Damen unveils next generation RHIB

The RHIB 1050 was developed at Damen Shipyards Hardinxveld, a long time RHIB supplier to the Royal Netherlands Navy.

“This is not your average RHIB,” says Roel Foolen, the shipyard’s Newbuild Project Manager. “For starters, it’s Lloyds approved. The hull is made of glass reinforced epoxy as opposed to polyester and provided with Lloyd’s approved closed cell, foam core.”

“Further to this, we are also able to provide training in its use,” adds Mr. Foolen. “Damen has many years’ experience in building boats for navies and other defence and security bodies.”

Damen’s use of epoxy for the hull will see the RHIB 1050 produced at the group’s specialist composites yard in Antalya, Turkey.

The RHIB will be produced in series with a standard hull, open to flexible, client-specified outfitting requirements.

Ergonomics are a strong theme running throughout the design. Damen developed the layout using a mock-up console, constantly tweaking the positioning of instrumentation, seating and controls until completely satisfied with comfort levels. Consequently, the wheel and throttle are perfectly aligned with the suspension seating and handles and grips are located strategically throughout the RHIB.

“We’ve aimed to cover every detail – for example including steps to facilitate easy, fast exit of the RHIB in boarding ops and integration of hoisting eyes into the bollards, simultaneously removing a trip hazard and taking advantage of every available bit of space,” says Mr. Foolen.

The RHIB uses D-shaped tubing, rather than the conventional cylindrical tubing.

“Doing this allows us to combine the console and the engines into a single, space saving unit,” says Mr. Foolen.” Usually this would not be possible as such a unit would impede access to the fore of the vessel. However, with a section of tubing removed, there is still space for on board personnel to pass safely and comfortably fore to aft.”

The vessel is easy to maintain. For example, its two 350 liter fuel tanks are located beneath the ten deck-based seats which are fitted to a dedicated hatch so that, in the event the tanks require removing, the seating is simply lifted clear.

Similarly, the entire console unit is hinged at the aft so that it can be very easily moved clear when access is necessary to the RHIB’s two 370 hp Volvo Penta engines. The mast is also hinged so that it can be quickly folded away for transport height.

“As well as easy maintenance, the RHIB 1050 is also low maintenance,” says Mr Foolen. “We’ve used high-end materials and taken every step to ensure components are protected. Console instrumentation is located behind a heated, watertight window for example. And all electrics are housed in a dedicated, heated and ventilated compartment inside the dry storage area.”

The stern platform, as well as being ideally situated for diving and man overboard operations, works in combination with the tube ends to form a protective barrier for the stern drives.

At the front of the vessel, the nose is flattened to serve as a fender during boarding operations and the tubing is fitted to the vessel with aluminum extrusions, not glue. This not only offers a better grip, but also makes it easier to remove and replace when necessary.

How about performance?  

“During seatrials, the handling, maneuverability and balance have proven to be excellent,” says Mr. Foolen. “It’s very safe also, very forgiving and perfect in rough, harsh water. She’s quick too – able to sail at speeds of over 50 knots.”

Damen is currently building a second RHIB 1050, which will feature two 400 hp outboard engines.

 

The Best Passenger Ships of 2015

 

1. Veteran, 80m Ice Class Ferry, Government of Newfoundland and Labrador, Damen Galati
The Veteran is part of a large “lifeline” vessel replacement program being undertaken by the Provincial Government to modernize its fleet.

2. Sally Fox, 105 ft Fast Ferry, King County, All American Marine
Sally Fox is the first U.S. Coast Guard Sub-chapter “K” inspected passenger vessel built and delivered under new fire safety guidelines.

3. Baynes Sound Connector, Longest Cable Ferry, BC Ferries, Seaspan Vancouver Shipyards
BC Ferries’ cable ferry, the 150-passenger, 50-vehicle Baynes Sound Connector is the longest cable ferry in operation today.

4. Texelstroom, CNG Hybrid Ferry, TESO, LaNaval
The ferry will operate mainly on natural gas stored in two batteries of compressed natural gas (CNG) bottles installed on the top deck.

5. Ampere, Electric Ferry, Norled, Fjellstrand
Norled’s Ampere is the world’s first battery powered electric car and passenger ferry.

6. Mein Schiff 4, 99,500 grt Cruise Ship, TUI Cruises, Meyer Turku
Designed for the German premium-class cruise market, the 99,500 gt Mein Schiff 4 is 294 m long and 36 m wide and has a total of 1,253 cabins.

7. Samish, 144-Car Ferry, Washington State Ferries, Vigor Industrial
Designed by Seattle-based Guido Perla & Associates, Inc., the Samish is the second in the Olympic Class vessels being built for WSF. The 362 ft ferries have a capacity of 144 cars and 1,500 passengers.

8. F.A. Gauthier, First LNG Ferry for North America, STQ, Fincantieri
The ship’s integrated diesel electric propulsion system has four Wärtsilä 12V34DF dual-fuel generating sets. that can run on either LNG or MDO Gas – LNG) or marine diesel oil (MDO).

9. Viking Star, 48,000 grt Cruise Ship, Viking Ocean Cruises, Fincanitieri
The Viking Star is the first of the three 48,000 grt, 930 passenger cruise ships on order for the line at Fincantieri’s Marghera, Italy, shipyard.

10. Oscar B., 115 ft Ferry, Wakiakum County, Nichols Brothers Boat Builders
Designed by Seattle’s Elliott Bay Design Group the steel-hulled, aluminum superstructured vessel has been built for Wahkiakum County, Washington State as a replacement for the ferry Wahkiakum.

 

 

 

Euronav CEO Paddy Rodgers to be 2016 CMA Commodore

DECEMBER 10, 2015 — Euronav CEO Paddy Rodgers has been named as the Connecticut Maritime Association (CMA) Commodore for the year 2016. The award will be presented on March 23, 2016 at

Nicaragua Canal developers enlist BMT expertise

BMT Asia Pacific and BMT ARGOSS will assist the development and validation of the planned canal’s design and operations through a structured framework.

“Our study will seek to articulate a solution that minimizes canal excavation while ensuring adequate canal capacity and safety,” says Dr. Richard D Colwill, Managing Director, BMT Asia Pacific. “A crucial part of that solution involves sophisticated navigation and transport simulation, which will set the basis for identifying a design that balances excavation CAPEX with operational safety, efficiency and capacity.”

BMT’s proprietary simulator, REMBRANDT, is widely recognised by the shipping sector for its accurate and detailed recreations of the navigation environment. Its What You See Is What You Get (WYSIWYG) output provides a platform that helps engineers and mariners  investigate different design geometries.

“Through REMBRANDT BMT will provide early and decisive insight on potential marine constraints, enabling us to identify appropriate mitigation and optimization measures – be it physical or operational in nature,” says Captain Paul Morter of BMT ARGOSS.

Besides carrying out operational assessments, BMT will also update the business case for the canal’s Pacific and Caribbean ocean ports. BMT will use its experience in port masterplanning and port strategy to help HKND identify the ports’ potential competitive positioning.

“The Nicaragua Canal system will see a large variety of vessels and wide range of vessel movements along the canal, within the inland ports, and between canal, port and ocean approaches,” says HKND Executive Director K.W. Pang.”These activities occur with differing metocean conditions, transit speeds/directions, and transit modes, etc. Recognizing this complexity, we are seeking to access BMT’s global network of subject matter experts to assemble a highly capable, technical team to address the canal’s marine safety and traffic challenges from all angles.”

Container weighing FAQs now available

The World Shipping Council (WSC), the TT Club, the International Cargo Handling Coordination Association (ICHCA), and the Global Shippers’ Forum (GSF) today jointly released a new Frequently Asked Questions (FAQ) document to address issues arising from the new regulations.

The amendments were adopted by IMO (International Maritime Organization) to enhance maritime safety and reduce the dangers to containerships, their crews, and all those involved in container transport throughout the supply chain. The FAQs have been developed by the industry coalition in response to numerous questions from shippers, carriers, forwarders, and terminal operators about the steps they must take to ensure successful implementation of the new regulations.

This initial FAQs document seeks to clarify how the SOLAS container weight verification requirements will function in various situations. It identifies commercial and operational arrangements that will have to be addressed, and it flags issues that must be dealt with by national governments.

The FAQs are based on actual questions from affected stakeholders, and they will be expanded as new issues emerge.

Stakeholders are invited to approach any of the collaborating organizations with additional questions that may come up.

Contact details of “subject-matter experts” from each of the organizations can be found at the end of the FAQs document.

The coalition says that container safety is a shared responsibility, and all parties have an interest in improving the safety of ships, the safety of cargo and the reduction of the risks to the lives of ships’ crews and others throughout the containerized supply chain.

Access the FAQs document HERE

Chinese liftboats to have Cat diesel electric propulsion

Identical diesel-electric systems, comprising four Cat Propulsion MTA-523 1500 kW azimuth thrusters driven by electric motors and soft starters as well as eight Cat C32 generator sets, will be delivered for each vessel.

“As a comprehensive power and propulsion solutions provider for the marine industry, we’re pleased to continue to integrate our full portfolio of offerings in our customers’ operations,” said Wang Xiaohua, Caterpillar Propulsion sales manager.  “China remains an area of strategic importance for us and this particular order is significant because it is the first time in China that we have supplied a full diesel-electric propulsion solution, including engines, propulsion systems and main switchboards.”

The two vessels, designed by Shanghai Bestway Marine Technology Development Company Ltd, are being built for Chinese owner Mekers Offshore Company Ltd and are due for delivery in summer 2016.

Over the course of 2016, Caterpillar will also supply all of the other components in the electric power system.

In addition to the main switchboard, Caterpillar will provide power management systems, central monitoring and alarm systems, transformers, uninterruptible power supplies and variable frequency drives.

MTA azimuth thrusters incorporate a number of key features to support effective vessel operation. They are hydro-dynamically optimized for good in-water performance. Available in both L-drive and Z-drive configurations, MTA azimuth thrusters can be supplied with controllable or fixed pitch propellers. Blade and hub materials are either bronze or stainless steel and the complete structure is designed to minimize the cost of through-life maintenance and to maximize the duration of in-service operation.

Built for reliability in harsh conditions, C32 generator sets have high efficiency and a minimized environmental footprint integrated into the design. The units can accept 100% load rate in one step and their integrated control system protects the power supply and offers scope for remote monitoring. Cat C32 generator sets are available in a power range from 830 ekW to 940 ekW.

PPG says new tank coating is a game changer

For shipyards and at installation, the system provides potential efficiency gains of as much as 20 percent compared to traditional three-layer coating systems. For shipowners, it provides the widest chemical resistance and the longest carriage time on the market of more than 3,400 cargoes, delivering maximum flexibility to the product tanker trades.

Building on more than 40 years of practical experience, PPG designed the new Phenguard Pro system as a premium tank coating solution for use on IMO II and III chemical/product tankers typically in the 30,000–60,000 dwt range.

Sijmen Visser, PPG global marketing manager, marine, says the new system is “truly a game changer for the product tanker market, offering shared benefits to both the shipyard and owner/operator by combining over 20 percent efficiency gains on application at newbuild and/or maintenance with trusted and proven performance for the owner. Based on our 40-plus-years track record on more than 1,500 vessels with this product technology, PPG has again delivered a top-quality product that also represents best value to all stakeholders in the IMO II/III product tanker segment.”

The Phenguard Pro system uses Phenguard phenolic epoxy product technology by PPG, a benchmark in the chemical-tanker market for more than 40 years.

PPG identified market demand in the IMO II/III product/chemical tanker segment for a two-layer phenolic epoxy system offering maximum cargo flexibility with improved efficiency at installation. The result is the Phenguard Pro system, engineered and launched for both newbuilding and refurbishment projects.

Mr. Visser says that the Phenguard Pro system achieves in two layers of 125 microns what other tank linings can only achieve in three. The coating system can be applied in temperatures as low as 5 C (41 F), he says, making it a year-round solution that helps reduce costs related to heating for winter application.

The Phenguard Pro system provides a smooth finish that is easy to clean, thus saving time and labor for cargo switching and tank cleaning. Mr. Visser says that shipowners will also benefit from well-documented guidance and procedures for cargoes requiring prewash, thus extending the coating life.

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

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.”

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.

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