• News

ABB solutions picked for Yamal LNG project icebreaker

Designed by Aker Arctic, the icebreaker will support LNG carriers’ operability in the approach channel to the Sabetta harbor and in the terminal at Sabetta. With a length of 89.5 m, draft of 6.5 m and 12 MW propulsion power, it has been designed to proceed at a speed of two knots in level ice 1.5 m thick and at four knots in 5 m thick brash ice in limited water depth.

ABB will provide the power, automation and turbocharging capabilities for the vessel, which will maximize fuel efficiency and maneuverability by including four Azipod thrusters, adapted for the tough ice conditions and ABB’s DC Grid system, to distribute energy effectively. The main engine will also be fitted with a Power2 800-M advanced two-stage turbocharging system, enabling the highest efficiency turbocharging performance.

Peter Terweisch, ABB Group Senior Vice President, Process Automation says, “ABB’s marine applications are at the forefront of the icebreaking market with our process automation technology now central to the world’s most advanced icebreaking vessel. We are very pleased to be able to deliver industry leading levels of efficiency and safety by providing so many ABB latest generation solutions on one vessel.”

The vessel’s ABB Onboard DC Grid systemhas many advantages. It provides space and weight savings whilst minimizing noise and vibration. A key advantages is that it allows diesel engines to run at variable speeds, rather than one fixed speed, is important when managing ice conditions. This flexibility can also cut fuel use and emissions.

Two pairs of Azipod thrusters will be fitted on the bow and stern of the ship, all of which will be adapted to the conditions. They will be equipped with powerful electric motors (3 MW each). Turning 360 degrees, they will allow the ship’s crew to maneuver the vessel to operate stern or bow first.

Aker Arctic’s Mika Hovilainen says “The harbor icebreaker is a totally new concept especially developed for heavy harbor ice conditions with extensive thick brash ice. Having four Azipod units helps to take operability, maneuverability and ice management capability to one step further. Along with ABB Marine and Ports, we continue to be at the cutting edge of icebreaking technology.”

The icebreaker’s ABB Integrated Power and Energy Management System and Marine Automation System bring together main elements of the ship’s performance, such as power generation and propulsion, into a centralized system allowing the operator to increase efficiency and safety.

The Power2 800-M two-stage turbocharging system on the icebreaker’s Wärtsilä 31 engine, will further enhance fuel efficiency and flexibility of operations. With a low pressure and high pressure stage, it provides higher air pressure ratios, up to 12 from 8 in the previous generation. Compared to a single-stage turbocharger operating at 65-70% efficiency, Power2 800-M goes beyond 75% efficiency, the only system currently available across the large engine industry with this capability.

The turbocharging system responds to the need for new marine engine technology to offer consistency of performance across conventional and newer marine fuel options. This application will demonstrate the advances in efficiency and power density now available for four-stroke engines operating across a wide range of load profiles and facing added demands of emissions legislation.

port icebreaker 700

DDG 1000 is out on sea trials

 No other details yet, but a couple of photos have been released and a couple of video clips have cropped up on YouTube, all of which show the dramatic difference between the vessel’s stealthy tumblehome hull form with wavepiercing bow and the exteriors of more traditional destroyers.

The “Star Wars” flavor of the ship is not confined to its external appearance: DDG 1000 introduces a wide range of new technologies including Electric Drive/Integrated Power Systems, ship control and damage control automation, and a totally integrated, ship-wide command & control systems. Generating far more power than the DDG 51 ships, DDG 1000 is suitable for future deployment of directed energy beam weapons and the electromagnetic railgun, both of which are under intensive development.

zumwalt sea trials 700

 

Esvagt orders new design wind farm service vessel

Situated 50 km off the Belgian coast the Nobelwind project, together with the existing Belwind 1 project, will require a purpose built service operation vessel (SOV) to support the technicians working in the wind park.

Norway’s Havyard Design & Solutions has been commissioned to design the vessel and supply an equipment to the shipbuilder, Turkey’s Cemre Shipyard. which is set to deliver the vessel in the second half of 2017.

The vessel’s Havyard 831 SOV design is based on a ship and service concept, developed by Esvagt in synergy with MHI Vestas & Havyard Design, that draws on several years of experience in servicing wind farms further offshore.

For the past five years, Esvagt has provided the base for MHI Vestas Offshore Wind technicians servicing the 165 MW Belwind 1 project, and the new contract continues that partnership.

The new purpose build SOV will be 58.5 m in length, with a beam of 16.6 m and will be able to support up to 22 technicians in single cabins. It will be equipped with Esvagt’s unique safe transfer boats (Esvagt STB) to transfer technicians, tools and spare parts to the turbines.
“The market for big service vessels for offshore windfarms is a relatively new one, and, in cooperation with Esvagt, we have entered this market at an early stage,” says Gisle Vinjevoll Thrane, Senior VP Sales, Havyard Design & Solutions. “The windmills used to be serviced by small, fast-moving boats that transported personnel and equipment daily to and from the shore. More and more wind farms are now serviced by bigger ships where the service personnel work and live on board for prolonged periods and access the windmills by means of a gangway installed on the mother ship or small boats launched from the mother ship. This is a safer and more profitable way of servicing the wind farms, particularly those far offshore.”

“The Havyard 831 SOV was developed to fill a new niche in this market, namely smaller wind farms,” says Mr. Thrane. “The new design is smaller than the ships built so far. It is compact and efficient, but at the same time has ample capacity to transport service personnel and equipment. This design will make it profitable to service even smaller wind farms, and we see a potential to deliver many designs to this segment.”

The Havyard 831 SOV has a spacious and comfortable interior with sufficient capacity to accommodate wind farm service personnel in addition to the ship’s own crew. It has also been designed with good storage capacity for equipment and tools below deck and for containers on deck.

The ship is equipped with three small boats that can be launched to transport service personnel to the windmills.

The diesel-electric propulsion system ensures economical and environmentally friendly operation, both in transit and when the ship is in position at the wind farms. The hull has been designed to ensure low fuel consumption and to move in a way that ensures maximum comfort for the crew and service personnel on board.

The ship has sufficient fuel capacity etc. for at least 30 days’ operation between port calls.

Havyard has a long relationship with Cemre Shipyard. The Turkish yard has delivered the hulls for more than 30 of the newbuilds Havyard has delivered since 2005. In recent years, the shipyard has also delivered completed newbuilds for Norwegian and other customers, including cargo vessels, fishing vessels and seismic support vessels.Havyard says that the close cooperation built with Cemre through the hull deliveries will continue and develop now that the yard is to build its first Havyard design vessel.

 

  • News

TOTE Maritime Alaska names Michael Noone President

Mr. Noone joined TOTE Maritime Alaska as Chief Operating Officer in August 2013, bringing with him 28 years of experience in the shipping and logistics field. As COO, he has been responsible for creating strategic and operating plans for sales, pricing and operations.

Mr. Noone received his bachelor’s degree from Wagner College and is certified by some of the nation’s top executive programs in Logistics, including the SMEAL College of Business Administration at Penn State University and the Fisher College of Business at Ohio State University. He also earned certifications in Advance Management from INSEAD, in Strategic Planning and Implementation from the Ross School of Business at the University of Michigan and is a past Steering Committee Member at the Retail Industry Leaders Association (RILA).

Mr. Noone’s predecessor John Parrott, who has served as the company’s President since 2009, will join TOTE’s sister company, Foss Maritime as Chief Operating Officer, where he will be responsible for the oversight of Foss’s key operating divisions (see separate story).

“We thank John Parrott for his many contributions, accomplishments and leadership for TOTE Maritime Alaska,” said TOTE President & CEO Anthony Chiarello. “We wish him well in his new role at Foss and look forward to TOTE’s continued success under Mike’s capable leadership.”

  • 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.

BAE San Francisco gets $16.5 million Navy contract

Work by the shipyard will include clean and gas free tanks, voids, cofferdams and spaces, deck non-skid renewal, ballast tank preservation, cylinder head and liner overhaul, main engine overhaul, heating, ventilating, and air conditioning support, degaussing system repairs, annual lifeboat certification, galley ventilation system cleaning, docking and undocking, propeller system maintenance and boss cap replacement, bow thruster maintenance, overhauling sea valves, and underwater hull cleaning and painting.

The contract includes options which, if exercised, would bring the total contract value to $16,566,073.

Work will be performed in San Francisco and is expected to be completed by April 1, 2016.

Fiscal 2016 maintenance and repair funds in the amount of $16,501,090 will be obligated in 2016.

The contract was competitively procured, with proposals solicited via the Federal Business Opportunities website and two offers received.

The Navy’s Military Sealift Command is the contracting activity (N32205-16-C-4308).

  • News

Alfa Laval to offer open training courses

 

“To ensure safety and optimal use – but also economy in maintenance and operation – it’s important that customers understand the equipment they work with and the many factors that impact its operation,” says Caroline Carlstedt, Training Manager, Alfa Laval Service.

Alfa Laval’s emphasis on training is evidenced, for example, byt the recently built Alfa Laval Test & Training Centre in Aalborg, Denmark, which comprises cutting-edge training facilities in addition to its 250 sq.m testing space.

Customer-focused courses are regularly conducted on Alfa Laval’s premises in Tumba, Sweden and worldwide in locations like the

Philippine capital of Manilla, where around 500 customers are trained each year.

Now Alfa Laval will also offer a range of open coursesl, allowing individual operators and small groups to participate together with industry peers.

Why open training courses?

“Training is in everyone’s interest, but not all shipowners and operators are in a position to fill a dedicated Alfa Laval course,” says Ms. Carlstedt. “Alfa Laval’s open training courses, which will primarily be held at our facilities in Tumba, Sweden, will make our specialist expertise more broadly available to the marine industry.”

“A customer-specific course has the benefit of being 100% focused on that customer’s unique challenges,” she says. “On the other hand, an open course means opportunities to exchange experience with industry peers in similar positions, facilitated by Alfa Laval experts who can provide deeper insights and lead the way to best practices for all present.”

Open training courses will focus on key areas of concern for all shipowners and operators. The first, which will deal with separators, will be a three-day course aimed at equipment operators, technical crew and superintendents. This course will take place February 23-25, 2016.

By relating in-depth knowledge through the courses, and by teaching proper operational, maintenance and service procedures, Alfa Laval experts will help participants to optimize safety and ensure the correct handling that prevents unnecessary wear and stops.

“When customers have attended, they will understand their equipment and be familiar with the issues that affect its operation, which means they will be able use that equipment in the best possible way,” says Ms. Carlstedt. “That will contribute not only to lower maintenance costs, but also to lower operating costs. And when it comes time to refurbish, upgrade or replace the equipment, knowledgeable and competent personnel will be able to provide qualified feedback and support that will lead to a competitive long-term solution.”

GD NASSCO delivers first ECO tanker to APT

The Jones Act tanker is the first of a five-tanker contract between NASSCO and APT, covering design and construction of five 50,000 deadweight-ton, LNG-conversion-ready product tankers with a 330,000 barrel cargo capacity.

In addition to being LNG conversion ready, the 610 ft long ECO class tankers are a new “ECO” design, offering significantly improved fuel efficiency and the latest environmental protection features including a Ballast Water Treatment System.

Helping achieve the fuel savings are a G-series MAN Diesel & Turbo ME slow-speed main engine and an optimized hull form.

“The delivery of this new vessel symbolizes the future of American shipping: innovative, cost-effective, and green. The Lone Star State, along with the four others we are currently building for APT, will be among the most fuel-efficient and environmentally-friendly tankers—anywhere in the world,” said Fred Harris, president of General Dynamics NASSCO. “These tankers are 33 percent more fuel efficient than the previous five tankers built by NASSCO for APT. We are proud to be leading the charge in building these next generation of tankers.”

Between 2007-2010, NASSCO built five similar State Class product tankers for APT.”We are very excited to be taking delivery of the Lone Star State. This state-of-the-art tanker is a welcome addition to our growing fleet and will provide safe, reliable and efficient transportation service to our customers for many years to come,” said Robert Kurz, vice president of Kinder Morgan Terminals and president of American Petroleum Tankers. “We thank NASSCO for their tremendous support in achieving this important milestone.”

The ships have designed by DSEC, a subsidiary of Daewoo Shipbuilding & Marine Engineering (DSME) of Busan, South Korea. The design incorporates improved fuel efficiency concepts through several features, including a G-series MAN Diesel & Turbo ME slow-speed main engine and an optimized hull form. The tankers will also have the ability to accommodate future installation of an LNG fuel-gas system.

  • News

ClassNK moves to spur marine industry use of Big Data

Rapid advances in the development of information and communication technologies now make it possible to collect large volumes of data on a diverse range of items related to ship operations. However, the approach to data capture is still very fragmented with similar data being sent to several vendors and analysis still being carried out almost entirely on a ship-by-ship basis.

To make larger gains, an effective platform capable of centralizing and managing such diverse data is essential. However, creating and maintaining this kind of platform is costly, time-consuming and unrealistic for many organizations.

Special care also needs to be given to the handling of data to ensure confidentiality of information; hence it is also necessary to establish a secure yet effective platform from an impartial perspective.

As an independent, non-profit organization with over a century of experience in ship classification, ClassNK has drawn on its extensive technical knowledge and expertise to develop Ship Data Center Co., Ltd.

The Data Center consists of a secured shipping operations database which will serve as an information hub to independently manage the utilization of big data in the maritime industry. Through the center’s integrated data, the industry can maximize the benefits of big data with a minimum cost and burden.Trials of the Data Center will commence on a container vessel in February 2016 in cooperation with a Japanese shipping company. Various information including data from the ship’s voyage data recorder and data logger will be gathered from the vessel.

Full operation of the Data Center is scheduled from April 2016.

ClassNK sees opportunities for future application of the Data Center as “infinite.”In addition to optimizing ship operations and improving condition-based monitoring of machinery, the Data Center could also be used to help the industry overcome current and emerging challenges.

For example, the entry into force of the Monitoring, Reporting and Verification (MRV) regulation by the EU requires shipowners and operators to annually monitor, report and verify fuel consumption for vessels 5,000 gt or over which call at any EU port. Data collection will be required from January 1, 2018. The Data Center plans to offer shipowners and operators a secure and neutral database in which to store and manage these vast amounts of fuel consumption data.

ClassNK says that establishment of Ship Data Center Co., Ltd. reinforces its position as part of indispensable infrastructure of the industry and demonstrates its commitment to creating a safer, greener and more efficient global maritime industry.

  • News

Shell cuts steel for LNG bunker vessel

The steel cutting ceremony took place at the shipyard December 4, with representatives from Shell and the shipbuilder in attendance.The new LNG bunker vessel will be based at the port of Rotterdam in the Netherlands, and will load from the new LNG break bulk terminal currently under construction by the Gas Access to Europe terminal. Once ready, it will deliver to LNG-fueled vessels in northwest Europe. The vessel is also seagoing and, therefore, able to bunker customers at other locations.

Shell says the vessel will be “pioneering in design.” It will have a capacity to carry 6,500 cu. m of LNG fuel and will be highly efficient and maneuverable. Featuring an innovative transfer system and sub cooler unit, it will be able to load from large or small terminals and able to bunker a wide variety of customer vessels.

Finland’s Containerships Ltd Oy will be the launch customer for the vessel’s services, after signing an LNG supply agreement with Shell on November 24.

As we reported earlier, Containerships Ltd Oy is to charter the two 1,400 TEU LNG fueled containerships currently being built for Nordic Hamburg Group at China’s Yangzhou Guoyu Shipyard .

The vessels will receive LNG fuel from Shell at the port of Rotterdam, after the LNG bunker vessel becomes operational in mid-2017.”This is a significant landmark in bringing this innovative LNG bunker vessel with cutting-edge technology to reality,” said Dr Grahaeme Henderson, Vice President of Shell Shipping & Maritime.

“I am delighted to be working with STX on this project and Shell is proud to be leading in the development of LNG fuel in shipping.””The supply agreement between Shell and Containerships is another example of the marine LNG fuel supply chain coming together,” says Lauran Wetemans, Shell’s General Manager Downstream LNG. “Working together with customers like Containerships is critical to encourage the use of LNG as a fuel in the marine sector, and we’re committed to helping make the transition to LNG.”

LNG bunker vessel

ShellLNGBunkervessel