visually for evidence of a distinct pattern representing the presence of the cable. Many profiles were dominated by field distortions unrelated to the cable caused by bridge structures or other submerged objects, and the cable's contribution to the field was not detectable. BB, with 40 of the survey lines, did not yield usable data for these reasons. The unrelated anomalies could be up to 100 times greater than those from the cable. In total, discernible magnetic field profiles measured from 76 survey lines were regressed against the equations, representing eight days of measurement. The modeled field anomalies due to the cable (the difference between the maximum and minimum field along the survey line at the cable crossing) were virtually identical to the measured values. The modeling yielded a pooled cable depth below the bay floor of 2.06 m (±1.46 std dev), and estimated the angle to the horizontal of the imaginary line connecting the cross-sectional center of the cable's two conductors (0.1143 m apart) as 178.9° ±61.9° (std dev) for Ben, 78.6°±37.0° (std dev) for RSR, and 139.9°±27.4° (std dev) for SP. The mean of the eight daily average currents derived from the regressions was 986 ±185 amperes (A) (std dev), as compared to 722 ±95 A (std dev) provided by Trans Bay Cable LLC.
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0148543