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The new RCRV can accommodate up to three research vans on deck and support them with dedicated utility hook-ups like grey/black/fresh water, power, alarms, network drops, etc. Van SupportĪ van expands and fine tunes a research vessel’s mission by enabling and augmenting various types of science operations. New RCRVs will put to sea with the most versatile, and most precisely calibrated, acoustics deployment capability in the U.S.
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Instrumentation is loaded on the centerboard, then lowered through the bottom of the hull. The centerboard is engineered for rapid exchange and deployment of sensor arrays and components while at sea. To meet this demand, the new RCRVs will deploy acoustic sensor systems using a retractable centerboard. Hydrographers need multibeam data from shallow and mid-water depths to be “chart quality,” i.e, suitable for charting, habitat mapping, geological exploration, etc. New research requires high-quality, high-resolution ocean floor and subfloor acoustic data collection (multibeam) from nearshore to mid-water depths.
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The name derives from the drive-shaft connection to the propeller pod-two right-angle turns that resemble the letter “Z”. Propeller pods can rotate 360 degrees to make rapid changes in thrust direction. Propulsion by Z-Drive eliminates the need for a conventional rudder. DP systems also enable a vessel to dock safely in rough weather, to operate in estuaries or rivers, and maneuver closer to navigational hazards. Position-critical missions, such as precise ROV tracking, will occur more often and be easier to perform. A vessel equipped for DP can safely hold station over a wide range of environmental conditions. Dynamic Positioningĭynamic positioning (DP) is achieved with two “Z-drives” working in concert with two bow thrusters to deliver propulsion with exacting navigation.
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They’ll be able to safely and independently operate in areas of open first-year ice coverage, where at least 60% of the ice is less than one foot thick. All three RCRVs are being built to meet the “ABS C0” ice classification. Currently, no intermediate or regional class vessel is certified for safe operation when sea ice is present. Interest in research operations in polar regions, where sea ice is prevalent, is expected to increase in coming decades as the regions become more accessible. Efficiencies and a reduced carbon footprint are achieved by: By thinking in terms of “data per dollar,” ship designers set out to increase data collection and decrease the cost to do it. These new RCRVs are designed to operate as efficiently as possible. U-Tube tanks enable ship operators to “lean in” to the ocean’s sideways push. Inside the tank, ballast water is quickly shifted laterally-from port to starboard and back again-to rebalance the vessel’s center of gravity. Advanced sea-keeping capability means the ship can operate in more severe weather and more days per year.Ī U-Tube is a ballast tank that counteracts wave motion to keep a ship’s roll to a minimum. By drastically reducing pitch and roll, every over-the-side deployment can be made more safely, especially deployments in rougher seas. The new RCRV will be able to run parallel to troughs, rather than turning the bow into waves and swells. Sea Keepingīilge keels, a retractable centerboard, a wider beam, and especially the “U-Tube” will greatly reduce roll. Here are a few key reasons why these new ships fit the bill and anticipate how marine research and exploration will be conducted in the coming decades. CapabilitiesĪttributes of the new RCRVs reflect the NSF’s desire to operate fewer, more capable, vessels. Gulf Island Shipyards in Houma, La., was selected by Oregon State University to build all three of the NSF’s newest RCRVs. The design phase for all three vessels is complete and construction on the first two has begun.ĭuring the design phase, OSU engaged marine architects Glosten Associates of Seattle, Wash. The first of NSF’s three new research vessels, R/V Taani, will be operated by OSU along the U.S.
#Ship construction terms trial#
In early 2013, the National Science Foundation (NSF) selected Oregon State University’s College of Earth, Ocean, and Atmospheric Sciences (OSU) to lead design, construction, and trial phases of the RCRV program. R/V Narragansett Dawn is expected to enter service in 2023. The ships can operate in coastal regions worldwide, make open ocean transits, and operate in or around light first-year ice. The regional class research vessels (RCRVs) under construction are modern monohull ships with integrated diesel-electric propulsion that are capable of general-purpose interdisciplinary oceanographic research.