4.9 C
New York
Home Blog Page 61

Aker Arctic to design next-generation icebreaker for Finland

By
Chief Editor
-
0

Finnish Transport Infrastructure Agency (FTIA) has chosen Aker Arctic to design the next-generation Baltic Sea assistance icebreaker as part of the Winter Navigation Motorways of the Sea III (WINMOS III) project co-financed by the European Union. In addition to initial design, various technical evaluations and concept comparison, the work will include model tests and development of the final concept design package.

Ensuring year-round access to Finnish ports requires maintaining sufficient icebreaking capacity. For example, during the average ice winter of 2023–2024 the first Finnish icebreaker was deployed to the Bothnian Bay already in late November and by the end of January the whole Finnish icebreaker fleet was in operation.

“Tightening energy efficiency requirements will reduce the independent ice-going capability of new commercial vessels and consequently increase the need for icebreaking services also during mild winters. In addition to high operational icebreaking capability, the icebreaker design thus highlights the ability to operate in more dynamic and fragmented ice fields, as well as good seakeeping characteristics and low fuel consumption in open water transit,” says Mika Hovilainen, CEO, Aker Arctic.

The working title of the new icebreaker design, “B+”, describes its classification between the biggest A-class and the mid-tier B-class icebreakers in terms of vessel size and capability. Such icebreaker could be deployed to the Bothnian Bay in the beginning of the icebreaking season when icebreaker assistance is required primarily by smaller commercial vessels. Later in the season, the new icebreaker could be relocated south to the Bothnian Sea or the Gulf of Finland as needed.

Meeting the tightening emission targets of the maritime industry will call for the adoption of new environmentally friendly technical solutions in future icebreakers. The initial design phase will include the evaluation of different fuel alternatives and machinery configurations suitable for icebreakers. In addition, the use of different electric energy storage systems to balance out the load fluctuation will be investigated based on the typical operational profile of a Baltic Sea assistance icebreaker.

The development of the next-generation icebreaker design will begin immediately. In addition to the initial technical evaluations and studies, the first phase will also include the comparison of three concept alternatives in terms of performance and costs for acquisition, service, and maintenance over the lifetime of the vessel. The performance of at least two concepts will be evaluated with model tests. The final concept design package will be completed in early 2026.

Damen Naval selects Van Halteren Technologies for Key ASWF Systems

By
Chief Editor
-
0

The ASW frigates, developed on behalf of the Netherlands Ministry of Defence for the Royal Netherlands Navy and the Belgian Navy, set a new European standard for advanced anti-submarine warfare vessels.

Van Halteren Technologies was selected for its expertise and proven track record, demonstrated in previous collaborations. Recently, the company completed successful RAS testing for the Combat Support Ship (CSS) Den Helder. For the ASWF, the integration of RAS receivers into the super structures marks a significant engineering innovation.

Van Halteren Technologies Boxtel (VHT) is a Dutch company focussed on design and manufacturing of specialised systems, technical solutions and services for defence and industrial applications. 

The VHT RAS systems, designed for the safe transfer of liquids and solids at sea, are fully customisable and designed for safe, reliable operations under demanding naval conditions. Additionally, VHT’s helicopter transfer systems are designed for both manned and unmanned helicopters. 

“These contracts mark another important step in delivering a future-proof platform that will strengthen European security and cooperation. We value working with trusted partners like Van Halteren Technologies who share our commitment to innovation,” said Fer Tummers, Project Director ASWF at Damen Naval.

“The ‘Proven in Practice’ RAS and HTS systems will be fully integrated into the ASWF platform as a project. For VHT, the contribution to the ASWF program is an excellent example to demonstrate the knowledge and expertise for Drive and Control technology in cooperation with Damen Naval,” according to Charles Simons, Sales Manager Naval Systems at VHT.

The ASW frigates, set to replace the Karel Doorman class, are designed for anti-submarine warfare and can counter surface and air threats. They feature low acoustic signatures, advanced sensors, high survivability, and integrated automation. These multi-role vessels are also capable of handling lower-intensity operations, including counter-piracy, anti-terrorism, and maritime security operations.

The ASWF programme demonstrates EU defence cooperation in action, as it offers other EU and NATO nations an opportunity to join the project. The first vessel is scheduled to be delivered by Damen Naval in 2028.

Sentinel Marine signs new build contract for Multi-Role Energy Support Vessel

By
Chief Editor
-
0

Sentinel Marine has signed a shipbuilding contract with Jiangmen Hangtong Shipbuilding Co., Ltd for the construction of a 65-metre multi-role energy support vessel to join their fleet, with options for a further three vessels. The new vessel will bring the fleet number to 15.

The initial vessel in this innovative new class is scheduled for delivery in Q2 2027. The newbuild will be a DP2 vessel with a deadweight of 1,600 tonnes, with 375m² of clear deck space and substantial under-deck capacity for fuel oil, potable water, recovered oil, and mono ethylene glycol (MEG).

Designed as a Group B (A option) UK emergency response and rescue vessel (ERRV), the vessel will feature a fast rescue craft (FRC) and hybrid daughter craft. This transitional vessel will also meet design criteria for Dutch and Danish ERRV regulations and will offer accommodation for between 37 and 47 personnel.

In addition to its emergency response capability, the design includes an optional work-to-work gangway, under-deck supplies warehouse and battery hybrid propulsion, ensuring suitability for a broad range of operations including offshore wind and transitional energy support, government services, carbon capture, and maritime security.

Rory Deans, CEO of Sentinel Marine, says:

“This new multi-role energy support vessel, and the future sister ships, mark an exciting step forward in our strategic vision to deliver ‘Blue to Green’ operations. The new vessel will be a cornerstone in our journey towards cleaner, multi-sector marine services that remain robust and reliable.”

Keng Lin Lee, CEO of Cyan Renewables, said:

“Cyan is delighted to be investing in expanding our fleet with this innovative new multi-purpose support vessel enhancing Sentinel’s reputation as the leading UK based ERRV provider with the youngest fleet in Europe. The investment aligns with Sentinel Marine and Cyan Renewables’ shared commitment to sustainable innovation in marine operations, strengthening the group’s capabilities across multiple offshore sectors.”

Bureau Veritas endorses ThreatScene SA’s cybersecurity framework, MARINE

By
Chief Editor
-
0

Bureau Veritas Marine & Offshore (BV) has announced the official endorsement of MARINE, a comprehensive cybersecurity framework developed by ThreatScene SA, a leading provider of cybersecurity services.

The MARINE framework, developed by ThreatScene SA in partnership with the Hellenic Chamber of Shipping, was created to help the maritime industry tackle the growing challenge of cybersecurity threats. Designed as a practical, scalable, and easy-to-implement methodology, MARINE provides clear guidelines and best practices tailored specifically to the maritime sector, offering organizations an effective starting point for strengthening their cyber resilience across vessel operations, port infrastructure, and interconnected maritime systems.

The endorsement by Bureau Veritas recognizes MARINE as a valuable foundation for maritime organizations looking to build their cybersecurity capability in alignment with industry standards. To further support IT teams, the framework is available as a handbook, providing an accessible benchmark for maritime stakeholders seeking to implement cybersecurity best practices and navigate evolving threats.

ThreatScene SA also offers a free online self-assessment platform, enabling organizations to evaluate their cybersecurity maturity, compare their scores against industry peers, and receive a tailored gap analysis report. This report highlights key areas for improvement, helping companies prioritize security enhancements and develop a structured path toward cyber resilience.

As part of the endorsement agreement, ThreatScene SA will continue to update the framework, ensuring it remains aligned with the latest technological advancements, regulatory changes, and emerging cyber threats. This process will be overseen by BV, who will also work with ThreatScene to deliver workshops designed to assist in the revision of the framework (Rev2), incorporating IACS cyber regulations. This commitment reflects both organizations’ dedication to supporting the maritime industry in addressing the ever-evolving cybersecurity landscape.

Katerina Tasiopoulou, CEO of ThreatScene Greece MAE, said: “We are honoured to receive the endorsement from BV, a globally respected leader in the maritime industry. This recognition underscores our commitment to delivering cutting-edge cybersecurity solutions that help maritime operators protect their critical assets. With our ongoing obligation to update the framework, we will continue to provide the industry with the tools needed to stay ahead of emerging threats.”

Matthieu de Tugny, President of Bureau Veritas Marine & Offshore, said: “The MARINE cybersecurity framework is a valuable starting point for the Greek maritime market to address the evolving threat to cybersecurity. The framework provides a practical approach to help owners develop a robust cyber management plan that aligns with relevant industry standards and enhances the overall resilience of their operations.”

Svitzer signs global EcoTow agreement with Wallenius Wilhelmsen to drive decarbonisation

By
Chief Editor
-
0

Svitzer has signed a global EcoTow agreement with the Wallenius Wilhelmsen group. The agreement marks a major step in Svitzer’s decarbonisation journey and supports Wallenius Wilhelmsen’s ambition to reduce Scope 3 emissions across Svitzer’s global operations.

By applying the mass balance principle, Svitzer can use biofuels across its network and bank the resulting CO₂ savings in its emissions ledger. These are then allocated to Wallenius Wilhelmsen, allowing the company to reduce emissions related to towage.

“This collaboration demonstrates the importance of partnerships in our decarbonisation efforts. Working with a like-minded partner like Svitzer gives us a reliable path to reduce emissions beyond our direct operations,” says Ove Moring, Senior Manager Supplier Contracting & Equipment, Wallenius Wilhelmsen.

Sven Muchardt, Key Customer Manager at Svitzer, highlights the value of the agreement: “We are excited to partner with Wallenius Wilhelmsen on this initiative to help address the shared challenges of decarbonisation. This agreement strengthens our collaboration while supporting both companies’ strategic goals.”

The deal reflects a growing customer demand for voluntary emissions reduction schemes that go beyond regulatory requirements. It also illustrates how Svitzer’s differentiated approach can support customers in accelerating their climate strategies.

“We see EcoTow not only as a solution for today, but as a bridge to more transformative change,” adds Svitzer’s Head of Decarbonisation, Gareth Prowse. “These agreements show that our customers are ready to act now, not later.”

Estonia seizes tanker from Russia’s shadow fleet over ‘false flag’ violations

By
Chief Editor
-
0

The Estonian Navy has detained the oil tanker Kiwala, which is believed to be part of Russia’s so-called shadow fleet.

The detention was confirmed by Commodore Ivo Värk, commander of the Estonian Navy, according to national broadcaster ERR.

The vessel was stopped early on Friday, April 11, to verify its documentation, legal status, and compliance with safety regulations.

“It’s no secret that many undocumented vessels have appeared in the Gulf of Finland over the past year. We can safely say they are part of the shadow fleet,” said Veiko Kommusaar, head of the border guard division of the Police and Border Guard Board.

Estonia began preparations to intercept the vessel on Thursday evening. The operation started at 3 a.m. local time, and by 4:19 a.m., the Kiwala had entered Estonian territorial waters.

The tanker was en route from the Indian port of Sikka to the Russian port of Ust-Luga. It is subject to sanctions imposed by the United Kingdom, Canada and the European Union due to previous violations.

“The vessel was sailing without a flag. Vessels without flags are effectively stateless and should not be in operation. Estonia exercised its right to detain it for inspection,” Kommusaar explained.

During the detention, Estonia’s Transport Department is inspecting the ship’s technical condition, its insurance coverage, and the documentation of its 24-member crew. The ship’s captain is a Chinese national.

According to Ukrainian website WarSanctions, the Kiwala is used to transport crude oil and petroleum products from Russia to third countries. The website reports that ownership and management of the ship have changed frequently in an effort to obscure its Russian ties and the identities of end recipients.

Andrii Klymenko, editor-in-chief of Black Sea News and project manager at the Black Sea Institute for Strategic Studies, told Militarnyi that the Baltic states were seeking legal means to counter Russia’s shadow fleet, which operated close to their coastlines.

These ships carry large volumes of Russian oil and petroleum products from Russian ports in the Baltics, generating revenue that helps finance the war in Ukraine. Klymenko added that the poor condition of those tankers posed an environmental risk in case of an accident.

He said the immediate reason for the Kiwala’s detention likely stemmed from its status in the Equasis maritime database—an official resource of the European Commission and France’s maritime authority. The tanker (IMO n° 9332810) is listed with a flag entry reading “Djibouti False – false flag” and an “UNKNOWN” entry in the call sign column.

According to the editor-in-chief of Black Sea News, the sanctions imposed on this vessel do not grant the right to detain it, even in territorial waters, as they only prohibit port entry. Therefore, Klymenko said it was necessary to add a provision to the sanctions regimes introduced by Western countries against Russia’s “shadow fleet.”

Source: Militarnyi

Titanic scan reveals ground-breaking details of ship’s final hours

By
Chief Editor
-
0

The exact 3D replica shows the violence of how the ship ripped in two as it sank after hitting an iceberg in 1912 – 1,500 people lost their lives in the disaster.

The scan provides a new view of a boiler room, confirming eye-witness accounts that engineers worked right to the end to keep the ship’s lights on.

And a computer simulation also suggests that punctures in the hull the size of A4 pieces of paper led to the ship’s demise.

The scan has been studied for a new documentary by National Geographic and Atlantic Productions called Titanic: The Digital Resurrection.

The wreck, which lies 3,800m down in the icy waters of the Atlantic, was mapped using underwater robots.

More than 700,000 images, taken from every angle, were used to create the “digital twin”, which was revealed exclusively to the world by BBC News in 2023.

Because the wreck is so large and lies in the gloom of the deep, exploring it with submersibles only shows tantalising snapshots. The scan, however, provides the first full view of the Titanic.

Sitting 600m away, the stern is a heap of mangled metal. The damage was caused as it slammed into the sea floor after the ship broke in half.

The new mapping technology is providing a different way to study the ship.

The scan shows new close-up details, including a porthole that was most likely smashed by the iceberg. It tallies with the eye-witness reports of survivors that ice came into some people’s cabins during the collision.

Experts have been studying one of the Titanic’s huge boiler rooms – it’s easy to see on the scan because it sits at the rear of the bow section at the point where the ship broke in two.

Passengers said that the lights were still on as the ship plunged beneath the waves.

The digital replica shows that some of the boilers are concave, which suggests they were still operating as they were plunged into the water.

Lying on the deck of the stern, a valve has also been discovered in an open position, indicating that steam was still flowing into the electricity generating system.

This would have been thanks to a team of engineers led by Joseph Bell who stayed behind to shovel coal into the furnaces to keep the lights on.

All died in the disaster but their heroic actions saved many lives, said Parks Stephenson, a Titanic analyst.

“They kept the lights and the power working to the end, to give the crew time to launch the lifeboats safely with some light instead of in absolute darkness,” he told the BBC.

“They held the chaos at bay as long as possible, and all of that was kind of symbolised by this open steam valve just sitting there on the stern.”

A new simulation has also provided further insights into the sinking.

It takes a detailed structural model of the ship, created from Titanic’s blueprints, and also information about its speed, direction and position, to predict the damage that was caused as it hit the iceberg.

“We used advanced numerical algorithms, computational modelling and supercomputing capabilities to reconstruct the Titanic sinking,” said Prof Jeom-Kee Paik, from University College London, who led the research.

The simulation shows that as the ship made only a glancing blow against the iceberg it was left with a series of punctures running in a line along a narrow section of the hull.

Titanic was supposed to be unsinkable, designed to stay afloat even if four of its watertight compartments flooded.

But the simulation calculates the iceberg’s damage was spread across six compartments.

“The difference between Titanic sinking and not sinking are down to the fine margins of holes about the size of a piece of paper,” said Simon Benson, an associate lecturer in naval architecture at the University of Newcastle.

“But the problem is that those small holes are across a long length of the ship, so the flood water comes in slowly but surely into all of those holes, and then eventually the compartments are flooded over the top and the Titanic sinks.”

Unfortunately the damage cannot be seen on the scan as the lower section of the bow is hidden beneath the sediment.

The human tragedy of the Titanic is still very much visible.

Personal possessions from the ship’s passengers are scattered across the sea floor.

The scan is providing new clues about that cold night in 1912, but it will take experts years to fully scrutinise every detail of the 3D replica.

Source: BBC News

LDA has been granted an AiP for its H2-powered SOV design

By
Chief Editor
-
0

Louis Dreyfus Armateurs (LDA) has received an Approval in Principle (AiP) for its full liquid hydrogen-based SOV design. The Level 1 AiP was given by Bureau Veritas Marine& Offshore. This brings the groundbreaking Service Operation Vessel (SOV) design closer to reality. 

This 100% hydrogen-powered SOV will be able to operate 95% of the time with zero carbon emissions during standard operations, leading to an estimated 4,000-ton annual CO₂ reduction. Beyond the reduction of is environmental impact, the vessel is engineered for maximum efficiency and operability. It can accommodate up to 90 technicians onboard while ensuring continuous 24-hour operations. With an impressive 14-day endurance at sea, it eliminates the need for additional offshore infrastructure. Refueling is also streamlined, as bunkering can be completed in just six hours using trailers, removing the necessity for heavy port facilities. 

LDA introduced the hydrogen SOV concept design back in March 2024, in cooperation with Norwegian naval architecture company Salt Ship.

“We believe in developing purpose-built SOVs tailored to specific projects and needs. We are already offering alternative fuel options such as full electric and dual-fuel methanol. We firmly believe that hydrogen will be one of the options in the near future. This AiP represents a key step in making hydrogen-powered maritime operations a reality,” said LDA.

MAN 175D engines selected for carbon capture storage application

By
Chief Editor
-
0

The Royal Niestern Sander shipyard in the Netherlands has ordered 2 × MAN 16V175D MEM engines (2,400 kWm/1,800 rpm) in connection with the building of an MPV (Multi-Purpose Vessel) vessel – ‘Easymax 5’ – for Dutch outfit, Wagenborg Operator. 

The engines will be employed as GenSets for power generation aboard the purpose-built CO2 carrier, which will be employed in the offshore, substrate storage of CO2.

The vessel will be the fifth under the EasyMax concept jointly developed by Wagenborg and Niestern Sander with a cargo capacity of 14,000 tons. It will ultimately be chartered by Ineos, Denmark and the 175D engines are scheduled for delivery during 2025.

The CO2 for storage will come from a bio-gas plant in Denmark, from where it will be transported to Esbjerg on the Danish west coast for loading aboard the vessel before proceeding to the Greensand storage site in the Danish North Sea. The MAN 175D GenSets are intended to give the Easymax 5’s CO2 pump and DP2 systems more power during discharge into offshore storage.

Bart Speckens, Regional Sales Manager, MAN Energy Solutions, said: “This order represents a new type of reference for the 175D. In general, 175D is a versatile engine with the lowest environmental footprint and operating costs in its class due to its high fuel-efficiency and long service-intervals. We’re proud to be involved in such a crucial project that ultimately will sequester millions of tonnes of carbon dioxide from hard-to-abate industries.”

In keeping with its slogan of ‘Moving Big Things to Zero’, MAN Energy Solutions provides the shipping industry with green engines that can operate on climate-neutral fuels, but also offers the actual carbon-capture-and-processing technologies essential for global industry to achieve net zero. Once captured, CO2 can be stored and reused to form the backbone of a circular carbon economy. Of the 18 large-scale facilities currently in commercial operation globally, fully eight employ MAN CO2 compression technology. 

Mitsubishi Logisnext delivers container terminal gate system to Port of Osaka

By
Chief Editor
-
0

Mitsubishi Logisnext has delivered a new advanced-function container terminal gate, a facility that serves as a nodal point for various types of cargo transport by sea and land, to Dream Island Container Terminal Co., Ltd.

The new container terminal gate, Mitsubishi Logisnext’s first system incorporating advanced functionality installed at the Port of Osaka’s Yumeshima Container Terminal (DICT), was selected for the Ministry of Land, Infrastructure, Transport and Tourism’s “2024 Osaka Port Yumeshima Container Terminal CT Gate Advanced Project,” and began operation in February 2025, along with the existing gate facilities that had undergone system upgrades.

The gate system uses a 5G handheld terminals that can be operated in conjunction with computers in the administrative office to confirm the information on the containers arriving and leaving the terminal, and the trailers to transport them, instead of the conventional method of paper documents and visual inspection of the physical containers. Specifically, the system greatly reduces workloads and shortens working time with automatic inputting of image data using handheld terminals, and an AI (artificial intelligence) identification system using two overhead cameras installed at the gate. 

In addition, for the operation of the system, client-specific applications that previously needed to be installed on a computer have been adapted for browsers, enhancing operability and compatibility, and allowing for greater flexibility when modifying applications or updating the system in the future. Further, the vehicle information obtained through this system is linked to the new CONPAS port information system,(Note) and will contribute to alleviating traffic congestion around the adjacent Expo2025 Osaka, Kansai, Japan venue.

CONPAS (Container Fast Pass) is a new port information system developed by Japan’s Ministry of Land, Infrastructure, Transport and Tourism (MLIT) with the aim of improving the efficiency and productivity of container transportation by eliminating congestion at container terminal gates, and shortening the time spent at the terminal by container truck trailers.

1...606162...1,329Page 61 of 1,329
Premium Content

© 2025 SeaWanderer. All Rights Reserved. Powered by Maritime.Studio