SeaCycler: A Moored Open-Ocean Profiling System for the Upper Ocean in Extended Self-Contained Deployments
SeaCycler: A Moored Open-Ocean Profiling System for the Upper Ocean in Extended Self-Contained Deployments
The upper ocean, including the biologically productive euphotic zone and the mixed layer, has great relevance for studies of physical, biogeochemical, and ecosystem processes and their interaction. Observing this layer with a continuous presence, sampling many of the relevant variables, and with sufficient vertical resolution, has remained a challenge. Here a system is presented that can be deployed on the top of deep-ocean moorings, with a drive mechanism at depths of 150–200 m, which mechanically winches a large sensor float and smaller communications float tethered above it to the surface and back down again, typically twice per day for periods up to 1 year. The sensor float can carry several sizeable sensors, and it has enough buoyancy to reach the near surface and for the communications float to pierce the surface even in the presence of strong currents. The system can survive mooring blowover to 1000-m depth. The battery-powered design is made possible by using a balanced energy-conserving principle. Reliability is enhanced with a drive assembly that employs a single rotating part that has no slip rings or rotating seals. The profiling bodies can break the surface to sample the near-surface layer and to establish satellite communication for data relay or reception of new commands. An inductive pass-through mode allows communication with other mooring components throughout the water column beneath the system. A number of successful demonstration deployments have been completed.
Buoy observations, In situ atmospheric observations, Instrumentation/sensors, Profilers, atmospheric
1555-1565
Send, Uwe
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Fowler, George
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Siddall, Greg
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Beanlands, Brian
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Pittman, Merle
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Waldmann, Christoph
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Karstensen, Johannes
1cadb6ff-33d9-4553-bf21-d005d3ab6c66
Lampitt, Richard
dfc3785c-fc7d-41fa-89ee-d0c6e27503ad
July 2013
Send, Uwe
cafd6b10-a851-4821-a01e-cb851ab7488a
Fowler, George
c655c7fd-43d2-4fbf-a52f-c05ce60fde28
Siddall, Greg
70e785e7-c8e9-4faf-8e3b-523f339c2bee
Beanlands, Brian
1d2fdd0f-83df-4a2d-9c89-5160404fe50e
Pittman, Merle
51bfcbfd-c1a7-4067-ab0e-5b8af506fcf4
Waldmann, Christoph
391c89be-58e0-450b-9702-689ddd49a897
Karstensen, Johannes
1cadb6ff-33d9-4553-bf21-d005d3ab6c66
Lampitt, Richard
dfc3785c-fc7d-41fa-89ee-d0c6e27503ad
Send, Uwe, Fowler, George, Siddall, Greg, Beanlands, Brian, Pittman, Merle, Waldmann, Christoph, Karstensen, Johannes and Lampitt, Richard
(2013)
SeaCycler: A Moored Open-Ocean Profiling System for the Upper Ocean in Extended Self-Contained Deployments.
Journal of Atmospheric and Oceanic Technology, 30 (7), .
(doi:10.1175/JTECH-D-11-00168.1).
Abstract
The upper ocean, including the biologically productive euphotic zone and the mixed layer, has great relevance for studies of physical, biogeochemical, and ecosystem processes and their interaction. Observing this layer with a continuous presence, sampling many of the relevant variables, and with sufficient vertical resolution, has remained a challenge. Here a system is presented that can be deployed on the top of deep-ocean moorings, with a drive mechanism at depths of 150–200 m, which mechanically winches a large sensor float and smaller communications float tethered above it to the surface and back down again, typically twice per day for periods up to 1 year. The sensor float can carry several sizeable sensors, and it has enough buoyancy to reach the near surface and for the communications float to pierce the surface even in the presence of strong currents. The system can survive mooring blowover to 1000-m depth. The battery-powered design is made possible by using a balanced energy-conserving principle. Reliability is enhanced with a drive assembly that employs a single rotating part that has no slip rings or rotating seals. The profiling bodies can break the surface to sample the near-surface layer and to establish satellite communication for data relay or reception of new commands. An inductive pass-through mode allows communication with other mooring components throughout the water column beneath the system. A number of successful demonstration deployments have been completed.
Text
JTECH-D-11-00168.1-Send.pdf
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More information
Published date: July 2013
Keywords:
Buoy observations, In situ atmospheric observations, Instrumentation/sensors, Profilers, atmospheric
Organisations:
Marine Biogeochemistry
Identifiers
Local EPrints ID: 355660
URI: http://eprints.soton.ac.uk/id/eprint/355660
ISSN: 0739-0572
PURE UUID: 1a62790c-e1e3-4362-bf4a-0d6c0f4b8711
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Date deposited: 12 Aug 2013 08:26
Last modified: 14 Mar 2024 14:36
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Contributors
Author:
Uwe Send
Author:
George Fowler
Author:
Greg Siddall
Author:
Brian Beanlands
Author:
Merle Pittman
Author:
Christoph Waldmann
Author:
Johannes Karstensen
Author:
Richard Lampitt
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