The design of an instrument to measure vertically averaged oceanic currents using geomagnetic electric fields
The design of an instrument to measure vertically averaged oceanic currents using geomagnetic electric fields
Date
1972-08
Authors
Poranski, Peter Frank
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Date Created
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DOI
10.1575/1912/1242
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Keywords
Ocean currents
Oceanographic instruments
Oceanographic instruments
Abstract
A bottom mounted electromagnetic current meter measures the vertically-averaged conductivity-weighted velocity. This measurement complements free-fall relative velocity profiles and is valuable
for transport determination and dynamics studies. Such an instrument
has been designed to measure the three components of the electric
field, Ex, Ey, and Ez. Salt bridges used with switched electrodes permit the induced e1ectromotive forces to be measured with only a short baseline; eight foot arms are planned. The first part of this
report covers the theory behind the bottom mounted electric field
meter. The second part discusses the design of the instrument as
well as a brief description of the prototype bottom mounted electric
field meter.
Description
Submitted in partial fulfillment of the requirements of the degree of
Ocean Engineer at the
Massachusetts Institute of Technology
and the Woods Hole Oceanographic Institution and Master of Science in Ocean Engineering at the Massachusetts Institute of Technology
August, 1972
Embargo Date
Citation
Poranski, P. F. (1972). The design of an instrument to measure vertically averaged oceanic currents using geomagnetic electric fields [Doctoral thesis, Massachusetts Institute of Technology and Woods Hole Oceanographic Institution]. Woods Hole Open Access Server. https://doi.org/10.1575/1912/1242