JUNE 28, 2016 —The first production version of Damen Shipyards’ InvaSave ballast water treatment system – intended for use at Groningen Seaports – will be on display at the upcoming DelfSail sailing
Last year, the agency announced that it would order a new series of vessels—up to 37 in total for about $450 million— known as the Maneuver Support Vessel (Light), MSV(L) for its watercraft fleet. At print time, no RFP had been released, but it is expected to be issued in the next few weeks. The Army currently has a fleet of 132 vessels that perform a large percentage of the U.S. forces’ equipment and supply deliveries. Missions for the fleet are broken up into four categories: (1) Landing Craft; (2) Ship-to-Shore Enablers; (3) Towing and Terminal Support Operations; (4) Watercraft Operations Support.
The U.S. Army’s fleet is meant to be deployed worldwide, and can support operational movement and maneuver and force repositioning. Additionally, the agency says, the vessels perform a variety of roles.
Vessel type is broken up into two categories:
Details on the MSV(L)
The upcoming MSV(L) will replace the Landing Craft Mechanized 8 (LCM-8) (pictured above), which has been in service since 1967. The LCM-8 travels at 12 knots with no load and 8 knots or less with load. The LCM-8 is small in size, measuring just 74 ft x 21 ft, and can be used in confined areas. It has a range of 332 nautical miles unloaded and 271 nautical miles loaded. Designed for operations in rough waters, the LCM-8 can maneuver through sea state 3, breakers and can ground on a beach. Its bow ramp enables roll-on / roll-off (RO/RO) operations with wheeled and tracked vehicles.
The MSV(L) will feature an increased payload and speed over its predecessor, LCM-8.
The introduction of the MSV(L) into the fleet, says the Army, “will enable the agency to meet its movement, maneuver, and integrated expeditionary sustainment requirements with a more agile, versatile; and capable platform. The MSV(L) will conduct movement and maneuver of tactical force elements as well as traditional Army Watercraft System sustainment operations.”
The MSV(L) will also be able to operate in a variety bodies of waters including coastal waters, rivers and narrow waterways.
According to the agency, Col. Michael M. Russell Sr. Army G-8 FD Division Chief, called the MSV(L) program a lynchpin to the Army’s watercraft strategy. The landing craft will have the ability and capacity to carry a tank, a Joint Light Tactical Vehicle (JLTV), a Stryker armored fighting vehicle, troops, or supplies.
Russell added that the system would not be designed from scratch, and will likely be based on an existing design that will be “ruggedized” and made to fit the Army’s mission profile.
Industry Players Express Interest
One of the designs expected to be in the running is Constructions Industrielles de la Méditerranée’s (CNIM) L-Cat design.
Last December it was announced the CNIM would team up with Fincantieri Marine Group (FMG), the U.S. subsidiary of Fincantieri, Oshkosh Defense, LLC, and Watercraft Logistics Services (WLS) to pursue the contract.
The L-Cat (Landing Catamaran Craft) is an innovative and rapid amphibious ship with a RO/RO design that integrates a mobile loading platform in a catamaran hull. This enables for personnel, armored vehicles and equipment to be unloaded in areas where there are no port facilities and shallow waters.
Intended for shore-to-shore applications, the L-Cat is already successfully used by the French National Navy, under the name EDA-R.
CNIM says that “during amphibious operations, it (the L-Cat) guarantees optimal transit speed, rapid loading and unloading of the deck.” This helps reduce threat during exposure time and offers a high degree of autonomy, with the vessel able to operate in a rage of 500 to 700 nautical miles, depending on the load.
Measuring 30 m x 12.6 m, the L-Cat has a maximum payload capacity of 100 tonnes, can reach speeds of up to 30 knots when empty and 18 knots when loaded to maximum payload.
The design’s proven track record, along with its own successful history of building vessels for the Army, Coast Guard and Navy, makes the group the optimal choice for the MSV(L) build program, according to Francesco G. Valente, President and CEO of FMG. “We believe that our world-class team and proven design represent the lowest risk and lowest total life-cycle cost to the U.S. Army,” said Valente.
Valente notes that FMG shipyards—Fincantieri Marinette Marine, Fincantieri Bay Shipbuilding and Fincantieri Ace Marine—have experience in building these types of landing craft, having built the LCM-6, LCM-8 and LCU landing craft in Marinette. The shipbuilder has also had the distinction of building 562 landing craft for the Army and Navy over a period of 23-years. And Marinette Marine was also half of the RB-M team (Kvichak Industries the other half) that built the Response Boat-Medium for the U.S. Coast Guard.
Meeting Production Needs, Who Wants In?
According to the Army’s MSV(L) DRAFT-Production Schedule, it is expected that one prototype will be built and tested by FY19, four will be built during Low Rate Initial Production (LRIP) between FY 21 and FY 22; and, should the program reach full scale production, 32 will be produced during a four-year period between FY23 through FY27.
Kvichak, formerly known as Kvichak Marine Industries, now part of the Vigor group of companies, could also be a contender should it choose to pursue the contract.
The boat builder is listed on the Army’s list of Interested Prime Contractors along with Bollinger Shipyards, Conrad Shipyards, Ingalls Shipbuilding, Derecktor, Sterling Shipyard, Swiftships, LLC, and United States Marine, Inc.—the list is a prime example of the variety of yards interested in the contract, as well as the agency’s willingness to open up the contract pursuit to all shipyard types.
Kvichak is no stranger to producing vessels for government agencies in a full-scale production cycle, having long been a builder of pilot and patrol boats. Most notably, Kvichak was the other half of Team RB-M. The team built and delivered 174 RB-Ms for the Coast Guard, on time and on budget, completing the program in 2015.
The other builders on the list also have diverse portfolios, making each a feasible choice for the MSV(L) program.
Bollinger has long been a builder of patrol vessels for both the U.S. Coast Guard and U.S. Navy. Most recently delivering the 17th Fast Response Cutter to the U.S. Coast Guard.
Conrad has, perhaps, the most diverse portfolio, with experience in the construction, conversion and repair of a wide variety of steel and aluminum marine vessels across its shipyards for both commercial and government customers—Conrad’s Orange shipyard has produced a number of vessels for the army. Conrad, as most are aware, is currently building the first LNG bunker barge for operation in U.S.
Derecktor could put itself back in the shipbuilding game big time, should it win this contract. The yard has seen its share of trouble over the last decade, having filed for bankruptcy in Connecticut and losing its Bridgeport facility in the process, but Derecktor is putting in the work to get itself to the level it once was. The builder has experience building a variety of innovative vessel types both in the commercial and private yacht sector, including ferries, security vessels, patrol crafts, research vessels and workboats.
Ingalls Shipbuilding, a division of Huntington Ingalls Industries, has an extensive history with both the Coast Guard and Navy. Ingalls is currently building vessel 6 through 8 in the National Security Cutter Program for the Coast Guard’s fleet at its Pascagoula, MS shipyard. Under the program, eight vessels will be built to replace the aging 378-ft high endurance cutters. The shipbuilder also recently announced that the U.S. Navy’s 10th San Antonio-class amphibious transport dock, John P. Murtha (LPD 26), successfully completed acceptance trials. Under its contract with the Navy, Ingalls has built and delivered nine ships in the San Antonio Class. LPD 26 will be delivered in May. The 11th LPD, Portland (LPD 27) will be christened later this month. The yard has also received advanced procurement funding for long-lead-time material for the 12th ship in the series, the LPD 28.
Texas-based Sterling Shipyard, started by Harry Murdock and Brad Taylor, formerly of Orange Shipbuilding, has built a number of tank barges and towboats.
Swiftships specializes in the construction of small to medium-sized vessels made with steel, aluminum and fiberglass. It has delivered boats to the U.S. military, both commercial and private companies and 52 foreign countries.
United States Marine, Inc., Gulfport, MS, a designer and builder of fast patrol and special operations craft for the U.S. and foreign militaries, has predominately been a builder of military, patrol and special warfare boats in the 21 ft to 90 ft range. In its 30 plus years in business it has delivered over 500 craft to the U.S. Navy, USSCOCOM, NAVSEA and foreign militaries.
Oil and gas E&P generates billions of dollars worth of business annually for shipyards in the form of newbuilds, conversions, and ongoing repairs and maintenance. With the downturn in oil, however, much of that business has dried up and forced shipyards that depend on the oil patch to rethink their strategy. Many are repositioning themselves to pursue other markets or are undertaking capital investments in their facilities to be more efficient and competitive.
There’s no better example than VARD Holdings, one of the world’s largest shipbuilding groups, whose portfolio is heavily focused on offshore oil and gas. Amid losses of NOK1.29 billion (about $148 million) VARD said last month it would preserve its core expertise and skilled employee base and use its existing shipyard capacity until an eventual recovery in its core market. Among the areas it was pursuing were the offshore wind and aquaculture markets. It will also work more closely with its major shareholder, Fincantieri, to support the cruise vessel and offshore patrol vessel sectors.
NORTH AMERICAN SHIPYARDS INVEST, DIVERSIFY
While operators in the Gulf of Mexico have cold stacked many of their vessels, Galliano, LA-based Edison Chouest Offshore, one of the world’s largest offshore support vessels operators, announced last month that it would invest $68 million in opening a new shipyard in the Port of Gulfport, MS. The shipyard, called TopShip, LLC, will operate at the former Huntington Ingalls Composite Facility, which was acquired by the Port of Gulf Port last March.
The new yard was made possible through an incentive package from the Mississippi Development Authority that would help bring TopShip to the port and create over 1,000 jobs, according to Jonathan Daniels, Executive Director and CEO of the Mississippi State Port Authority—the job creation would prove a significant boost to the local economy.
Lawmakers approved an $11 million package through the Mississippi Major Economic Impact Authority—with $10 million going to discretionary funds and $1 million allocated for workforce training. Additionally, the Port has said it would provide $25 million in Katrina-CDBG funds for infrastructure improvements.
ECO already operates shipyards in the U.S. and one in Brazil: North American Shipbuilding, Larose, LA, LaShip, Houma, LA, Tampa Ship, Tampa FL, Navship in Brazil, and Gulf Ship which is also in Gulfport. Most of ECO’s fleet has been constructed at one of its yards.
Having been born in Mississippi, Gary Chouest, ECO President and CEO expressed his gratitude towards the state for the opportunity to provide quality service to its customers, and help the community thrive.
“We are indeed excited about the opportunities to grow TopShip in a business friendly state, one where we can reach out into the community to recruit various skill sets, developing a quality workforce that will allow TopShip not only to compete locally, but also globally,” said Chouest. “With the help of the state of Mississippi, we will modify our TopShip facility to become one of the safest and most efficient shipyards in the nation, building Chouest pride for our employees.”
Mississippi’s VT Halter Marine, too, has seen how investing in its facilities can help business. Over the last 10 years, VT Halter has invested over $100 million to upgrade its three facilities in Mississippi. This includes expanding beyond the newbuild business with a $13 million investment in a new drydock and repair facility back in 2015, the addition of a blast and paint facility; and the purchase of a 76,000 ft2 climate-controlled warehouse.
The investments have not only allowed growth into the repair business, but also made VT Halter Marine more efficient in its newbuild projects, enabling it to meet the growing demands of the increasingly popular Articulated Tug and Barge (ATB) market. Most recently, VT Halter completed the second of two 250,000 bbl ATB units for Bouchard Transportation (see this month’s CEO Spotlight); and currently is preparing the delivery of the second of two 130 ft, 6,000 hp ABS class ocean towing ATB tugs for Bouchard.
VT Halter Marine is also currently building two 2,400 TEU LNG-powered combination ConRo ships for Crowley Maritime Corporation’s liner services group. El Coquí and Taíno will operate in the Jones Act trade between Florida and Puerto Rico and will offer a 38% reduction in CO2 emissions per container. The ships will be delivered by VT Halter Marine in 2017.
Another yard that has benefited from the use of Liquefied Natural Gas (LNG) as a marine fuel is Conrad Industries. The last few years has seen Conrad Industries, Inc., Morgan City, LA shifting its business approach and diversifying its portfolio—among the shipbuilder’s offerings, it builds tugs, ferries, ocean tank barges, liftboats and specialty barges. In 2015 the yard’s orderbook received a much-needed boost with new construction contracts, including the history-making construction of the first LNG bunker barge for the North American market.
Currently under construction at Conrad’s Orange Shipyard, Orange, TX, the 2,200 m3 capacity bunker barge is being built for WesPac Midstream LLC. Designed by Bristol Harbor Group, Inc., Bristol, RI, and built to ABS class, the barge when delivered later this year will serve TOTE’s Marlin class containerships—Isla Bella and Perla del Caribe, both built at General Dynamics NASSCO. Those LNG-fueled ships are already operating in the Jacksonville to Puerto Rico trade.
It was also certified by GTT to construct the special LNG containment system on the LNG transport bunker barge.
The shipbuilder has also broadened its offerings further with the expansion of its Deepwater South facility in Amelia, LA. The 52-acre site has enabled Conrad to build large articulated barge units. Currently there are eight tank barges under construction at Deepwater South—ranging from 55,000 bbl to 83,000 bbl capacity.
Conrad says that Deepwater South will undergo a wide range of improvements this year including the addition of a new fabrication and assembly building—which will allow for the uninterrupted construction of hull modules year round; and a new Panel Line Building—expected to begin operations this April. The Panel Line Building will be equipped with an automated welding system, a stiffener fitting gantry to automate the fit-up of stiffeners on the panels, and an 8-headed automated stiffener welder—allowing for the shipyard to process 350 tons of steel per week.
THREE NEW FAB BAYS
C&C Marine and Repair, Belle Chasse, LA, is focusing on increasing efficiencies to maintain its competitive advantage. The yard recently added three new fabrication bays giving C & C an additional 115,000 ft2 for the construction of boats and barges; and a fabrication area of 230,000 ft2.
Over the next few months, the yard plans to order two additional transporters (it currently has two capable of moving 600 tons) with a capacity of 830 tons, bringing the total capacity of its transporters to 1,430 tons. This, says New Construction Manager Matthew J. Dobson, will create new opportunities for the yard, and enable C & C to begin taking orders for the fabrication of new 30,000-barrel barges and allow it to transport larger vessels to land for repair projects and paint jobs.
The yard currently has 29 new construction vessels under contract including three 6,600 hp towboats, one 280 ft PSV, one 270 ft cutter head barge, sixteen tank barges and eight deck barges of various sizes.
EXPANDING INTO LARGER VESSELS
Back in 2014, Metal Shark Boats, Jeanerette, LA, was already a successful builder of aluminum vessels, but it had its sights on the construction of vessels up to 90 ft in length and larger, as well as expansion of its portfolio to include steel. It also signed a technology agreement with Damen that would allow it to build offshore patrol boats up to 165 ft in length.
With the development of the new shipyard in Franklin, LA, Metal Shark, now employs 230 workers between its boat yards, and is among the busiest boatbuilders in the U.S., currently producing a number of 38 ft, 45 ft and 55 ft Defiant class vessels and constructing large orders for the U.S. Coast Guard, U.S. Navy and multiple agencies across the U.S. It also delivered a sophisticated 75 ft multiple purpose port security fire boat to the Port of South Louisiana.
EYE ON THE CARIBBEAN MARKET
For St. Johns Ship Building, diversification of its portfolio and the markets it reaches will propel its next evolution. The small shipyard, which has been under private ownership since 2006, recently delivered the first Elizabeth Anne class of towing vessels to the Vane Brothers Company. The tug is the first in a series of eight the Palatka, FL-based yard is building for the operator. At press time the second vessel was in the water and the third was about to be launched.
St. Johns Ship Building’s yard sits along the St. Johns River—giving it the unique advantage of being on the East Coast with access to both the Gulf of Mexico and the Caribbean—and its because of its location St. Johns has been able to produce such a diverse portfolio. From OSVs to tugs (a new market for the builder), to coast guard vessels and cargo ships, St. Johns’ 100 acre facility and its 150 employees are at the ready to take on any project.
St. Johns Ship Building President Steven Ganoe says that because the yard doesn’t solely rely on the oil and gas market it has been able to keep business steady during the downturn in the oil and gas market.
Ganoe says the shipyard is keeping tabs on the Caribbean market to see how it develops in the wake of the easing of restrictions on Cuba travel—and determine how St. Johns can help meet any growing demand in that specific market. In the meantime, the shipbuilder continues to make improvements to its facility—having recently added an 18,000 ft2 assembly shop and a Messer CNC 80 ft table to help make production more efficient.
REBORN AS WORLD MARINE
Earlier this year it was announced that World Marine LLC—owned by the Teachers’ Retirement System of Alabama and the Employees’ Retirement System of Alabama—had bought all of Signal International’s assets including its full service and heavy fabrication facilities in Mobile, AL and Pascagoula, MS.
According to the Chapter 11 plan of liquidation, World Marine is seeking to become a leader in the ship repair and ship construction market.
World Marine assures that its experienced team—led by Dick Marler—can handle all types of vessels, but the company will place a high focus on new construction, and the repair and conversion of ocean going vessels and offshore drilling rigs—serving the energy, government and commercial marine markets.
World Marine’s construction and repair facilities include three drydocks—a 22,000-ton Panamax class, a 4,200-ton, and a 20,000 MT heavy lift. The company says its future plans include pursuing the emerging LNG market for the construction of bunker barges and transfer vessels.
NEW DRYDOCK AT COLONNA’S
A decade after the American Civil War ended, Colonna’s Shipyard was founded by Charles J. Colonna. Now, 140 years later, the yard continues to operate and develop with the times.
The shipyard currently occupies over 100 acres of land in the Berkley section of Norfolk, VA, and has water access to over 3,000 ft of vessel berthing space and a lift capacity to accommodate vessels up to 850 long.
Colonna’s is also home to the largest Travel lift in the U.S.—with a capacity of 1,000 metric tons.
As part of its future improvement plans, Colonna’s expects to purchase an additional 25 acres across the street from its main entrance, and add a new floating dry dock.
A few months ago, the Governor of Virginia, Terry McAuliffe, announced that the yard would undergo a significant expansion, with Colonna’s investing over $30 million to expand its operations in the City of Norfolk. The expansion would include a new larger drydock, dredging and improvement work to the channel and bulkhead work, and the creation of 51 jobs to the area.
The new floating drydock, which will be named the Charles J., will have a lifting capacity of 11,500 metric tons, an overall length of 595 ft and an inside width of 108 ft. The Charles J. is expected to be fully operational in early 2017 and will accommodate a variety of vessel types including ferries, tugs, barges, containerships, OSVs and several type of government vessels.
Colonna’s CEO Tom Godfrey, said the capital investments would “allow Colonna’s to continue to provide quality services to both commercial and government customers throughout the region.”
NEW DRYDOCKS, AT BAE, DETYENS, BAY SHIPBUILDING
Meanwhile, South Carolina-based Detyens Shipyards recently took delivery of its new floating drydock. Built by Corn Island Shipyard, Grandview, IN, the 400 ft x 108 ft drydock will enable the yard to provide a more cost-effective service to smaller tonnage vessels.
According to Detyens, in the past, smaller vessels would have to piggy back in the yard’s larger graving dock—now with the addition of the smaller dock, it can provide drydock services to vessels up to 11,000 DWT. The new dock sits along the yard’s F Pier, which recently underwent upgrades that included the addition of shipyard services, additional lighting, and dredging of 30 ft.
On the U.S. West Coast, BAE Systems is investing $100 million to build and install a second, larger drydock at its San Diego shipyard. Currently under construction in China, the 950 ft drydock will have a lifting capacity of 55,000 long tons and is expected to support the expansion of the Navy ships homeported in San Diego, which are expected to increase by 20 from 60 to 80 by 2020, according to BAE’s Director of Communications, Karl Johnson. BAE Systems is among the leading providers of maintenance and modernization services of the U.S. Navy.
Portland, OR, Vigor Industrial has been aggressively growing its business through the acquisition and merger with several other regional shipyards, including Kvichak Marine Industries, Seattle, WA.
In 2014, Vigor’s Portland yard began operating its new $50 million drydock, the Vigorous. It has been consistently booked since, supporting hundreds of jobs and attracting work that could not have previously be performed in the region, according to Vigor’s Athena Maris.
Vigorous, with a lifting capacity of 80,000 long tons, is 960 ft long with an inside width of 186 ft and has taken on several repair work projects including the repair work on cruise vessels, and most recently, this past summer, on repair the hull of the multipurpose icebreaker on charter for Shell, the MSV Fennica.
The addition of Vigorous at the Portland yard, enabled Vigor to also reinvest in some of its existing assets. Specifically, Vigor was able to upgrade and transfer one of Portland’s drydocks to its Seattle facility. In Seattle, the drydock Vigilant will be used to perform repair work on the recently awarded Structural Enhancement Drydock Availability (SEDA) Projects. There, the U.S. Coast Guard cutters Bertholf and Waesche will both undergo significant structural enhancement work, system upgrades and maintenance.
Beyond that Vigor is placing capital investments efforts on its environmental stewardship—this includes working on a comprehensive storm water management system at its Portland facility and a shallow-water estuary to help increase the survival of young salmon and steelhead trout on their way to the ocean at its Seattle facility.
On the Great Lakes, Fincantieri Bay Shipbuilding (FBS) parent, Fincantieri Marine Group (FMG), has invested more than $33 million in capital improvements to increase manufacturing capabilities at its facility in Sturgeon Bay, WI. FMG is currently in negotiations to acquire additional property adjacent to the shipyard to further expand its serial production capabilities.
FBS has completed its new Pipe/Outfitting Building & New Welding Center and added a new floating dry dock that has a total lift capacity of 7,000 long tons. The versatile dry dock can be sectioned off, with a 216 ft section and a 432 ft section.
It has completed the expansion of its Fabrication Building and has added a new Beveling Plasma Burning Machine, 200-ton Yard Transporter, IMG Micro Panel Line, and 1000-ton CNC Press.
Back in 2012, FBS added a 45 ft x 47 ft “megadoor” to the south end of its Fabrication Building 311 to allow larger vessels to be built indoors and moved outside for launching and a Manitowoc 300-ton capacity Model 2250 Crawler Crane.
FBS employs 600 to 800 full-time shipyard professionals and expands its workforce to 1,100 to 1,200 using temporary and contract workers during the Winter Fleet repair season.
FBS currently has under construction six tugs and seven barges of ATB design. Accompanying photo shows the ATB tug Barbara Carol Ann Moran and the ocean tank barge Louisiana at the shipyard. As we reported back on February 22, the shipyard has 14 vessels undergoing a wide range of repairs and repowerings for the Great Lakes Winter Fleet.
SAN DIEGO BOATBUILDER GETS BIGGER, GREENER
Vigor, however, isn’t the only shipbuilder looking to help the environment. San Diego based Marine Group Boat Works will soon break ground on a $1.5 million green initiative that will see the yard install a solar panel system compliant with the state of California’s Solar Initiatives.
The addition of solar power comes during one of the company’s most exciting periods, says Marine Group Boat Works’ (MGBW) Leah Yam. MGBW, which has two yards in San Diego and one in San Jose del Cabo, Mexico, recently completed a $2.5 million renovation to its deepwater floating docks system, and will install the final set of docks this spring—making it fully ready for in-water repairs on vessels up to 420 ft in length.
Among MGBW’s most recent repair and retrofit projects is the $19 million refurbishment of the Golden Gate ferry M.S. San Francisco and the conversion of two high-speed aluminum Sub Chapter K San Francisco ferries for the Water Emergency Transportations Authority.
Beyond its repair business, MGBW is also making a dent in the new construction market. Since launching its new construction division in 2008, the shipyard has increased its employee numbers by about 195%, employing 185 workers. Currently, MGBW has five 60 ft aluminum dive boats under construction for the U.S. Navy—the contract calls for the construction of 16; and most recently delivered the first in a series of steel workboats to Japan—two additional boats are on their way, and twelve are on the production schedule, says Yam.
CANADIAN YARDS INVEST FOR NSPS
The end of 2014 saw the completion of Seaspan’s Shipyard Modernization project. Funded entirely by the shipyard, the $155 million project helped transform Seaspan’s Vancouver Shipyards into one of the most modern yards in Canada.
The two-year project included the addition of four new fabrication buildings—housing a sub assembly shop; panel shop with panel line; block assembly shop; pre-outfitting shop; paint and blast shop; and Canada’s largest (300 tonne) permanent gantry crane.
The expansion was integral to meeting the newbuild project requirements for the Canadian Coast Guard and the Royal Canadian Navy.
Vancouver Shipyards is currently building the first Offshore Fisheries Science Vessel (OFSV) under the National Shipbuilding Procurement Strategy (NSPS) for the Canadian Coast Guard. The 208 ft x 52.5 ft OFSV will help support scientific and ecosystem research critical to the economic viability and health of the region’s marine environment. At press time, 30 of the 37 blocks of the OFSV were under construction.
Seaspan also invested an additional $15 million at its Victoria Shipyards, upgrading its facilities with the addition of a new operation center that, according to Seaspan, would help support testing, trails and commissioning new federal vessels.
At press time, there were nine vessels undergoing refits and drydock work at one of Seaspan’s yards—including the 94 ft Canadian Coast Guard vessel Siyay with is undergoing a nine-month midlife modernization refit.
Keeping the future in mind, Seaspan is also investing in its workforce. Seaspan employs 1,500 employees across its three shipyards—Vancouver Shipyards, Vancouver Drydock, and Victoria Shipyards.
In 2015, the shipbuilder received a Canada Jobs Grant to develop e-learning tools for its expanding workforce—the goal of the funding was/is to help ensure workers have a common understanding of the shipbuilding processes, practices, and protocols.
Seaspan also recently announced that it plans to invest $2 million over the next seven years to help support teaching and research in the University of British Columbia’s naval architecture and marine engineering programs.
At Irving Shipbuilding, Halifax, NS, Canada, the company’s $330 million capital investment plan is already paying dividends. Last September, it marked the start of production of the HMCS Harry DeWolf, the first Arctic Offshore Patrol ship (AOPS) for Canada.
The ship is the first of up to 21 vessels that will renew Canada’s combatant fleet over the next 30 years under the NSPS. Irving Shipbuilding has built more than 80% of Canada’s current combatant ships.
Current direct employment at Marine Fabricators in Dartmouth and the Halifax Shipyard is about 900. Over the next two years, the workforce at both sites is expected to rise to 1,600, with over 1000 directly employed on AOPS production. In addition, total employment at Irving Shipbuilding (all operations) is forecasted to rise to over 2,500 direct employees at peak production of the larger Canadian Surface Combatant vessels that will replace Canada’s current fleet of Halifax Class frigates.
To date, the modernization at Irving Shipbuilding and the AOPS contract have resulted in over $1 billion in spending commitments.
Meanwhile, one of the oldest shipyards in North America, Chantier Davie Canada Inc., Levis, Quebec, has taken its first steps in the Resolve-Class Auxiliary Oiler Replenishment ship project. The project involves the conversion of a containership into an Auxiliary Oiler Replenishment Ship that will be delivered to the Canadian Royal Navy in 2017.
It also recently completed the refit of four of Canada’s heaviest icebreakers, as well as a bulk carrier and is a pioneer in the construction of LNG-fueled ferries.
The International Workboat Show in New Orleans, LA, offers the marine industry an ideal time to not only assess the current state of the industry, but also an opportunity to view some of the newest technologies, products, and services. With stricter emissions regulations coming into play in 2016 and operators strongly focused on efficiency and the bottom line, this year’s show saw a number of new power and propulsion technologies unveiled. GE Marine, for example, extended its EPA Tier 4 engine series to include 16- and 12-cylinder V-models, an 8-cylinder inline model, and a 6-cylinder inline model that is currently planned for development.
GE says the engine series meets the Environmental Protection Agency’s (EPA) Tier 4 emission standards without the use of urea after-treatment, while maintaining fuel efficiency and service intervals. In addition, the engines have a faster response time to load steps, and a Maximum Continuous Rating (MCR) that is 12 percent higher than their Tier 3 compliant predecessors.
Coastal tug and barge operator Reinauer Transportation purchased two 12V250MDC Tier 4 diesel engines for its new Articulated Tug Barge (ATB) unit under construction at Senesco Marine in Kingstown, RI. One of the engines was displayed at GE’s booth at the Workboat Show.
“We chose the new GE Marine engines because we like their robust design and component configuration,” says Christian Reinauer. “The engine closely matches the footprint of our current vessel design. This limits the amount of re-engineering while meeting Tier 4 emissions requirements without the complications of urea after-treatment.”
GE’s Marine Product Manager Rob Van Solingen says the engines offer several advantages as compared with engines that use an SCR-based emission control system.
He says that the GE Tier 4 engines are less complex, allowing ship designers to develop engine rooms that make the most efficient use of space. This reduction in complexity also translates into improved labor efficiency at shipyards.
The engines also offer space and weight savings, since there is no large SCR reactor system in the exhaust piping of each engine nor any urea tank, dosing equipment, monitoring/control systems, and related piping, and air supply system required.
“Depending on size and urea quantities, space and weight savings of the engine and complete SCR system with all components and urea tanks can save up to 75% on each when compared to the GE T4 diesel engine,” says Van Solingen.
In addition, says Van Solingen, “The EGR system is designed to not require any special maintenance between the normal scheduled overhaul intervals for our engines.”
Other U.S.-based customers Harvey Gulf International Marine and Oceaneering have also ordered 12V250MDC Tier 4 engines to meet stricter EPA emissions standards. Two 12V250MDC Tier 4 diesel engines will power Harvey Gulf’s new Robert Allen designed Multi-Purpose Field Support Vessel, currently under construction at Eastern Shipbuilding Group in Panama City, FL.
Meanwhile, Oceaneering has ordered five 12V250MDC Tier 4 diesel engines for its new Inspection, Maintenance and Repair (IMR) vessel MSV Ocean Evolution under construction at BAE Systems in Mobile, AL.
NEW ENGINE FROM MAN
Also on display at the WorkBoat Show was a new inline six-cylinder diesel engine range for workboats, ferries, fishing trawlers, and pilot boats based on the MAN D2672 diesel engine from MAN Engines. Offered in a range of outputs from 323 kW to 588 kW (440 to 800 hp), the basic six-cylinder engine has been proven in a wide range of on- and off-road machinery since it was first introduced in 2007. Its robustness and reliability in workboats has also been demonstrated in extensive field trials over several thousand hours of use in ferries, pilot boats and high-speed catamarans.
The modern common rail injection system used in the D2676, with fuel pressures up to 1,800 bar, ensures high mean pressures and optimized combustion. This increases on-board comfort due to reduced vibration and noise emissions. The inclusion of a Miller or Atkinson camshaft has helped to achieve an average 10% reduction in fuel consumption compared to the engine’s predecessors.
As part of this improvement in fuel consumption, all engines also comply with the current strict EPA emissions.
The new MAN D2676 marine diesel engines replace the predecessor models D2866 and D2876.
The new D2676 engines also offer the wide torque plateau that is characteristic for MAN marine engines. The 323 kW (440 hp) power unit provides 1,950 Nm of torque between 1,200 and 1,600 rpm for heavy operations, while the 588 kW (800 hp) high-performance model manages to generate 2,700 Nm between 1,200 and 2,100 rpm for light operations. This ensures maximum torque over a broad engine speed range at the lowest specific fuel consumption.
SCANIA MAKES IN ROADS
Scania has been making inroads in the marine propulsion sector because of its compact, proven engine platforms. Some recent installations in the U.S. Gulf of Mexico include the high-speed crewboat Fourchon Runner, which is powered by quadruple Scania 16L engines for a total of 2,400 hp.
Naiad Inflatables recently delivered the Karankawa, a twin-screw pilot vessel for the Matagorda Bay Pilots of Texas. The pilot boat has two Scania DI13 77M main engines, with Twin Disc MGX-5114A gears and ZF controls. It employs shaft propulsion with driveline components from H&H and Michigan Wheel propellers. The pilot boat has a top speed is 33 knots.
At the Workboat Show, Scania showcased its Tier 3 platform, including its 16-liter V8 and 13 liter inline engines.
Scania engines are all based on Scania’s new modular engine platform—well proven in the company’s truck and bus engines. Scania V8 engines are engineered to produce high power, while maintaining a size that is compatible for auxiliary equipment. The V design reduces the overall length of the engine and ancillaries can be effectively accommodated inside the footprint of the engine.
The output ratings for Scania’s newest Tier 3 version of the 16-liter marine propulsion engine range from 550 to 900 hp, with outputs between 550 to 1,000 hp available for use in international and exempt markets.
For auxiliary applications, the range for EPA Tier 3 is 468 kW – 553 kW, and the current range will continue to be offered between 430 kW – 596 kW for international and exempt markets. Scania also expects to see an increase in the output ratings of V8 engines used for keel-cooled applications.
The output ratings for Scania’s newest Tier 3 version of the 13-liter inline marine propulsion engine range from 250 – 675 hp, with outputs up to 750 hp available for use in international and exempt markets. For auxiliary applications the range for EPA Tier 3 is 269 kW – 426 kW.
Scania’s centrifugal oil cleaner effectively removes small particles from the lubrication oil, while reducing the size of the replaceable filter cartridge. The Scania saver ring, placed at the top of each cylinder liner, reduces carbon deposits on the edge of the piston crown and reduces cylinder liner wear.
In spite of higher performance and tighter emission levels, Scania has been able to increase maintenance and oil change intervals by 25% (now 500 hours) in comparison to its predecessor.
NEW CONCEPT: TWIN FINS
During a presentation for the trade press at the Workboat Show, Caterpillar highlighted the development of its Twin Fin Propulsion Systems. The initial Twin Fin Propulsion System was retrofitted on the seismic vessel Polarcus Naila at Shipdock in Amsterdam in March 2014.
“In the seismic business, seismic assets or the vessel is a huge workhorse,” says Peter Zickerman, Polarcus Executive Vice President. “About 85 percent of its lifetime, the vessel is under constant tow in various weather conditions. It is imperative that the reliability of the vessel and its propulsion system are top notch.”
The Twin Fin is designed for vessels that operate on a diesel-electric propulsion system. With thrusters, vessels can have more cargo capacity. With conventional propellers, operators benefit from added reliability and safety. Twin Fin offers the advantages of both. It offers higher thrust performance, reduced fuel consumption, and a better emissions profile.
According to Mattias Hansson, naval architect and sales manager at Caterpillar Propulsion, development of the Twin Fin Propulsion Systems started with the company’s partners in the third quarter of 2012 and a patent application was filed in the first half of 2013. Hansson points out that the Twin Fin Propulsion System also incorporates some green aspects, including, a water-lubricated stern tube, instead of an oil-lubricated system.
For the retrofit, the twin fins were prefabricated in about 15 days and readied for the Polarcus when she arrived at the shipyard.
“This new system provides an excellent course keeping stability for the ship—important for a scientific ship like this,” says Henning Kuhlmann, Managing Director, Becker Marine Systems. Becker Marine Systems supplied highly efficient flat rudders for the installation of the Twin Fins.
The payback period for the system is about three years based on fuel consumption savings, efficiency gains, improves environmental footprint, and improves reliability when operating in remote areas.
In the coastal market, Caterpillar is supplying two harbor tugs being built for Harley Marine Services, Seattle, WA, at Diversified Marine, Inc., Portland, OR.
Each of the Harley Marine tugs will be outfitted with Cat 3516 main engines—each rated at 2,575 hp at 1,600 rev/min—and two MTA 524-T azimuthing thrusters. The thrusters will have 95.5 in. diameter fixed-pitch propellers.
Cat Propulsion’s Emil Cerdier says the MTA-T thrusters deliver “excellence of economy and performance to the tug market.” The tugs will be delivered by Diversified Marine in 2017.
Z-DRIVES GO INLAND
While Z-drives are fairly commonplace in the tug market, they are a relatively new phenomena in the inland towboat market. While some were installed as early as the 1980s, Z-drives got a major boost in 2006, when Bill Stegbauer and Ed Shearer began exploring the use of alternative propulsion, including Z-drives in inland towboats. Stegbauer, then President of Southern Towing Co., eventually opted for a design that would use Z–drives in a series of 3,200 hp towboats.
There are now about two dozen towboats operating with Z-drives and more are under construction. One of the latest series of three 6,300 hp towboats designed by The Shearer Group that are being built at C&C Marine and Repair, Belle Chasse, LA, for SCF Marine Inc. As you might guess, Ed Shearer is the President of The Shearer Group.
The towboats will each have three Cummins QSK60-M diesel engines coupled to three Steerprop SP-25D z-drives. Cummins Mid-South is supplying the engines, while Karl Senner, LLC, Kenner, LA, is supplying the Z-drives.
The Z-drives were selected only after a through analysis. “We worked closely with the both the owner and the naval architect, but at the end of the day, the decision was up to the owner, SCF,” says Karl Senner. “Tim Power and Myron McDonough were very diligent in the selection process, and we very much appreciate the in-depth approach and attention to detail. We pride ourselves in offering robust products and superior support, factors that are critical while operating in the demanding environment of the inland waterways. Steerprop units are designed for the longest time between overhauls on the market. We have also been supporting inland operators since our company’s inception in 1967. We are very excited about our relationship with SCF and we know it will continue for a long time to come.”
Steerprop SP25D Z-drives are designed for operating in harsh environments. These specific drive units were selected and configured similar to that of ice-class applications. Ice class design is Steerprop’s forte, having designed and supplied Z-drives on board three of the world’s largest mechanical Z-drive ice breakers build to date.
These will be the first inland towboats in the U.S equipped with Steerprop Z-drives. “The inland waterways have been a major focus of our business since 1967 for Reintjes gearboxes,” says Senner. “We pride ourselves in knowing what it takes to support the high demands of our inland customers, from sizing the appropriate equipment, to stocking spare parts, and providing quick service turnarounds. We are a family-owned and -operated company, flexible to respond to customer needs quickly and effectively.”
“We are in discussions with multiple other inland projects, but not at liberty to discuss them at this point in time.”
Z-drives have begun to catch on with inland transportation operators because of the safety, operational efficiencies and fuel savings they offer. As operators of harbor tugs have long been aware, the Z-drive can deliver full thrust in any direction almost instantly, where as the conventional rudder set aft of the propeller and even the flanking rudders set ahead of the rudder as is the practice on many inland river towboats, will sacrifice time and power by the inefficient nature of the conventional drive and rudder system.
Due to the greatly improved maneuverability with Z-drives, tows do not need to slow down in turns and bends in the river. Trip times are reduced and require a lot less fuel. A study conducted by The Shearer Group, Inc. last year showed an average of 28% fuel savings and 11% trip time savings during a set of controlled experiments with unit tows when using Z-Drives instead of conventional shafts and rudders.
SCF Marine, Inc., St. Louis, MO, is part of SEACOR’s Inland River Services group. SCF Marine operates a fleet of hopper barges along the U.S. Inland River Waterways and South America, transporting agricultural, industrial, and project cargoes.
Thrustmaster of Texas, Inc., Houston, TX, says towboats with Z-drives are not significantly more expensive than conventional towboats. The initial cost of the Z-Drives is significantly offset by reduced construction costs and installation man-hours. Shipyards have reported that the cost of building Z-drive boats is actually less than building conventional boats.
One of the latest applications of Z-drive propulsion is in a fleeting boat by Carline Companies. Carline recently added the 68 by 34-foot towboat USS Cairo for barge fleeting on the lower Mississippi.
Designed by Christian Townsend of CT Marine and built by Raymond & Associates, the USS Cairo is fitted with two six-cylinder Tier 3 compliant Cummins QSK19 main engines turning Thrustmaster TH750MZ Z-drives with 57-inch propellers.
According to Thrustmaster of Texas, a Z-drive replaces the propeller, shaft, stern tube, marine gear, rudder and steering gear all with a single unit. Z-drive azimuthing thrusters provide maximum thrust in any direction, independent of vessel speed, offering superior pinpoint maneuverability under all conditions. Rudders are completely eliminated. Rudder drag no longer exists. All of this can be done with a lot less power. A 1,500 hp Z-drive boat can replace a 2,000 hp conventional towboat and a 3,000 hp Z-drive boat can replace a 4,000 hp conventional towboat.
AEG’s Advanced Maritime Emission Control System (AMECS), essentially, takes a barge-mounted scrubber system to the ship. Unlike existing shore power options, it does not require retrofits to each vessel.
“AMECS is a game-changer in the fields of emission control and air quality. Multiple AMECS units can remove thousands of tons of pollutants each year,” said Ruben Garcia, President of AEG. “These mobile barge-mounted systems use patented technology to attach to the auxiliary exhaust stacks of nearly any vessel entering port – at-berth or at-anchor – eliminating the need for expensive ship retrofits, and providing the public with cleaner air.”
AMECS is approved for simultaneous emission capture from two exhaust stacks of a single ship, with independently verified test results proving 90% to 99% reduction of the particulate matter (PM), nitrous oxides (NOx), and sulfur dioxides (SO2) found in diesel exhaust.
“CARB’s approval of AMECS as an alternative to the at-berth emissions reductions rule provides the flexibility our shipping lines need while protecting our environment and creating new jobs for our communities,” said representatives from the Port of Long Beach, a strong supporter of AMECS throughout its development.
In 2013, the Port of Long Beach provided about $2 million in seed money to help test the AMECS system.
“We’re thrilled any time we can find more tools to reduce emissions and continue to improve community health. That’s why we fund projects like the demonstration and testing of these new technologies, through our Technology Advancement Program,” said Board of Harbor Commissioners President Lori Ann Guzmán. “We’ve made a lot of progress in reducing air pollution, and we are nurturing new technologies like these to help us do even more.”
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