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{|{{Infobox ship begin}} | {|{{Infobox ship begin}} | ||
{{Infobox ship image | {{Infobox ship image | ||
|Ship image=SP-57 A to WD-89 (11442548985).jpg | | Ship image = SP-57 A to WD-89 (11442548985).jpg | ||
|Ship caption=''VB-10,000'' prepares to place a decommissioned jacket as an artificial reef off the coast of Louisiana | | Ship caption = ''VB-10,000'' prepares to place a decommissioned jacket as an artificial reef off the coast of Louisiana. | ||
}} | }} | ||
{{Infobox ship career | {{Infobox ship career | ||
|Hide header= | | Hide header = | ||
|Ship country= | | Ship country = | ||
|Ship flag= {{flagicon |United States}} ] | | Ship flag = {{flagicon |United States}} ] | ||
|Ship name= ''VB-10,000'' | | Ship name = ''VB-10,000'' | ||
|Ship operator= |
| Ship operator = TCM 10,000 (Owner: Oct 2020) | ||
|Ship ordered= | | Ship ordered = | ||
|Ship builder= Gulf Marine Fabricators | | Ship builder = Gulf Marine Fabricators | ||
|Ship yard number= 139 | | Ship yard number = 139 | ||
|Ship laid down= | | Ship laid down = | ||
|Ship launched= | | Ship launched = | ||
|Ship completed= 2010 | | Ship completed = 2010 | ||
|Ship christened= | | Ship christened = | ||
|Ship acquired= | | Ship acquired = | ||
|Ship in service= 2010–present | | Ship in service = 2010–present | ||
|Ship out of service= | | Ship out of service = | ||
|Ship identification = *USCG ID: 1225018 | | Ship identification = *USCG ID: 1225018 | ||
*{{MMSI Number|367490050}} | *{{MMSI Number|367490050}} | ||
|Ship homeport= ] | | Ship homeport = ] | ||
|Ship fate= | | Ship fate = | ||
|Ship status= In service | | Ship status = In service | ||
|Ship notes= | | Ship notes = | ||
}} | }} | ||
{{Infobox ship characteristics | {{Infobox ship characteristics | ||
|Hide header= | | Hide header = | ||
|Header caption= | | Header caption = | ||
|Ship |
| Ship type=Floating ] | ||
|Ship tonnage = |
| Ship tonnage = 10,116 | ||
|Ship displacement |
| Ship displacement = | ||
|Ship length= {{ |
| Ship length = {{cvt|277.4|ft|m}} | ||
|Ship beam= {{ |
| Ship beam = {{cvt|314|ft|m}} | ||
|Ship height= | | Ship height = | ||
|Ship draught= {{ |
| Ship draught = {{cvt|20|ft|m}} | ||
|Ship draft= | | Ship draft = | ||
|Ship ice class= | | Ship ice class = | ||
|Ship sail plan= | | Ship sail plan = | ||
|Ship power= | | Ship power = | ||
|Ship propulsion= (8) |
| Ship propulsion = (8) {{cvt|1000|hp}} azimuthing thrusters (4/barge) | ||
|Ship speed= | | Ship speed = | ||
|Ship capacity= | | Ship capacity = | ||
|Ship crew= | | Ship crew = | ||
|Ship notes= | | Ship notes = | ||
}} | }} | ||
|} | |} | ||
'''''VB-10,000''''' is a heavy-lift twin-] ] consisting of two truss ]s atop two ]s. The design was derived from Versabar's earlier ''VB-4000'' (aka ''Bottom Feeder''),<ref name=USPat>{{cite patent |country=US |number=7527006 |status=granted |title=Marine lifting apparatus |pubdate=5 May 2009 |gdate=5 May 2009 |fdate=13 December 2006 |inventor=Khachaturian, Jon |assign1=Khachaturian, Jon}}</ref><ref>{{cite patent |country=US |number=8960114 | |||
|status=granted |title=Marine lifting apparatus |fdate=30 November 2011 |gdate=31 May 2012 |inventor=Khachaturian, Jon |assign1=Khachaturian, Jon}}</ref> which was developed to clear debris from toppled ] in the ]. Instead of sending divers to section the wreckage into pieces, the heavy-lift capability facilitates salvaging the platform as a single piece.<ref>{{cite journal |url=http://www.offshore-mag.com/articles/print/volume-67/issue-8/construction-installation/versabar-invention-lifts-submerged-topsides-in-one-piece.html |title=Versabar invention lifts submerged topsides in one piece |author=Paganie, David |date=August 2007 |journal=Offshore |volume=67 |issue=8 |accessdate=14 July 2016}}</ref> The primary benefit is increasing safety by reducing the number of high-risk diving activities, but substantial cost savings can be realized by reducing the number of lifts and shortening the decommissioning schedule.<ref>{{cite news |url=http://fuelfix.com/blog/2014/05/07/safety-cost-driving-new-technology-for-removing-rigs/#photo-217423 |title=Safety, cost driving new technology for removing rigs |author=Tresaugue, Matthew |date=7 May 2014 |newspaper=Houston Chronicle |accessdate=1 August 2016}}</ref><ref>{{cite journal |url=http://www.marinelink.com/news/declutter-push-gulf347104.aspx |title=Push Is On To Declutter Gulf of Idle Iron |author=Buchanan, Susan |date=21 August 2012 |journal=Maritime Reporter |accessdate=14 July 2016}}</ref><ref>{{cite web |url=http://www.cablejoints.co.uk/upload/Offshore-Decommissioning-Safety-Discussion.pdf |title=Risk Reduction in Offshore Decommissioning: Chevron's Success in the Gulf of Mexico |author=Dennis, Lew |date=2012 |website=cablejoints.co.uk |accessdate=1 August 2016 |archiveurl=https://web.archive.org/web/20160725191646/http://www.cablejoints.co.uk/upload/Offshore-Decommissioning-Safety-Discussion.pdf |archivedate=25 July 2016 |url-status=live}}</ref> | |status=granted |title=Marine lifting apparatus |fdate=30 November 2011 |gdate=31 May 2012 |inventor=Khachaturian, Jon |assign1=Khachaturian, Jon}}</ref> which was developed to clear debris from toppled ] in the ]. Instead of sending divers to section the wreckage into pieces, the heavy-lift capability facilitates salvaging the platform as a single piece.<ref>{{cite journal |url=http://www.offshore-mag.com/articles/print/volume-67/issue-8/construction-installation/versabar-invention-lifts-submerged-topsides-in-one-piece.html |title=Versabar invention lifts submerged topsides in one piece |author=Paganie, David |date=August 2007 |journal=Offshore |volume=67 |issue=8 |accessdate=14 July 2016}}</ref> The primary benefit is increasing safety by reducing the number of high-risk diving activities, but substantial cost savings can be realized by reducing the number of lifts and shortening the decommissioning schedule.<ref>{{cite news |url=http://fuelfix.com/blog/2014/05/07/safety-cost-driving-new-technology-for-removing-rigs/#photo-217423 |title=Safety, cost driving new technology for removing rigs |author=Tresaugue, Matthew |date=7 May 2014 |newspaper=Houston Chronicle |accessdate=1 August 2016}}</ref><ref>{{cite journal |url=http://www.marinelink.com/news/declutter-push-gulf347104.aspx |title=Push Is On To Declutter Gulf of Idle Iron |author=Buchanan, Susan |date=21 August 2012 |journal=Maritime Reporter |accessdate=14 July 2016}}</ref><ref>{{cite web |url=http://www.cablejoints.co.uk/upload/Offshore-Decommissioning-Safety-Discussion.pdf |title=Risk Reduction in Offshore Decommissioning: Chevron's Success in the Gulf of Mexico |author=Dennis, Lew |date=2012 |website=cablejoints.co.uk |accessdate=1 August 2016 |archiveurl=https://web.archive.org/web/20160725191646/http://www.cablejoints.co.uk/upload/Offshore-Decommissioning-Safety-Discussion.pdf |archivedate=25 July 2016 |url-status=live}}</ref> | ||
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Each truss is nearly {{convert|240|ft}} at its highest point,<ref>{{cite web |url=http://www.imcbrokers.com/blog/overview/detail/the-versabar-vb-10-000 |title=The Versabar VB 10,000 (blog) |author=<!--Staff writer(s); no by-line.--> |date=5 January 2012 |website=International Marine Consultancy |accessdate=1 August 2016}}</ref> with a hook height of {{convert|178|ft}}.<ref name=vbar /> The truss sections are decoupled from the motion of the barges by using specially-designed hinges.<ref name=vbuoy>{{cite web |url=http://www.vbuoy.com/articulated_joint/ |title=The Articulating Joint |date=2011 |author=<!--Staff writer(s); no by-line.--> |website=Versabuoy |accessdate=14 July 2016}}</ref> Each truss has a "wide" side and a "narrow" side, denoting the relative footprint of the truss-to-barge connection.<ref name=Offshore71 /> The "wide" side is essentially pinned to the barge with a single degree of freedom (rotational). The "narrow" side has the specially-designed double joint allowing two rotational degrees of freedom. Each barge has one narrow and one wide interface.<ref name=USPat /> The hinges use ] Orkot bearings, a composite material which provide a longer life and lowered maintenance compared to the lubricated bronze bearings used in ''Bottom Feeder''.<ref name=vbuoy /><ref>{{cite journal |url=https://www.pddnet.com/article/2013/01/versabars-claw-gets-grip-marine-salvage |title=Versabar's Claw Gets a Grip on Marine Salvage |author=Trelleborg, AB |date=3 January 2013 |journal=Product Design and Development |accessdate=14 July 2016}}</ref> | Each truss is nearly {{convert|240|ft}} at its highest point,<ref>{{cite web |url=http://www.imcbrokers.com/blog/overview/detail/the-versabar-vb-10-000 |title=The Versabar VB 10,000 (blog) |author=<!--Staff writer(s); no by-line.--> |date=5 January 2012 |website=International Marine Consultancy |accessdate=1 August 2016}}</ref> with a hook height of {{convert|178|ft}}.<ref name=vbar /> The truss sections are decoupled from the motion of the barges by using specially-designed hinges.<ref name=vbuoy>{{cite web |url=http://www.vbuoy.com/articulated_joint/ |title=The Articulating Joint |date=2011 |author=<!--Staff writer(s); no by-line.--> |website=Versabuoy |accessdate=14 July 2016}}</ref> Each truss has a "wide" side and a "narrow" side, denoting the relative footprint of the truss-to-barge connection.<ref name=Offshore71 /> The "wide" side is essentially pinned to the barge with a single degree of freedom (rotational). The "narrow" side has the specially-designed double joint allowing two rotational degrees of freedom. Each barge has one narrow and one wide interface.<ref name=USPat /> The hinges use ] Orkot bearings, a composite material which provide a longer life and lowered maintenance compared to the lubricated bronze bearings used in ''Bottom Feeder''.<ref name=vbuoy /><ref>{{cite journal |url=https://www.pddnet.com/article/2013/01/versabars-claw-gets-grip-marine-salvage |title=Versabar's Claw Gets a Grip on Marine Salvage |author=Trelleborg, AB |date=3 January 2013 |journal=Product Design and Development |accessdate=14 July 2016}}</ref> | ||
Once the wreck has been lifted clear of the water, there is {{convert|160|ft}} of clearance between the two barge hulls for a separate cargo barge to enter. The load may be placed onto the separate barge for transportation.<ref>{{cite web |url=http://ricksblog.biz/wp-content/uploads/2011/11/Greencanyon1.pdf |title=The Removal of Green Canyon 6A By Versabar's VB-10000 |author=Devine, Peter |date=5 July 2011 |website=rickblog.biz |accessdate=1 August 2016 |archiveurl=https://web.archive.org/web/20160725191337/http://ricksblog.biz/wp-content/uploads/2011/11/Greencanyon1.pdf |archivedate=25 July 2016 |url-status=live}}</ref> ''VB-10,000'' is capable of lifting {{convert|7500|ST}} in a single lift, nearly doubling the {{convert|4000|ST|adj=on}} capacity of its predecessor.<ref>{{cite journal |url=http://www.enr.com/articles/9361-coastal-lift-specialist-doubles-size-of-its-marine-workhorse?v=preview |title=Coastal Lift Specialist Doubles Size of Its Marine Workhorse |author=<!--Staff writer(s); no by-line.--> |date=22 June 2011 |journal=Engineering News-Record |accessdate=14 July 2016 }}{{ |
Once the wreck has been lifted clear of the water, there is {{convert|160|ft}} of clearance between the two barge hulls for a separate cargo barge to enter. The load may be placed onto the separate barge for transportation.<ref>{{cite web |url=http://ricksblog.biz/wp-content/uploads/2011/11/Greencanyon1.pdf |title=The Removal of Green Canyon 6A By Versabar's VB-10000 |author=Devine, Peter |date=5 July 2011 |website=rickblog.biz |accessdate=1 August 2016 |archiveurl=https://web.archive.org/web/20160725191337/http://ricksblog.biz/wp-content/uploads/2011/11/Greencanyon1.pdf |archivedate=25 July 2016 |url-status=live}}</ref> ''VB-10,000'' is capable of lifting {{convert|7500|ST}} in a single lift, nearly doubling the {{convert|4000|ST|adj=on}} capacity of its predecessor.<ref>{{cite journal |url=http://www.enr.com/articles/9361-coastal-lift-specialist-doubles-size-of-its-marine-workhorse?v=preview |title=Coastal Lift Specialist Doubles Size of Its Marine Workhorse |author=<!--Staff writer(s); no by-line.--> |date=22 June 2011 |journal=Engineering News-Record |accessdate=14 July 2016 }}{{subscription required}}</ref> | ||
Each barge is approximately {{convert|300|ft}} long by {{convert|72|ft}} in beam, and each barge carries four {{convert|1000|hp}} ] thrusters for station keeping without anchors and mooring lines. The dynamic positioning system is rated to class 3 standards (ABS Class DPS-3).<ref name=vbar /><ref>{{cite web |url=http://www.thrustmaster.net/wp-content/uploads/2013/12/Portable-Dyanmic-Positioning-System-Brochure-2014.pdf |title=Portable dynamic positioning system |author=<!--Staff writer(s); no by-line.--> |date=2014 |website=Thrustmaster of Texas |accessdate=1 August 2016 |archiveurl=https://web.archive.org/web/20140913140643/http://www.thrustmaster.net/wp-content/uploads/2013/12/Portable-Dyanmic-Positioning-System-Brochure-2014.pdf |archivedate=13 September 2014 |url-status=live}}</ref> | Each barge is approximately {{convert|300|ft}} long by {{convert|72|ft}} in beam, and each barge carries four {{convert|1000|hp}} ] thrusters for station keeping without anchors and mooring lines. The dynamic positioning system is rated to class 3 standards (ABS Class DPS-3).<ref name=vbar /><ref>{{cite web |url=http://www.thrustmaster.net/wp-content/uploads/2013/12/Portable-Dyanmic-Positioning-System-Brochure-2014.pdf |title=Portable dynamic positioning system |author=<!--Staff writer(s); no by-line.--> |date=2014 |website=Thrustmaster of Texas |accessdate=1 August 2016 |archiveurl=https://web.archive.org/web/20140913140643/http://www.thrustmaster.net/wp-content/uploads/2013/12/Portable-Dyanmic-Positioning-System-Brochure-2014.pdf |archivedate=13 September 2014 |url-status=live}}</ref> | ||
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==History== | ==History== | ||
===''Bottom Feeder''=== | |||
''Bottom Feeder'' was developed after ] and ] destroyed multiple Gulf of Mexico oil platforms in 2005; it was designed to retrieve sunken platforms as a single piece.<ref>{{cite news |url=https://www.nola.com/news/article_c0d0ad61-b859-51c6-b4e2-5b78752bca44.html |title=Offshore oil and gas industry adapts, but risks remain 10 years after katrina |author=Larino, Jennifer |date=August 19, 2015 |newspaper=The Times Picayune |access-date=25 January 2023}}</ref> According to the ], platforms that cease operation must be either left in place and repurposed as an ], or removed for disposal, within one year. Unlike typical barge cranes, which offer a single hook, ''Bottom Feeder'' consists of two barge-mounted gantry frames, each weighing {{cvt|1250|ST}};<ref name=ICF>{{cite report |url=https://www.bsee.gov/sites/bsee.gov/files/tap-technical-assessment-program/738aa.pdf |title=Decommissioning Methodology and Cost Evaluation |id=BPA No. E13PA000120 |chapter=6.4.4. Versabar Bottom Feeder Lift Systems |pages=6.30–31 |chapter-url=https://www.bsee.gov/sites/bsee.gov/files/tap-technical-assessment-program/738aa.pdf#page=101 |author=ICF Incorporated, LLC |date=2015 |publisher=Bureau of Safety and Environmental Enforcement, U.S. Department of the Interior |access-date=25 January 2023}}</ref> four independent lift blocks are suspended from the frames, each with a capacity of {{cvt|1000|ST}}, allowing greater control and capacity for retrieval.<ref name=Offshore07>{{cite news |url=https://www.offshore-mag.com/rigs-vessels/article/16761170/versabar-invention-lifts-submerged-topsides-in-one-piece |title=Versabar invention lifts submerged topsides in one piece |author=Paganie, David |date=July 31, 2007 |work=Offshore Magazine |access-date=25 January 2023}}</ref> | |||
When Jon Khachaturian showed his first model in April 2006 to a prospective client, they told him that if he built it, they would use it. ''Bottom Feeder'' was built for $30 million by Gulf Marine Fabricators in ]; work started in November 2006 and the vessel passed trials in June 2007. During its debut between June 12 and June 30 of that year, ''Bottom Feeder'' pulled four topsides from the Gulf floor which previously had been considered not retrievable.<ref>{{cite news |url=https://www.bizjournals.com/houston/stories/2007/07/30/story6.html |title=Bottom Feeder pushes Versabar toward the top |author=Gunter, Ford |date=July 29, 2007 |newspaper=Houston Business Journal |url-access=subscription |access-date=25 January 2023}}</ref> ''Bottom Feeder'' lifted more than {{convert|60000|ST}} during more than 100 subsea lift operations in its first four seasons of operation. Upon reviewing the operating experience and refit plans, Versabar realized that modifications to increase hook height and lifting capacity of ''Bottom Feeder'' would be better accomplished with a completely new build.<ref name=Offshore71/> | |||
===Construction=== | ===Construction=== | ||
The larger trusses planned for ''VB-10,000'' each weighed {{convert|3400|ST}}, meaning that each truss would have to be built in two separate sections and then mated together, as none of the cranes at the Gulf Marine Fabricators yard in Aransas Pass were capable of lifting a completed truss.<ref name=Offshore71>{{cite journal |url=http://www.offshore-mag.com/articles/print/volume-71/issue-1/engineering_-construction/new-heavy-lift-vessel-deploys-in-gulf.html |title=New heavy lift vessel deploys in Gulf |date=January 2011 |author=<!--Staff writer(s); no by-line.--> |journal=Offshore |volume=71 |issue=1 |accessdate=14 July 2016}}</ref> Falsework was used to support one section while the two sections were welded together, and ]s moved the trusses onto one barge. Once the trusses were secured to one barge, the transporters were moved to the other half of the trusses to move them onto the second barge. After construction was complete, each gantry was proof tested with a {{convert|2740|ST|adj=on}} load. ''VB-10,000'' was towed from the yard through ] on 7 October 2010.<ref name=Offshore71 /> | |||
Versabar announced that preliminary design work on a larger successor for operations outside the Gulf of Mexico was under way in April 2015.<ref>{{cite web |url=http://analysis.decomworld.com/projects-and-technologies/us-versabar-develops-larger-lifting-unit-global-market |title=US' Versabar develops larger lifting unit for global market |author=<!--Staff writer(s); no by-line.--> |date=29 April 2015 |website=Decomworld |accessdate=14 July 2016}}</ref> | Versabar announced that preliminary design work on a larger successor for operations outside the Gulf of Mexico was under way in April 2015.<ref>{{cite web |url=http://analysis.decomworld.com/projects-and-technologies/us-versabar-develops-larger-lifting-unit-global-market |title=US' Versabar develops larger lifting unit for global market |author=<!--Staff writer(s); no by-line.--> |date=29 April 2015 |website=Decomworld |accessdate=14 July 2016}}</ref> | ||
===Operations=== | ===Operations=== | ||
''VB-10,000'' performed its first lift on |
''VB-10,000'' performed its first lift on 9 October 2010, a {{convert|1530|ST|adj=on}} topside and jacket which had toppled during a storm at Vermilion 285. Approximately a week later, ''VB-10,000'' retrieved a {{convert|2500|ST|adj=on}} topside which had been damaged by fire.<ref name=Offshore71 /> | ||
The Claw was used in 20 lift projects during its first year of deployment.<ref>{{cite news |url=http://fuelfix.com/blog/2012/05/03/new-market-for-dismantling-old-rigs-results-in-the-claw/#photo- |title=New market for dismantling old rigs results in 'The Claw' (blog) |author1=Tresauge, Matthew |author2=Pickrell, Emily |newspaper=Houston Chronicle |date=3 May 2012 |accessdate=1 August 2016}}</ref> | The Claw was used in 20 lift projects during its first year of deployment.<ref>{{cite news |url=http://fuelfix.com/blog/2012/05/03/new-market-for-dismantling-old-rigs-results-in-the-claw/#photo- |title=New market for dismantling old rigs results in 'The Claw' (blog) |author1=Tresauge, Matthew |author2=Pickrell, Emily |newspaper=Houston Chronicle |date=3 May 2012 |accessdate=1 August 2016}}</ref> | ||
<gallery mode=packed caption="''VB-10,000'' near ], Georgia, removing the wreck of the {{ship|MV|Golden Ray}}"> | |||
⚫ | On October 27, 2020, ''VB-10,000'' arrived in Glynn County, Georgia, for the purpose of removing the |
||
File:Golden Ray salvage.jpg|Positioned to cut the stern, with lifting frames installed (Dec 2020) | |||
File:Versabar VB-10,000 and Golden Ray, St. Simons.jpg|Approximately halfway complete (Jan 2021) | |||
File:MV Golden Ray fire, May 14 2021.jpg|''Golden Ray'' cargo catches fire (May 14, 2021) from a welder's torch<ref>{{cite news |url=https://apnews.com/article/ga-state-wire-georgia-02f4d1d69d3b3fff82dbf140a064e60c |title=Flames engulf cargo ship's remains off US coast; no injuries |author=Bynum, Russ |date=May 14, 2021 |work=AP News |access-date=25 January 2023}}</ref> | |||
File:Versabar VB-10,000 St. Simons.jpg|Lifting the last section (Oct 2021) | |||
</gallery> | |||
⚫ | Versabar sold the vessel to TCM 10000 Inc. in October 2020; ], the prime contractor for the salvage of the ''Golden Ray'', also is one of the joint venture partners in TCM 10000.<ref>{{cite news |url=https://thebrunswicknews.com/news/local_news/workhorse-of-the-golden-ray-salvage-grounded-in-mexico/article_05080c23-ea7b-559d-ab84-01aaaddf41ba.html |title=Workhorse of the Golden Ray salvage grounded in Mexico |author=Hobbs, Larry |date=January 18, 2022 |newspaper=The Brunswick News |access-date=25 January 2023}}</ref> On October 27, 2020, ''VB-10,000'' arrived in ], for the purpose of removing the {{ship|MV|Golden Ray}} from the ], where it had been turned on its side for more than a year.<ref>{{Cite web|url=https://www.news4jax.com/news/local/2020/10/25/heavy-lifting-crane-that-will-remove-golden-ray-set-to-arrive-in-st-simons-sound/|title = Heavy-lifting crane that will remove Golden Ray set to arrive in St. Simons Sound|date = 25 October 2020}}</ref> The crane had been stationed in ], since July, due to salvage operations being put on hold due to the ongoing ],<ref>{{Cite web|url=https://www.cnn.com/2020/09/22/us/golden-ray-capsize-st-simons-sound-hearing/index.html|title=New testimony reveals what happened before the Golden Ray capsized off the Georgia coast |website=CNN |date=September 22, 2020}}</ref> as well as the ongoing ].<ref>{{Cite web|url=https://www.wtoc.com/2020/10/08/removal-golden-ray-delayed-again-over-anchor-issue/|title = Removal of Golden Ray delayed again over anchor issue |website=WTOC |date=October 8, 2020}}</ref> The final large section of the ''Golden Ray'' was removed in October 2021.<ref>{{cite news |url=https://apnews.com/article/business-georgia-brunswick-dd23ee80569b2cfdc93802743254167a |title=Georgia shipwreck's last giant chunk removed from water |author=Bynum, Russ |work=AP News |access-date=25 January 2023 |date=October 25, 2021}}</ref> | ||
==References== | ==References== | ||
Line 90: | Line 101: | ||
* {{cite web |url=http://www.popsci.com/bown/2011/product/versabar-vb10000 |title=Versabar VB10000 |author=<!--Staff writer(s); no by-line.--> |date=2011 |publisher=Popular Science |accessdate=1 August 2016 |archiveurl=https://web.archive.org/web/20111118205601/http://www.popsci.com/bown/2011/product/versabar-vb10000 |archivedate=18 November 2011 |url-status=dead}} | * {{cite web |url=http://www.popsci.com/bown/2011/product/versabar-vb10000 |title=Versabar VB10000 |author=<!--Staff writer(s); no by-line.--> |date=2011 |publisher=Popular Science |accessdate=1 August 2016 |archiveurl=https://web.archive.org/web/20111118205601/http://www.popsci.com/bown/2011/product/versabar-vb10000 |archivedate=18 November 2011 |url-status=dead}} | ||
* {{cite news |url=http://www.al.com/news/mobile/index.ssf/2015/03/what_is_the_big_orange_thing_i.html |title=What is the big orange thing in Mobile River? |author=Fambro, Cassie |date=9 March 2015 |newspaper=AL.com |accessdate=1 August 2016}} | * {{cite news |url=http://www.al.com/news/mobile/index.ssf/2015/03/what_is_the_big_orange_thing_i.html |title=What is the big orange thing in Mobile River? |author=Fambro, Cassie |date=9 March 2015 |newspaper=AL.com |accessdate=1 August 2016}} | ||
* {{cite web |url=https://www.gob.mx/cms/uploads/attachment/file/711017/FICHA_T_CNICA_VB_10000.pdf |title=VB-10,000 |publisher=Versabar}} | |||
* {{cite web |url=https://tandtgroup.com/wp-content/uploads/2023/08/VB-10000.pdf |title=VB-10000 |publisher=T&T Marine Salvage, Inc.}} | |||
] | ] | ||
] | ] | ||
] | ] |
Latest revision as of 20:48, 13 November 2024
VB-10,000 prepares to place a decommissioned jacket as an artificial reef off the coast of Louisiana. | |
History | |
---|---|
US | |
Name | VB-10,000 |
Operator | TCM 10,000 (Owner: Oct 2020) |
Builder | Gulf Marine Fabricators |
Yard number | 139 |
Completed | 2010 |
In service | 2010–present |
Homeport | New Orleans |
Identification |
|
Status | In service |
General characteristics | |
Type | Floating crane vessel |
Tonnage | 10,116 |
Length | 277.4 ft (84.6 m) |
Beam | 314 ft (96 m) |
Draught | 20 ft (6.1 m) |
Propulsion | (8) 1,000 hp (750 kW) azimuthing thrusters (4/barge) |
VB-10,000 is a heavy-lift twin-gantry catamaran consisting of two truss space frames atop two barges. The design was derived from Versabar's earlier VB-4000 (aka Bottom Feeder), which was developed to clear debris from toppled oil drilling platforms in the Gulf of Mexico. Instead of sending divers to section the wreckage into pieces, the heavy-lift capability facilitates salvaging the platform as a single piece. The primary benefit is increasing safety by reducing the number of high-risk diving activities, but substantial cost savings can be realized by reducing the number of lifts and shortening the decommissioning schedule.
VB-10,000 is the largest lift vessel ever built in the United States. The color and shape of the trusses on VB-10,000 have prompted comparisons to the McDonald's signature Golden Arches.
Design capabilities
Each truss is nearly 240 feet (73 m) at its highest point, with a hook height of 178 feet (54 m). The truss sections are decoupled from the motion of the barges by using specially-designed hinges. Each truss has a "wide" side and a "narrow" side, denoting the relative footprint of the truss-to-barge connection. The "wide" side is essentially pinned to the barge with a single degree of freedom (rotational). The "narrow" side has the specially-designed double joint allowing two rotational degrees of freedom. Each barge has one narrow and one wide interface. The hinges use Trelleborg AB Orkot bearings, a composite material which provide a longer life and lowered maintenance compared to the lubricated bronze bearings used in Bottom Feeder.
Once the wreck has been lifted clear of the water, there is 160 feet (49 m) of clearance between the two barge hulls for a separate cargo barge to enter. The load may be placed onto the separate barge for transportation. VB-10,000 is capable of lifting 7,500 short tons (6,800 t) in a single lift, nearly doubling the 4,000-short-ton (3,600 t) capacity of its predecessor.
Each barge is approximately 300 feet (91 m) long by 72 feet (22 m) in beam, and each barge carries four 1,000 horsepower (750 kW) dynamic positioning thrusters for station keeping without anchors and mooring lines. The dynamic positioning system is rated to class 3 standards (ABS Class DPS-3).
Versabar developed "The Claw" at Chevron's request. "The Claw" is a gantry-suspended submersible grappling device designed to retrieve sunken debris without sending divers to attach rigging. Each gantry on VB-10,000 can support a single Claw, and each Claw is capable of lifting 2,000 short tons (1,800 t) from locations as deep as 350 feet (110 m) underwater. The total lifting capacity of a single Claw is 3,000 short tons (2,700 t), but the claw itself weighs 1,000 short tons (910 t). Initial sketches for the Claw were developed in December 2010, and the Claw was first deployed in August 2011.
History
Bottom Feeder
Bottom Feeder was developed after Hurricanes Katrina and Rita destroyed multiple Gulf of Mexico oil platforms in 2005; it was designed to retrieve sunken platforms as a single piece. According to the Minerals Management Service, platforms that cease operation must be either left in place and repurposed as an artificial reef, or removed for disposal, within one year. Unlike typical barge cranes, which offer a single hook, Bottom Feeder consists of two barge-mounted gantry frames, each weighing 1,250 short tons (1,130 t); four independent lift blocks are suspended from the frames, each with a capacity of 1,000 short tons (910 t), allowing greater control and capacity for retrieval.
When Jon Khachaturian showed his first model in April 2006 to a prospective client, they told him that if he built it, they would use it. Bottom Feeder was built for $30 million by Gulf Marine Fabricators in Aransas Pass, Texas; work started in November 2006 and the vessel passed trials in June 2007. During its debut between June 12 and June 30 of that year, Bottom Feeder pulled four topsides from the Gulf floor which previously had been considered not retrievable. Bottom Feeder lifted more than 60,000 short tons (54,000 t) during more than 100 subsea lift operations in its first four seasons of operation. Upon reviewing the operating experience and refit plans, Versabar realized that modifications to increase hook height and lifting capacity of Bottom Feeder would be better accomplished with a completely new build.
Construction
The larger trusses planned for VB-10,000 each weighed 3,400 short tons (3,100 t), meaning that each truss would have to be built in two separate sections and then mated together, as none of the cranes at the Gulf Marine Fabricators yard in Aransas Pass were capable of lifting a completed truss. Falsework was used to support one section while the two sections were welded together, and self-propelled modular transporters moved the trusses onto one barge. Once the trusses were secured to one barge, the transporters were moved to the other half of the trusses to move them onto the second barge. After construction was complete, each gantry was proof tested with a 2,740-short-ton (2,490 t) load. VB-10,000 was towed from the yard through Aransas Pass on 7 October 2010.
Versabar announced that preliminary design work on a larger successor for operations outside the Gulf of Mexico was under way in April 2015.
Operations
VB-10,000 performed its first lift on 9 October 2010, a 1,530-short-ton (1,390 t) topside and jacket which had toppled during a storm at Vermilion 285. Approximately a week later, VB-10,000 retrieved a 2,500-short-ton (2,300 t) topside which had been damaged by fire.
The Claw was used in 20 lift projects during its first year of deployment.
- VB-10,000 near St. Simons Island, Georgia, removing the wreck of the MV Golden Ray
- Positioned to cut the stern, with lifting frames installed (Dec 2020)
- Approximately halfway complete (Jan 2021)
- Golden Ray cargo catches fire (May 14, 2021) from a welder's torch
- Lifting the last section (Oct 2021)
Versabar sold the vessel to TCM 10000 Inc. in October 2020; T&T Salvage, the prime contractor for the salvage of the Golden Ray, also is one of the joint venture partners in TCM 10000. On October 27, 2020, VB-10,000 arrived in Glynn County, Georgia, for the purpose of removing the MV Golden Ray from the St. Simons Sound, where it had been turned on its side for more than a year. The crane had been stationed in Fernandina Beach, Florida, since July, due to salvage operations being put on hold due to the ongoing COVID-19 pandemic, as well as the ongoing 2020 Atlantic hurricane season. The final large section of the Golden Ray was removed in October 2021.
References
- ^ US granted 7527006, Khachaturian, Jon, "Marine lifting apparatus", published 5 May 2009, issued 5 May 2009, assigned to Khachaturian, Jon
- US granted 8960114, Khachaturian, Jon, "Marine lifting apparatus", issued 31 May 2012, assigned to Khachaturian, Jon
- Paganie, David (August 2007). "Versabar invention lifts submerged topsides in one piece". Offshore. 67 (8). Retrieved 14 July 2016.
- Tresaugue, Matthew (7 May 2014). "Safety, cost driving new technology for removing rigs". Houston Chronicle. Retrieved 1 August 2016.
- Buchanan, Susan (21 August 2012). "Push Is On To Declutter Gulf of Idle Iron". Maritime Reporter. Retrieved 14 July 2016.
- Dennis, Lew (2012). "Risk Reduction in Offshore Decommissioning: Chevron's Success in the Gulf of Mexico" (PDF). cablejoints.co.uk. Archived (PDF) from the original on 25 July 2016. Retrieved 1 August 2016.
- ^ "VB 10,000". Versabar. 2013. Retrieved 14 July 2016.
- "Golden arches causing a stir in the Gulf". The Lafourche Gazette. 4 October 2013. Retrieved 1 August 2016.
- "The Versabar VB 10,000 (blog)". International Marine Consultancy. 5 January 2012. Retrieved 1 August 2016.
- ^ "The Articulating Joint". Versabuoy. 2011. Retrieved 14 July 2016.
- ^ "New heavy lift vessel deploys in Gulf". Offshore. 71 (1). January 2011. Retrieved 14 July 2016.
- Trelleborg, AB (3 January 2013). "Versabar's Claw Gets a Grip on Marine Salvage". Product Design and Development. Retrieved 14 July 2016.
- Devine, Peter (5 July 2011). "The Removal of Green Canyon 6A By Versabar's VB-10000" (PDF). rickblog.biz. Archived (PDF) from the original on 25 July 2016. Retrieved 1 August 2016.
- "Coastal Lift Specialist Doubles Size of Its Marine Workhorse". Engineering News-Record. 22 June 2011. Retrieved 14 July 2016.(subscription required)
- "Portable dynamic positioning system" (PDF). Thrustmaster of Texas. 2014. Archived (PDF) from the original on 13 September 2014. Retrieved 1 August 2016.
- Rutledge, Tanya (2 May 2012). "The Claw Is A Grabber Of A Product (blog)". Houston Chronicle. Retrieved 1 August 2016.
- Schott, Cassie (March 2012). "The Claw: Innovation In Offshore Salvage Operations". Ocean News & Technology. 18 (2): 30–32. Retrieved 14 July 2016.
- McCulley, Russell (1 January 2012). "Jaws of steel". Offshore Engineer. Retrieved 14 July 2016.
- Larino, Jennifer (August 19, 2015). "Offshore oil and gas industry adapts, but risks remain 10 years after katrina". The Times Picayune. Retrieved 25 January 2023.
- ICF Incorporated, LLC (2015). "6.4.4. Versabar Bottom Feeder Lift Systems" (PDF). Decommissioning Methodology and Cost Evaluation (PDF) (Report). Bureau of Safety and Environmental Enforcement, U.S. Department of the Interior. pp. 6.30–31. BPA No. E13PA000120. Retrieved 25 January 2023.
- Paganie, David (July 31, 2007). "Versabar invention lifts submerged topsides in one piece". Offshore Magazine. Retrieved 25 January 2023.
- Gunter, Ford (July 29, 2007). "Bottom Feeder pushes Versabar toward the top". Houston Business Journal. Retrieved 25 January 2023.
- "US' Versabar develops larger lifting unit for global market". Decomworld. 29 April 2015. Retrieved 14 July 2016.
- Tresauge, Matthew; Pickrell, Emily (3 May 2012). "New market for dismantling old rigs results in 'The Claw' (blog)". Houston Chronicle. Retrieved 1 August 2016.
- Bynum, Russ (May 14, 2021). "Flames engulf cargo ship's remains off US coast; no injuries". AP News. Retrieved 25 January 2023.
- Hobbs, Larry (January 18, 2022). "Workhorse of the Golden Ray salvage grounded in Mexico". The Brunswick News. Retrieved 25 January 2023.
- "Heavy-lifting crane that will remove Golden Ray set to arrive in St. Simons Sound". 25 October 2020.
- "New testimony reveals what happened before the Golden Ray capsized off the Georgia coast". CNN. September 22, 2020.
- "Removal of Golden Ray delayed again over anchor issue". WTOC. October 8, 2020.
- Bynum, Russ (October 25, 2021). "Georgia shipwreck's last giant chunk removed from water". AP News. Retrieved 25 January 2023.
External links
- "Versabar—'Bottom Feeder'" (PDF). Construction Innovation Forum. 2008. Retrieved 14 July 2016.
- Schilling, David Russell (10 February 2015). "Oil Rig Remover: Stable in Hurricane Seas, 4,000 Ton Lift Capacity". industry tap into news. Retrieved 14 July 2016.
- Hays, Kristen (8 August 2007). "Bottom Feeder recovers undersea wreckage from Gulf". Houston Chronicle. Retrieved 14 July 2016.
- "Versabar VB10000". Popular Science. 2011. Archived from the original on 18 November 2011. Retrieved 1 August 2016.
- Fambro, Cassie (9 March 2015). "What is the big orange thing in Mobile River?". AL.com. Retrieved 1 August 2016.
- "VB-10,000 [data sheet]" (PDF). Versabar.
- "VB-10000 [data sheet]" (PDF). T&T Marine Salvage, Inc.