March 11, 2016
News

Nordic Technology Incubator

Tucked away in southwestern Finland is Salo, a town of about 50,000, where 40 percent of all the doors for large cruise ships are produced. Antti Marine’s production facility in Salo has produced a quarter of a million doors for 300 cruise ships in just over 20 years. It takes about 10 weeks to produce a typical order of 3,000 doors. They are supplied over a period of six months, as and when the ship’s cabins are built

“We are devoted to lean thinking,” says Commercial Director Markko Takkinen. “The production time of the doors is short, as we do not want them remain in storage here.”

Antti Marine specializes in what it calls ‘“tailored mass production”—necessary because on one cruise ship there may be 150 different types of doors.

Antti Marine is not the only Finnish marine company that benefits from many of the world’s large cruise ship fleet being built in Finland.

Cruise ships also have a lot of toilets and a need for a lot of waste management systems. Finnish headquartered Evac Group has just received its biggest cruise vessel contract ever: total waste management systems for four large cruise ships plus an option to outfit an additional six vessels. The initial four-vessel contract is valued at about EURO 30 million.

Each ship will have an Evac Cleansea wastewater treatment plan, allowing operation in Environmentally Sensitive Sea Areas (ESSAs) and Special Areas (SAs), dry and wet waste treatment systems, a bio sludge treatment unit, plus vacuum collecting systems and some 3,000 vacuum toilets.

Evac also supplies its products to a wide range of users ashore and afloat. So, too, does fire protection specialist Marioff Corporation Oy, but its roots are in the marine market and it last year launched a new generation Hi-Fog 3000 sprinkler series for marine applications that replaces earlier Hi-Fog 1000 and Hi-Fog 2000 sprinkler series.

“With the launch of this new generation of Hi-Fog 3000 sprinklers, we are offering to our marine customers enhanced Hi-Fog systems with faster activation, more efficient suppression and improved passenger and crew safety,” says John Hemgård, Director of Marine Business, Marioff Corporation Oy.

The Hi-Fog 3000 sprinkler series is designed, tested and type approved according to IMO Res.A800(19) as amended in IMO Res.MSC.265(84).

Another Finnish product that really took off after its widespread adoption is ABB’s Azipod. It’s become the propulsor of choice for cruise ships and ABB is currently delivering the complete electrical power plant and propulsion systems for two new 3,300 passenger cruise ships building at Germany’s Meyer Werft. The 20.5 MW Azipod XO propulsion unit for the first of the ships recently left the ABB factory in Helsinki.

ABB has delivered, or has on order, Azipod propulsion units for about 200 vessels

Each Azipod propulsion unit takes about two months for technicians to assemble at ABB’s Vuosaari plant. Across town at ABB’s Helsinki motors, generators and drives factory, the powerful synchronous motors at the system’s core take shape over six months.

COOPERATION AMONG STAKEHOLDERS
The major driver for marine engine designers is bringing engines into compliance with emissions requirements while keeping fuel consumption and maintenance costs under control.

A new pressurized EGR (exhaust gas recovery) economizer from Alfa Laval shows how Scandinavian maritime innovation often results from a cooperation between suppliers, university departments and shipowners. It also illustrates that, for some ships, EGR may be a better means of coming into compliance with new NOx limits than the better known SCR (selective catalytic reduction).

In a project supported by the Danish Energy-Technological Development and Demonstration Program (EUDP) and developed in cooperation with Aalborg University, the EGR economizer has been rigorously tested aboard the containership Maersk Cardiff.

“As a front-runner in the pursuit of green technologies, we were keen to see what the Aalborg EGR-HPE could do,” says Ole Christensen, Senior Machinery Specialist at A.P. Moller-Maersk. “But while we were enthusiastic about the boiler’s potential, we were also somewhat uncertain as how it would handle the physical realities of EGR. The temperatures are twice as high as those of traditional waste heat recovery, and the gas pressures are far greater.”

Those concerns disappeared when the boiler was brought online with the Maersk Cardiff’s two-stroke MAN B&W 6S80ME-C9 engine in November 2014. “Not only did the boiler survive,” says Christensen, “[but also] the results we have seen during testing are very promising.”

“EGR provides Tier III NOx compliance with a very compact footprint, but compliance itself is only part of the full potential,” says John Pedersen, Business Manager, Boilers, Combustion & Heaters at Alfa Laval. “Working closely with MAN Diesel & Turbo to optimize the EGR technology, we saw additional opportunities through our expertise in marine boilers.”

In the EGR process, around 30% of the exhaust gas is directed back into the engine, which reduces the combustion temperature and thus the production of NOx. Since only the remaining 70% of the gas reaches the traditional exhaust gas boiler after the turbocharger, waste heat recovery is reduced by 30% as well.

The Aalborg EGR-HPE is a revolutionary new economizer enclosed in a pressure casing that is placed in-line ahead of the pre-scrubber sprayers in the EGR circuit.

“By moving the break point for waste heat recovery from a medium engine load down to a low load, the Aalborg EGR-HPE enables even slower steaming,” says Pedersen. “That means fuel savings that quickly pay back the economizer, offset the EGR investment and lower CO₂ emissions on top of the NOx reduction.”

aalborg egr hpe man engine Positioned ahead of the pre-scrubber spray jets, the Aalborg EGR-HPE has access to much higher temperatures than traditional exhaust gas boilers. It is integrated with the conventional waste heat recovery after the turbocharger by its steam drum, which is shared with the traditional exhaust gas boiler. With the output of the traditional economizer feeding into the shared drum, the Aalborg EGR-HPE produces extremely high-quality steam with a temperature of just above 400°C, bringing the waste heat recovery system to a much higher level of efficiency.

Using the Aalborg EGR-HPE in an integrated system allows waste heat recovery to occur at lower main engine loads than possible with a traditional waste heat recovery system in Tier III operation. This creates the possibility of even slower steaming.

“The EGR economizer makes waste heat recovery beneficial at far lower engine loads, down to around 30%” says Pedersen. “This means that vessels can steam even slower, with huge fuel savings as a result.”

DUAL FUEL
B&W in MAN-B&W stands for Burmeister & Wain and the Burmeister & Wain shipyard in Copenhagen built the Selandia, the world’s first successful diesel-powered oceangoing ship. That was in 1912.

More than a century later MAN Diesel & Turbo in Copenhagen is still on the cutting edge of diesel innovation.

One beneficiary of this is TOTE Maritime which opted for MAN Diesel & Turbo dual fuel technology for its two new Marlin Class, Jones Act containerships. Both of these ships have been delivered for operation between the U.S. and Puerto Rico, burning LNG as fuel and thereby meeting all U.S. SECA emissions requirement. Each is powered by the world’s first dual-fuel slow-speed engine, an MAN-B&W 8L70ME-GI, built in Korea by licensee Doosan Engine.

The technology in the ME-GI engines wasn’t just pulled out of a hat. It is a natural development of the MAN B&W low speed electronically controlled ME family of engines. The first testing of the GI principles was carried out in 1987 and MAN Diesel

& Turbo introduced its first two-stroke ME-GI dual fuel engine series in 2011, adding the ME-LGI engine series (which can burn liquid fuels such as methanol and ethanol) in 2013.

In theory, any ME engine can be converted into an ME-GI engine, but to be recognized by a classification society as “LNG ready” an ME engine equipped newbuild will have to be designed with provision for such things as the necessary LNG fuel tanks, piping and other ancillaries.

MEDIUM SPEEDS, TOO
LNG fueling has also proved an attraction for many operators of vessels with medium speed diesels who have to operate in emissions control area.

That trend sees Wärtsilä set to deliver the 100th Wärtsilä 34DF dual-fuel marine engine from the factory in early 2016. It is part of an order for three new large escort tugs under construction for Norwegian operator Østensjø Rederi by Spanish shipbuilder Astilleros Gondan. The tugs will operate at Statoil’s Melkøya terminal near Hammerfest in Norway.

“These 100 engines do not include those delivered for land-based energy generation applications,” says Lars Anderson, Vice President, Wärtsilä Marine Solutions.

“Within its power range, the Wärtsilä 34DF has become the workhorse of the marine industry, thanks to its superior reliability and lower operating costs. It is a highly efficient engine that is also making a notable contribution to environmental compliance,”

The Wärtsilä 34DF dual-fuel engine was upgraded in 2013 with a higher MCR (maximum continuous rating) and better efficiency than its earlier version, the first of which was delivered in 2010. The upgraded version has a power output range from 3,000 to 10,000 kW at 500 kW per cylinder.

ELIMINATE THE ENGINE?
Of course, if you can eliminate the engine and switch to battery power, that gets rid of emissions issues entirely. One area where this could be possible is in certain short range ferry operations and we have already noted the E-ferry way project under way in Denmark at Søby Værft AS.

Wartsila ferryConcept Wärtsilä, too, is eyeing this niche. In January it launched a concept for a series of zero or low emission shuttle ferries. The concept has been developed in line with new Norwegian environmental regulations for ferries, and Wärtsilä says this regulatory trend is also evident in other countries.

The ferries are designed to run entirely on batteries or in a battery-engine hybrid configuration where the fuel options are liquefied natural gas (LNG) or biofuel.

In plug-in operation, the fuel consumption is reduced by 100 percent compared to conventional installations, and all local emissions are completely eliminated. With the plug-in hybrid configuration, emissions are reduced by up to 50 percent.

The concept features Wärtsilä’s new wireless inductive charging system, which offers major benefits for typical shuttle ferry operations involving 20,000 or more departures a year because of its time and energy savings. The system eliminates physical cable connections, thus reducing wear and tear and enabling charging to begin immediately when the vessel arrives at quay.

Wärtsilä has now signed an agreement with Cavotec SA to jointly develop a combined induction charging and automatic mooring concept. It would incorporate Wärtsilä’s wireless induction power transfer into a vacuum-based automated mooring technology in which remote controlled vacuum pads recessed into, or mounted on the quayside, moor and release vessels in seconds.

FILTER PROMISES TO CUT NOX
The Exilator, an environmental filter for smaller ships, able to reduce both sulfur, carbon monoxide, NOx and noise, has been successfully tested on a Danish Maritime Authority ship. The technology has been testing over a 12-month project phase followed by a three-month practical test of the concept on the Danish Maritime Authority’s ship Poul Løwenørn. The filter’s performance has been documented by the Danish Technological Institute, and the installation and mounting of the filter has been approved by LR.

The filter has been designed for ships with engines of up to 6 MW. Current regulations don’t require the cleaning of exhaust gas from smaller ships if they already sail on marine diesel with a maximum sulfur content of 0.1%. Still, developer Exilator ApS

believes that there is already a market for the filter, as it reduces soot pollution and NOx on the ship itself and also cuts engine noise considerably — particularly attractive in the yachting sector, or expedition vessels sailing in very sensitive nature areas.

According to the test from the Danish Technological Institute, the filter reduces soot particle emissions by 99,1%, carbon monoxide by 98% and NOx by 11%. Though those tests didn’t cover the filter’s noise reduction properties but the company expects a noise reduction up to 35 dB, including low frequency noise.

Financing for development and testing was secured through the Danish Growth Fund and investment & development company CapNova.

The filter works by catalytically incinerated the soot in the exhaust as soon the ship’s engines reach exhaust temperatures above 325 degrees C. Ash is accumulated in the filter, which means that the filters must be cleaned after about 5,000 operational hours, as part of the recycling process.

The filter requires that the ship uses marine gas oil with a maximum sulfur content of 0.1%. According the test, the filter improves the ship’s fuel consumption by around 1%.

The exhaust gas, after passing through the turbo charger, goes to a muffler that removes the deep resonance. Then comes the particle filter, which also serves as an oxidation catalyst, where the soot is captured and burned – and finally the gas is led through a reducing catalyst, which minimizes NOx and NO2, before being emitted into the atmosphere.

Development is now underway in a collaboration with DTU, the Technological Institute and an engine manufacturer aimed at increasing the filter’s NOx reduction from 11% to 40% in phase 1, and to 80% in the subsequent phase 2. When this is achieved, the filter will enable compliance with IMO Tier III NOx limits.

SCRUBBERS
Shipowners face no shortage of options if they decide to use exhaust gas scrubbers to cut sulfur emissions. Recent customers for Alfa Laval’s PureSOx exhaust gas cleaning systems include Buss Shipping, which is retrofitting hybrid PureSOx systems on two 1,025 TEU container feeder ships that operate exclusively in Emission Control Areas (ECAs). Since they frequent the low-alkalinity waters between Rotterdam and St. Petersburg, as well as ports like Hamburg with zero-discharge requirements, a scrubber with closed-loop mode was a necessity.

Each ship will receive a hybrid PureSOx system with multiple inlets, connecting the main engine and two auxiliary engines to one U-design scrubber. In contrast to earlier systems with multiple inlets, the inlets will now lead into a single scrubber jet section – an advance in construction that will make the scrubber even more compact.

“The PureSOx solution was well engineered and allowed a sophisticated integration of the scrubber system into our container feeder ships,” says Christoph Meier, Project Manager, Buss Shipping. “The custom construction let us avoid major modifications inside the vessel, which together with the pre-outfitting gave us a short installation time. All those factors contributed to a competitive price.”

Though there’s no doubt that scrubbers work, they also involve a substantial investment. That led Finland’s family-owned Langh Ship to develop a scrubber of its own, the decision was made a little easier by the fact that another family-owned company has 40 years’ experience in cleaning washing waters.

The resulting product was successfully tested over an extended period on one of Langth’s own ships, the M/S Laura, and received final class approval from GL in August 2014. All of Langh’s five vessels have now been fitted with the scrubber and last year a hybrid version was installed on Bore Shipping’s M/V Bore Song.

“It has lived up to our expectations: minimum sludge handling, very clean outgoing water and in that respect minimum impact on the environment,” said Jörgen Mansnerus, VP, Marine Management at Bore Ltd.

Scrubbers could become less expensive as the result of a pilot project developed by Norwegian University of Science and Technology (NTNU) researchers Carlos Dorao and Maria Fernandino.

Called the Lynx Separator, the technology now being examined for possible use in marine exhaust gas scrubbers was originally developed for use in the natural gas industry and involves using a steel sponge along with centrifugal force to remove the fluid from a gas stream, offering a brand new solution for the gas industry.

In the Lynx Separator, wet gas flows through the separator. A tubular metal sponge spins rapidly so the liquid is separated from the gas and thrown to the side and down, allowing dry gas to stream up to where it’s needed.

The Research Council of Norway’s Innovation Program MAROFF (Maritime activities and offshore operations) has now funded a pilot project to examine the possibility of applying the separator technology to cleaning ships’ exhaust emissions from ships andetheoretical calculations and testing show promising results

BALLAST WATER MANAGEMENT SYSTEMS
Another major focus of compliance concern for shipowners is, of course, ballast water management. Needless to say, most of the major players in the Scandinavian marine equipment sectors have horses in this race. It’s just to soon to pick any winners given the fact that no system has yet gained full U.S. Type Approval.

As this was written, Norway’s Optimarin was claiming to be on the brink of the coveted approval and was pleased when the U.S. Coast Guard told manufacturers of ultraviolet (UV) based BWMS that it will not accept the Most Probable Number (MPN) testing method in its approval process. The MPN methodology evaluates organisms on the basis of “viable/unviable,” with most UV systems depositing “unviable” organisms back into the water – meaning they are still alive but cannot reproduce. The USCG said that the FDA/CMFDA test, which judges life forms as “living/dead,” must be the standard for approval.

Optimarin says the decision is good news.

The Coast Guard has told UV system manufacturers that it will not accept the Most Probable Number (MPN) testing method in its approval process. The MPN methodology evaluates organisms on the basis of “viable/unviable,” with most UV systems depositing “unviable” organisms back into the water – meaning they are still alive but cannot reproduce.

“This is a clear indication to the industry that USCG wants absolute certainty with regard to standards – they do not want living organisms deposited in their territory,” comments Tore Andersen, Optimarin’s CEO. “MPN is acceptable for IMO, but that won’t be any consolation to shipowners with global fleets that want the flexibility of sailing in and out of U.S. waters.”

He says that Optimarin, which has over 20 years of industry experience and installed the world’s first commercial BWT system in 2000, is the only UV manufacturer that is currently within “touching distance” of USCG approval.

Its technology successfully satisied the FDA/CFMDA criteria during testing last year. Further tests in other water salinities are scheduled for spring 2016, after which point approval is expected later this year.

Andersen says the system’s power is the key to its efficacy. “Each of our system lamps has a 35 kW capacity, which is huge for a UV system. That power instantly kills invasive organisms and that’s exactly what USCG wants to see,” he says

March 11, 2016
Shipyard News

Shipyards: Rethink, Reposition & Reinvest

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.

Conrad AI 03 deepwater south med 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.

VIGOROUSInspiration 01 30 16 042 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.

louisiana slide moranFB 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.

SEASPAN170 15 008 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.

February 12, 2016
News

NTSB to launch new search for El Faro VDR

FEBRUARY 12, 2016 — The National Transportation Safety Board is to launch a second expedition to search for evidence in its investigation of the loss of the TOTE cargo ship El Faro,

February 04, 2016
News

Aqualis Offshore to do FMEA study for LNG bunkering barge

FEBRUARY 4, 2016 – Offshore marine and engineering consultancy Aqualis Offshore, part of Oslo-listed Aqualis ASA, has been contracted by Gas Entec Co. Ltd to provide an engineering study for the 2,200

January 04, 2016
News

NTSB opens El Faro accident docket

JANUARY 4, 2016 — As part of its continuing investigation into the sinking of the U.S.-flagged cargo ship El Faro in the Atlantic Ocean last October, the National Transportation Safety Board has

December 17, 2015
Environment

North America’s first LNG bunker barge nears launch

The barge is under construction at Conrad Shipyard in Orange, TX, which has just hosted a tour where 200 participants at a USCG Liquefied Gas Senior Executive Forum got a chance to see its progress.

Hull construction of the 2,200 m³ barge is near complete and abrasive blasting and painting is scheduled to begin in the coming weeks.
The barge’s LNG Mark III Flex cargo containment system, designed by Gaztransport & Technigaz (GTT), is scheduled to be installed immediately following the February launch.

The Bristol Harbor Group designed and ABS classed vessel will be outfitted with a 20 m bunker mast (custom fabricated by Conrad under GTT license) that will enable the barge to service a wide variety of vessels. It will also be equipped with six DH Industries StirLNG-4 cryocoolers sized to handle 125% of the vessel’s boil-off gas, along with other systems specifically designed for this vessel’s LNG bunkering application to deliver the coldest LNG to the end user.

The barge will be delivered to Jacksonville, FL in the third quarter of 2016 to service TOTE’s newbuild Marlin class LNG fueled container vessels and other LNG fueled vessels in and around the Port of Jacksonville and the Southeast.

CME is partnered with WesPac Midstream LLC (WesPac) and together with Pivotal LNG (Pivotal), a subsidiary of AGL Resources, will own and operate JAX LNG, a small scale liquefaction facility in the port of Jacksonville. The plant is planned to be commissioned during the first quarter of 2017 and will be capable of providing LNG to locations up and down the Florida and Georgia coasts.

December 15, 2015
News

The Best Ships of 2015

1. ISLA BELLA, WORLD’S FIRST LNG-FUELED CONTAINERSHIP (pictured above)

TOTE Maritime’s 3,100-TEU containership Isla Bella was due to set sail for San Juan, PR, on November 24, marking the first time a ship in a Jones Act liner service will burn Liquefied Natural Gas (LNG) as a marine fuel. When the 764-foot-long Isla Bella transited the Panama Canal back on October 30 on her way to the Port of Jacksonville, Panama Canal Administrator/CEO Jorge L. Quijano called her “a true engineering feat.”

Among the principal maritime stakeholders involved in the successful launch of the Isla Bella and her sister Perla del Caribe are: owner and operator TOTE, shipbuilder General Dynamics NASSCO, designer DSEC (Daewoo Shipbuilding and Marine Engineering’s ship design arm), engine licensee MAN Diesel & Turbo, classification society ABS, and regulator U.S. Coast Guard.

The two Marlin Class containerships were contracted by TOTE in December 2012 and are being built at a total cost of about $375 million.

The 764-ft Isla Bella is equipped with the world’s first dual-fuel slow-speed engine, an 8L70ME-GI built by Korea’s Doosan Engine, under license from MAN Diesel & Turbo. With a 3,100 TEU capacity, the LNG-powered Isla Bella reduces NOx emissions by 98 percent, SOx emissions by 97 percent and CO₂ emissions by 76 percent. The technology makes the ship one of the world’s most environmentally friendly containerships afloat.

During LNG will allow the Marlin Class Isla Bella to be fully compliant with strict emissions regulations while operating in both the North American Emissions Control Area and the U.S. Caribbean ECA.

At the time of her delivery, Kevin Graney, Vice President and General Manager of General Dynamics NASSCO, said, “Successfully building and delivering the world’s first LNG-powered containership here in the United States for coastwise service demonstrates that commercial shipbuilders, and owners and operators, are leading the world in the introduction of cutting-edge, green technology in support of the Jones Act.”

The moment is bittersweet for TOTE as it unfolds within the shadow of the tragic loss of the SS El Faro with all hands aboard during Hurricane Joaquin on October 1. The ship’s crew of 28 and five Polish nationals onboard were lost. The U.S. Navy, working with the National Transportation Safety Board (NTSB), has located the ship in waters 15,000 feet deep near the Crooked Island in the Bahamas.

The Isla Bella will be joined by the Perla del Caribe in Puerto Rico cargo service in the first quarter of 2016.

2. OHIO, LNG-READY PRODUCT TANKER
The 330,000 bbl Ohio was became the first product tanker to be built with the future consideration for the future use of LNG as fuel when it was delivered earlier this year to Crowley Maritime Corp. by Aker Philadelphia Shipyard, Philadelphia, PA.

New OhioWeb The Ohio received American Bureau of Shipping’s (ABS) LNG-Ready Level 1 approval, meaning Crowley has the option to convert the tanker to Liquefied Natural Gas (LNG) propulsion in the future.

The Ohio along with her three ships being built at Aker Philadelphia are based on a proven Hyundai Mipo Dockyards (HMD) design which incorporates numerous fuel efficiency features, flexible cargo capability, and a slow-speed diesel engine built under license from MAN Diesel & Turbo. The 600 feet long Ohio is capable of carrying crude oil or refined petroleum products.

Crowley’s Seattle-based, naval architecture and marine engineering subsidiary Jensen Maritime is providing construction management services for the product tankers. Jensen now has an on-site office and personnel at the Philadelphia shipyard to ensure strong working relationships with shipyard staff and a seamless construction and delivery program.

“We are excited to offer our customers cutting-edge technology available in these new tankers, which not only embraces operational excellence and top safety, but also offers the potential to be powered by environmentally friendly LNG in the future,” said Crowley’s Rob Grune, senior vice president and general manager, petroleum and chemical transportation. “Adding these new Jones Act tankers to our fleet allows us to continue providing our customers with diverse and modern equipment to transport their petroleum and chemical products in a safe and reliable manner.”

3. NEW MINI TANKER FOR NY HARBOR
Blount Boats, Inc., Warren, RI, delivered the Chandra B, a new mini-tanker for American Petroleum & Transport, Inc., Miller Place, NY. The 79 ft by 23 ft, double-hull bunkering tanker operates in New York Harbor and New Jersey supplying fuel to ferries, dinner boats, dredges, and other vessels.

ChandraB Propulsion power for the tanker is supplied by two EPA Tier 3-compliant Cummins Model QSL9, six-cylinder diesel engines rated at 330 hp at 1,800 rev/min with ZF Model W325 marine hydraulic gears that will have 4.91:1 reduction ratio. The self-propelled Chandra B is equipped with a 50 hp Wesmar hydraulic bow thruster, providing it with enhanced maneuverability.

Designed by Farrell & Norton Naval Architects, Newcastle, ME, the Chandra B is built to USCG Subchapter “D” specifications and is less than 100 gross tons. Farrell & Norton also designed one of the tank barges in American Petroleum & Transport’s fleet. The double-hull Chandra B will replace the 1979-built single hull Capt. Log in American Petroleum & Transport’s fleet.

American Petroleum & Transport (APT) has had to retire all of its single-hull tankers because of OPA 90 regulations.

APT vessels crisscross New York Harbor delivering ultra low sulfur diesel to clients such as Circle Line, New York Water Taxi, Great Lakes Dredge & Dock, and Sterling Equipment, as well as for the auxiliary engines of larger ships. The Chandra B has cargo fuel tankage is designed to hold a capacity of 56,450 gallons.

4. SAKIGAKE, JAPAN’S FIRST LNG-POWERED TUG
This past year, NYK took delivery of Sakigake, Japan’s first LNG fueled tug. Built at NYK’s wholly owned subsidiary Keihin Dock Co’s Oppama shipyard, the 37.2 m x 10.2 m Sakigake is operated by Wing Maritime Service Corporation, mainly in the ports of Yokohama and Kawasaki. Wing Maritime also operates the hybrid tug Tsubasa.

Sakigake web The Sakigake is equipped with two Niigata 6L28AHX-DF dual-fuel engines, each developing 1,618 kW. Propulsion is supplied by two Niigata Z-Pellers.

The DF engines can burn either LNG or diesel oil. The environmental advantages of operating on LNG as compared with conventionally powered tugs that use marine diesel oil is Sakigake emits about 30 percent less CO2, 80 percent less NOx, and no SOx.

While the project posed several challenges—the relatively small size and limited amount of space on the tug, and the large variation in engine power—Keihin Dock was able to achieve the desired level of environmental performance while maintaining the same hull form and steering performance of existing tugs. Keihin Dock worked closely with both Niigata Power Systems and Air Water Plant & Engineering Inc. to develop equipment for supplying LNG.

The project was supported by subsidies from Japan’s Ministry of Economy, Trade and Industry and the Ministry of Land, Infrastructure and Transport. ClassNK also provided joint research support.

5. JS INEOS INSIGHT, FIRST ETHANE-POWERED SHIP

Emblazoned on the JS Ineos Insight’s hull is the phrase, “Shale Gas for Manufacturing.” Built specifically to transport shale gas from the U.S. to Europe, the JS Ineos Insight is the first of eight 180m x 26.6m ethane gas carriers built by China’s Sinopacific for Denmark’s Evergas.

JSINEOSINSIGHT 2 Named on July 14, the JS Ineos Insight can not only carry ethane, LPG or LNG, but can also burn ethane, LNG and conventional diesel in its two Wartsila 50DF dual fuel engines.

The eight Ineos ships will transport over 800,000 tons of ethane gas at -90°C per annum across the Atlantic from the U.S. to Norway and Scotland.

Classed by Bureau Veritas, the Dragon vessels were originally designed as dual-fuel LNG/diesel-powered vessels, with two 1,000 m3 LNG tanks on deck powering two Wärtsilä 6L20 DF main engines with a total output of 2,112 kW and two shaft generators with a total output of 3,600 kW power. The vessels will initially transport ethane from the U.S, to the U.K. Ineos refineries, the ability to also burn ethane was added to allow use of the cargo gas as fuel.

At the christening of the JS Ineos Insight and the JS Ineos Ingenuity, Ineos Chairman Jim Ratcliffe says, “Today is a landmark day for both Ineos and Europe. We have seen how U.S. shale gas revolutionized U.S. manufacturing and we believe these huge ships will help do the same for Europe. Ineos together with Evergas has commissioned eight brand new ships, accessed hundreds of miles of new pipeline and built two enormous terminals to get U.S. Shale gas to Europe. The scale of the whole project is truly breathtaking.”

According to Bureau Veritas Business Development Manager Martial Claudepierre, the ability to burn ethane and LNG as fuel in the Dragon Class ships “is a major step forward in the use of clean fuels.” He says that BV worked with Evergas and the Danish Maritime Authority to verify and ensure that the use of ethane is at least as safe as required by the IGC and will not impair the engine compliance with MARPOL Annex VI.

According to Claudepierre, using ethane required extra engine room ventilation and additional gas detection, plus modifications to the main engines including a lower compression ratio, different turbocharger nozzles and de-rating of the engine to cope with the lower knocking resistance of ethane. “But,” he says, “The gains in not carrying an additional fuel and in environmental performance from being able to burn clean fuel throughout the voyage are significant.”

6. MARJORIE C, NEW JONES ACT CONRO
Capable of carrying up to 1,200 cars and 1,400 TEU of containers, the Combination Container and Roll-on/Roll-Off (ConRO) vessel Marjorie C entered Jones Act service this year between the U.S. West Coast and Hawaii.

honolulu 13231 web Built by VT Halter Marine, Pascagoula, MS, the Marjorie C was engineered from a proven design by Grimaldi at Croatia’s Uljanik Shipyard. The 692 ft x 106 ft ConRO has a draft of 31 ft, deadweight of 21,132.5 metric tons, with nine decks. It has a stern ramp capacity of 350 metric tons. The ship has a service speed of 21.5 knots.

The vessel’s design incorporates the highest level of operating efficiencies as well as reduced environmental impacts. The sister vessel, Jean Anne, was Pasha Hawaii’s first Jones Act vessel and has been serving the Hawaii/Mainland trade since March 2005. The Marjorie C entered into service this past May.

The ship is named in honor of Pasha Hawaii’s President and CEO George Pasha, IV’s grandmother, Marjorie Catherine Ryan.

“After more than three and a half years of planning and construction, we are pleased to unveil a ship that has been designed to not only accommodate the varying needs of our customers, but a vessel that minimizes our carbon footprint through extensive fuel consumption efficiencies and other green technologies,” said Pasha Hawaii’s President and CEO, George Pasha, IV. “With the addition of the Marjorie C we can now offer customers increased service and capacity between the West Coast and Hawaii trade lane on vessels providing superior reliability and cargo protection.”

7. NEIL ARMSTRONG, FIRST OF NEW CLASS OF RESEARCH VESSELS
This past Halloween, the first-of-class oceanographic research vessel R/V Neil Armstrong (AGOR 27) set sail from Dakota Creek Industries, Anacortes, WA, to San Francisco, CA, on its inaugural voyage. As we went to press, the Neil Armstong was waiting its turn to pass through the Panama Canal on its way north to the Woods Hole Oceanographic Institute in Woods Hole, MA. The ship will be operated by the Woods Hole Oceanographic Institution under a charter party agreement with Office of Naval Research (ONR).

Armstrong AerialsC00069.16 Designed by Guido Perla & Associates, Inc., Seattle, WA and owned by the U.S. Navy, Neil Armstrong is 238 ft x 50 ft with a depth of 22 ft and draft of 15 ft. The first of two research vessels, the Neil Armstrong has four main 1,400 kW diesel generators, two 876 kW propulsion motors, and two controllable pitch propellers. The ship has a sustained speed of 12 knots and maximum speed of 12.8 knots.

The ship was classed by ABS Under 90 meter rules A1, Circle E, AMS, ACCU, NIBS, Ice Class D0, UWILD, 46 CFR Subchapter U, SOLAS (Oceanographic Vessels), MARPOL.

The Neil Armstrong’s sister vessel, the R/V Sally Ride (AGOR 28), is also under construction at Dakota Creek Industries.

During acceptance trials, Mike Kosar, Program Manager for the Support Ships, Boats and Craft office within the Program Executive Office (PEO), Ships, says, “The results of these tests and the outstanding fit, finish and quality of the vessel, stand as a testament to the preparation and effort of our entire shipbuilding team. It reflects the exceptionalism of AGOR 27’s namesake, Neil Armstrong.”

Neil Armstrong Class AGORS incorporate the latest technologies, including high-efficiency diesel engines, emissions controls for stack gasses, and new information technology tools both for monitoring shipboard systems and for communicating with the world. These ships will provide scientists with the tools and capabilities to support ongoing research including in the Atlantic, western Pacific and Indian Ocean regions across a wide variety of missions.

The lab areas include the main lab of 1,023 ft2, the wet area of 398 ft2, computer area of 311 ft2, and staging area bay of 303 ft2.

Neil Armstrong will be capable of assisting with integrated, interdisciplinary, general purpose oceanographic research in coastal and deep ocean areas. The vessel will operate with a crew of 20 with accommodations for 24 scientists.

8. BARZAN, FIRST OF NEW CLASS OF GAS READY BOXSHIPS
Recently named in a ceremony at shipbuilder Hyundai Samho Heavy Industries’ Mokpo, South Korea, shipyard, Barzan is the first in a series of six 18,800 TEU containerships ordered by Dubai headquartered United Arab Shipping Company (UASC). It is the first vessel to receive classification society DNV GL’s new GAS READY notation. Her five sister ships and eleven 15,000 TEU vessels of UASC’s newest eco-ship generation, will also receive the notation.

Barzan 3 The ships have been designed and constructed to enable a quick and cost efficient retrofit to LNG fueling at a later stage. The GAS READY notation, with nominators (D, S, MEc, AEi) demonstrates that the vessel is in compliance with the gas fueled notation rules, that structural reinforcements to support the fuel containment system (LNG tank) have been verified (S), that the main engines installed can be converted to dual fuel (MEc ) and that the auxiliary engines installed can be operated on gas (AEi).

“We believe that this vessel, as well as the rest of the vessels in our new building program, demonstrates our commitment to technical innovation and eco-effectiveness,” says Jørn Hinge, President and CEO of UASC. “For UASC, achieving optimum efficiency levels is not a single initiative or project, it is a strategy and an ongoing commitment, and we will continue to work with DNV GL on the remaining newbuild vessels that have the lowest levels of CO2 output in their class.”

As well as being LNG ready, Barzan and her sister vessels incorporate several innovative energy saving methods, including a Siemens’ Siship SGM environmentally friendly drive and power generation system.

The Waste Heat Recovery System (WHRS) converts thermal energy from the exhaust gas from the main engines into electrical power to maximize the efficiency of the system.

The Barzan was expected to have an EEDI (Energy Efficiency Design Index) value that is close to 50 per cent less than the 2025 limit set by IMO, with a CO2 output per TEU that is more than 60 per cent lower than a 13,500 TEU vessel delivered just three years ago.

Barzan has been constructed to DNV GL class rules with the notations: 1A1 Container Carrier DG-P Shore Power E0 NAUT-OC HMON (A1,C1,G4) CLEAN BWM-T BIS TMON NAUTICUS (Newbuilding) GAS READY (D, S, MEc, AEi).

9. CROWN POINT, NEW GENERATION GREEN TUG
Tidewater Transportation and Terminals, Vancouver, WA, recently took delivery of the Crown Point, the first in a series of three 102 ft x 38 ft towboats being built at Vigor Industrial in Portland, OR.

CrownPoint The three towboats are the first new vessels to be built for the Tidewater fleet in 30 years, and are critical for the company to meet the anticipated rising customer demand on the Columbia-Snake River system. “The launching of the Crown Point, and the forthcoming Granite Point and Ryan Point vessels, marks an important step for Tidewater,” says Marc Schwartz, Maintenance & Engineering Manager at Tidewater. The vessels will strengthen our fleet, as well as reinforce Tidewater’s commitment to our customers, community, and environment.”

Tidewater operates the largest barge transportation and terminal network on the Columbia-Snake River system. The Crown Point joins the company’s current fleet of 16 vessels and 160 barges. Tidewater transports a wide range of cargo among a network of ports, terminals and grain elevators throughout the entire Columbia-Snake River system, which stretches some 465 miles of waterways. We also operate five strategically located terminals and five pipelines with key intermodal connections to railroads, highways and other pipelines.

Designed by CT Marine, Naval Architects and Marine Engineers of Edgecomb, ME, the Crown Point is an environmentally friendly tug with EPA Tier 3 compliant diesel engines that reduce air emissions and improve fuel efficiency. Main propulsion is supplied by two Caterpillar 3516C EPA Tier 3 certified diesel engines producing 2,240 bhp, each at 1,600 rev/min. The engines drive two 92 in. x 100 in. fixed pitch, stainless steel propellers through CT28 Kort Nozzles capable of a service speed of 8 knots. Operating in the Columbia River Gorge high winds, extreme currents and swells can be considered normal piloting conditions. That’s why the Crown Pount abd her sister towboats are fitted with an enhanced steering system using four steering and four flanking rudders was designed. The towboat has a wheelhouse with exceptional all-round visibility through full height windows, leading edge navigation and communications equipment, and enhanced accommodations for the captain and crew.

“During the last year and a half, a great deal of effort went into designing, engineering and building a towboat that would meet or exceed performance parameters,” explains Bruce Reed, Tidewater COO and Vice President. “With crew endurance being a priority, we employed Noise Control Engineers, Billerica, MA to develop a sound and vibration control package for the vessel. By incorporating Christie and Grey vibration control mounts and comprehensive acoustic insulation, noise levels register at less than 60 decibels in the accommodations during vessel operation.”

Other equipment onboard the Crown Point includes two C7.1, Tier 3 generators, rated at 480v, 200 kW at 1,800 rev/min. The generators are controlled through an automatic transfer system that ensures the vessel will recover from a generator power loss in less than 30 seconds. Deck machinery includes seven Patterson WWP 65E-7.5, 65-ton electric deck winches, with pilothouse remote operation and local push button control stations on the main deck. Each winch has Samson 1 3/8” Turbo 75 Synthetic Line.

In order to use the newest technology and minimize power usage, variable frequency drives were used in all major rotating machinery applications and LED lighting was employed in both interior and exterior lighting applications. The vessel is fitted with a Kidde NOVEC 1230 fire suppression system. Centralized fire detection and alarms cover both the machinery spaces and accommodations.

10. MULTRATUG 28, A HYBRID TUG
This past year, Netherlands-based towage and salvage specialist Multraship took delivery of Multratug 28, a Damen ASD 2810 Hybrid tug built at Damen Shipyards Galaţi, in Romania, as part of a fleet expansion program.

ASD Tug 2810 Multratug 28 Classed by Lloyd’s Register, the hybrid Multratug 28 is 28.67m x 10.43m, with a maximum draft of 4.9m. The propulsion system includes two MTU 16V4000M63R diesel engines with one MTU 12V 2000 M41B propulsion genset of 800 kvA, 440V-60Hz. The battery pack are two 120 kWh. Two Rolls Royce US205 azimuth thrusters provide propulsion. The tug has a bollard pull of 62 tons, diesel direct speed of 13 knots, diesel electric speed of 8 knots, and battery pack speed of 4 knots.

The ASD 2810 HYBRID is developed to save fuel by 30% and to reduce emissions by 50%. To achieve this the vessel is provided with a propulsion system that can operate diesel-direct, diesel-electric or fully-electric. Fully-electric sailing on the batteries, with zero emissions and extremely low noise levels, is possible for time periods of up to one hour at a speed of 4 knots.

In June 2014, the first Damen ASD 2810 Hybrid was delivered to Iskes Towage & Salvage. Being green does not mean sacrificing power, the Bernardus still has a bollard pull of 60 tonnes. The Bernardus operates in the Port of IJmuiden near Amsterdam, the Netherlands.

“This hybrid tug is a unique concept,” says Dinu Berariu, Project Manager at Damen Shipyards Galaţi. “It features a diesel-direct, diesel-electric and battery powered propulsion system. This hybrid configuration will enable Multraship to lower fuel costs by up to 30 percent and emissions by up to 60 percent.”

Headquartered in the harbor city of Terneuzen, Multraship operates in the ports around the Scheldt estuary, in Zeeland seaports and the Belgian ports of Ghent and Antwerp, as well as the Bulgarian port of Burgas on the Black Sea.

Multraship’s fleet expansion program stems from its increasing customer base in the offshore sectors as well as growing demand for harbor towage services.

11. VASCO DE GAMA, FIRST 18,000 TEU BOX SHIP FROM A CHINESE YARD
As we went to press, the world’s third largest containership company, CMA CGM Group, Marseilles, France, was closing in on the acquisition of Singapore-based NOL, the world’s fourth largest. It successful, privately held CMA CGM would leapfrog over MSC to become number two in the world.

CMACGM Vasco de Gama A big part of CMA CGM’s success is its investments in larger, more energy efficient tonnage to improve pricing and economies of scale. An excellent example is the CMA CGM Vasco De Gama delivered this summer to CMA CGM by China State Shipbuilding Corporation (CSSC).

With a length of 399 m and breadth of 54 m, the 18,000 TEU vessel is the largest containership in the CMA CGM Group and is the first 18,000 TEU containership to be built by a Chinese shipyard. CSSC is also building two more of the giant box ships, the CMA CGM Zheng He and CMA CGM Benjamin Franklin.

Flying the U.K. flag, CMA CGM Vasco De Gama is equipped with the latest environmental technologies including a latest generation main engine, a twisted leading edge rudder with bulb from Germany’s Becker Marine Systems and an optimized hull design. These innovations decrease the vessel’s CO2 emissions by 10% compared to the previous vessel generation. With an estimated emission of 37g of CO2/km for each container carried, the giant containership provides one of the world’s greenest goods transportation options.

The ship’s environmental footprint meets the 2025 energy efficiency regulations.

CMA CGM Vasco De Gama calls at 11 different countries on CMA CGM Group’s French Asia Line (FAL) service between Europe and Asia.

CMA CGM is also building three 20,600 TEU containerships—the largest yet built—at Korea’s Hanjin Heavy Industries. Those three ships will each have full spade twisted rudders (TLKSR) from Becker Marine Systems and Becker Twisted Fins. Both Becker products will make a significant contribution to the vessel’s efficiency improvement.

12. ESVAGT FROUDE, SPECIALIZED WIND FARM VESSEL
As of September this past year, Denmark’s ESVAGT had new owners; 3i Infrastructure and AMP Capital acquired the shares of A.P. Møller-Maersk Group and ESE-Holding. While ESVAGT’s primary market will continue to be oil and gas support and standby rescue in the North Sea, the company is broadening its portfolio with a push into the offshore wind energy market.

EsvagtFroude243 This past summer, ESVAGT entered the offshore wind industry with the christening of the world’s first purpose-built Service Operation Vessels at Siemens AG in Rostock and Hamburg, Germany.

The Service Operation Vessels (SOV), Esvagt Froude and Esvagt Faraday are each 83.7m x 17.6m, with a draft of 6.5m. Both of the Danish-flag SOVs were built in Norway by Havyard Ship Technology and are based on a Havyard 832 SOV design. The SOVs both have diesel-electric propulsion and DC power systems, enabling optimized fuel and energy efficiency and crew comfort. The service speed is 14 knots.

The SOVs are essentially “service stations at sea,” offering technicians a safe, efficient platform for wind turbine maintenance. Using the ship’s DP system, the ship can connect to wind turbines via its Ampelmann A-type Walk-to-work hydraulic gangway system offering a stable, safe platform to connect to the wind turbine.

Each offers accommodations for 60 people. The vessels are designed to reduce the level of vibration and increase the level of comfort for everyone onboard.

“As a supplement to the “Walk-to-Work” gangway, we have equipped the Service Operation Vessels with the newly developed ESVAGT Safe Transfer Boats (STB 7 and STB 12),” says Søren Nørgaard Thomsen, Managing Director for ESVAGT. “They are designed in-house based on more than 20 years of experience in boat development and more than 100,000 boat transfers. These boats will in a safe manner provide the industry with additional efficiencies and cost reductions.”

Each of the ships carry ESVAGT STB 7B Safe Transfer Boat, ESVAGT STB 12A Safe Transport Boat, ESVAGT FRB 15C Fast Rescue Boat.

A third ESVAGT SOV is on order and under construction at Havyard for delivery in 2016. The third ESVAGT SOV will service the 400 MW Dudgeon Wind Farm off the East Coast of England in the fall of 2016.

December 08, 2015
News

Foss Maritime names John Parrott COO

Mr. Parrott comes to Foss from sister Saltchuk company, TOTE Maritime Alaska, where he has served as President for sixteen years. In his new role as Foss’ COO, Mr. Parrott will be responsible for overseeing key operating divisions, developing and delivering on strategic plans, and optimizing day-to-day operations through implementation of best practices throughout the organization.

“We are thrilled to have John join us in our corporate office after the first of the year,” said Paul Stevens, President and CEO of Foss Maritime. “John is a maritime industry veteran who is well known to us at Foss. We look forward to having his expertise and experience on board.”

After ten years sailing aboard a wide range of vessels in trade routes around the world, Mr. Parrott began at TOTE Maritime in 1992 as the Chief Mate of the SS Northern Lights. In 1994 he came ashore, and later became the General Manager for Sea Star Stevedore, which manages the loading, discharge and terminal operations for TOTE Maritime.

In 2002, he returned to TOTE Maritime as the Alaska General Manager, where he was soon promoted to Vice President/GM, then VP of Commercial before being named President of TOTE Maritime Alaska in 2009.

In 2011 he was named a member of the Marine Transportation System National Advisory Council. He also sits on the Tacoma-Pierce County Chamber of Commerce board of directors and serves on the Seaman’s Services board of directors.

Born in Seattle, Mr. Parrott has a BS degree in Marine Transportation from the U.S. Merchant Marine Academy; Kings Point, New York, and an MBA from Seattle University. He is a licensed master in the U.S. Merchant Marine and holds a commission in the United States Naval Reserve. Mr. Parrott, his wife and three children live in Tacoma.

Mr. Parrott is being succeeded as President of TOTE Maritime Alaska by Michael Noone.