It can switch at sea between side-scan sonar and ROV operations[2][3] and is equipped with two manipulators[2] in support of its salvage activities.
The ROV also has a modular design and can be customized with mission-specific equipment or special tool kits to form an integrated search and recovery system.[2][3]
The ROV can be controlled in all six degrees of motion with auto-control functions for depth, altitude, and heading. An integrated DVL allows 1- and 2-meter incremental movements as well as cruise control for extended axial movements. The vehicle is equipped with continuous transmissionfrequency modulation (CTFM) sonar for target location[9] and pinger detection. The ROV uses two 7-function rate-controlled manipulators. It has a high-resolution digital still camera, black and white, and color television cameras. The system includes a 36,000 ft (11,000 metres) long,[10] load-bearing, pressure-compensated, .680 fiber-optic, electro-optical umbilical swivel cable.[2]
The fiber-optic multiplex system can combine up to eight channels of video, sonar, USBL, RS-232/422/485data communications, and navigation data on a single fiber. Two spare fibers are available subsea for additional sensors. A digital communications network with a frequency of 400 MHz controls the vehicle and has significant capacity for future expansion. The system is designed to interface easily with additional sensors or tool packages using standard data formats.[2]
For special operations, the ROV can accommodate customized tool packages. These packages can include, but are not limited to specialized salvage tools, instrument packages, or other mission-oriented equipment.[2]
On 22 July 2012, a U.S. Air Force F-16C traveling from Japan to Alaska crashed in the northern Pacific Ocean on July 22, 2012. Searchers from the U.S. Navy and Phoenix International, spent 10 days recovering the remnants of the fighter for the subsequent accident investigation.[5]
After the disappearance of ARA San Juan in November 2017, the U.S. Navy directed CURV-21 to join the search efforts for the missing submarine,[14][9] delivering "remarkably clear" pictures.[15] Later in August the same year, specially mission-equipped CURV-21 cut free the voyage data recorder (VDR) and retrieved it back to the surface for NTSB analysis as part of their ongoing investigation.[15]
CURV-21 was deployed in March 2021 to the North Pacific to recover a Navy MH-60S[16] which was lost in January 2020 from the USS Blue Ridge (LCC-19). CURV-21 successfully rigged and recovered the helicopter from 19,075 ft (5,814 metres).[17] a new record under the U.S. Navy's Supervisor of Salvage and Diving (SUPSALV).[18]
In early 2022, the U.S. Navy deployed this system to salvage a F-35 Joint Strike Fighter crashed in the South China Sea from a depth of about 12,400 feet (3,800 m),[17] done by attaching a hoist to the wreckage to pull it back to the surface.[19]
On 3 August 2022, the U.S. Navy successfully recovered the F/A-18E Super Hornet aircraft embarked aboard USS Harry S. Truman (CVN 75) that blew overboard into the Mediterranean Sea in inclement weather on 8 July 2022. The recovery was carried out by using CURV-21 to attach specialized rigging and lift lines to the lost aircraft to pull it back to the surface.[17]
During the 2023 Titan submersible incident, CURV-21 was involved in the search efforts as it was widely viewed as one of the only ROVs able to reach the depths of 4,000 m (13,000 feet) at which the missing submersible may be located.[7][16][20][21][22]
See also
CURV — the previous generation of this vehicle family,
^ abKorten, Tristram (2018). Into the Storm: Two Ships, a Deadly Hurricane, and an Epic Battle for Survival (1st ed.). New York: Ballantine Books. ISBN9781524797881. OCLC1015810430. The CURV-21's images from that depth were remarkably clear and showed an unobstructed seafloor that resembled a desert. [...] More than three months later, the Apache sailed again to the site, and on August 8, 2016, the CURV-21 descended nearly three miles to where the VDR lay on the lightless black of the ocean floor. Using tools designed for the mission, it clipped the device from the mast and brought it to the surface.