Thursday, August 31, 2023

 

40 Years Later: The Loss of the Marine Electric

 

PUBLISHED AUG 27, 2023 8:13 PM BY CORINNE ZILNICKI

 

[This article was originally published in 2019, and it is reprinted here in recognition of the 40th year of the Marine Electric's loss.]

At midnight on February 12, 1983, the 605-foot cargo ship Marine Electric was sailing northward 30 miles off Virginia's eastern shore, plowing slowly through the gale-force winds and waves stirred up by a winter storm.

An able-bodied seaman relieved the watch and peered forward, noticing for the first time that the ship's bow seemed to be riding unusually low in the water. Dense curls of green ocean rushed over the bow, some of them arching 10 feet over the deck before crashing back down. The crew had been battling 25-foot waves for hours, but until now, the bow had bucked and dipped as normal.

Now it seemed only to dip.

Over the next two hours, the waves intruded with increasing vigor. The entire foredeck was swallowed in six feet of water. The main deck was completely awash.

At 02:30, the ship's master, Phillip Corl, summoned his chief mate, Robert Cusick, to the bridge and shared his fears: the bow was settling, they were taking on too much water, and the crew was in real trouble.

At 02:51, the captain made the first radio distress call to the Coast Guard.

"I seem to be taking on water forward," Corl said. "We need someone to come out and give us some assistance, if possible."

By the time assistance arrived, the Marine Electric had listed, rolled violently to starboard, and capsized, hurling most of its 34 crew into the 37-degree water.

Chief mate Cusick surfaced with a gasp, managed to get his bearings, and spotted a partially-submerged lifeboat nearby. After swimming through towering waves for 30 minutes, he pulled himself into the swamped boat and started thrashing his legs to stay warm. "All the time I kept looking out and yelling out, 'lifeboat here,' just continually yelling out to keep myself going," the chief mate said. "Then I waited and prayed for daylight to come."

The Coast Guard had long since dispatched an HH-3F Pelican helicopter crew from Air Station Elizabeth City, North Carolina, and directed the crews of several cutters to the Marine Electric's position, but the tumultuous weather conditions slowed the rescuers' progress.

Naval Air Station Oceana had to recall available personnel before launching a helicopter crew, including rescue swimmer Petty Officer 2nd Class James McCann.

At 05:20, the Coast Guard helicopter crew was the first to arrive on scene. They had expected to find the Marine Electric's sailors tucked into lifeboats and rafts, but instead, they found a blinking sea of strobe lights, empty lifeboats and bodies.

The Navy aircrew arrived and deployed McCann, who swam through the oil-slicked waves, searching for survivors. He managed to recover five unresponsive sailors before hypothermia incapacitated him.

The Coast Guard crew scoured the southern end of the search area and discovered one man, Paul Dewey, alone in a life raft. They dropped the rescue basket so he could clamber inside then hoisted him into the helicopter. About 30 yards away, they spotted Eugene Kelly, the ship's third mate, clinging to a life ring, and lowered the basket to retrieve him.

Cusick remained huddled in his lifeboat until the sailors on board the Berganger, a Norwegian merchant vessel whose crew was helping search the area, sighted him and notified the Coast Guard. The helicopter crew retrieved him in the rescue basket, then took off for Salisbury, Maryland, to bring the three survivors to Peninsula Regional Medical Center.

Meanwhile, more Coast Guard and Navy rescue crews converged on the scene to search for survivors.

Coast Guard Captain Mont Smith, the operations officer at Air Station Elizabeth City, had piloted a second Pelican helicopter through turbulent headwinds for over an hour in order to reach the site. He and his crew scanned the debris field below for signs of life. The people they saw were motionless, and it was difficult to determine whether they were simply too hypothermic to move or deceased. Smith spotted one man and hovered over him, squinting through the whipping snow, trying to decide what to do.

"We all felt helpless," Smith said. "There was no way to know if the man was dead or alive. We had to try something."

Petty Officer 2nd Class Greg Pesch, the avionics electrical technician aboard the helicopter, volunteered to go down on the hoist cable. After some deliberation, Smith agreed.

Pesch's descent in the rescue basket was a harrowing one. "The whole world seemed to be churning," Smith said. "I struggled to maintain a smooth hoist, but I know it was erratic."

Once in the water, Pesch grappled with the basket, trying to hold it steady as he guided the unresponsive man inside. It took several attempts, and then he scrambled into the basket himself and ascended back to the helicopter alongside the victim.

The aircrew spotted another potential survivor, and although Pesch attempted to descend again, the hoist cable spooled back on itself on the drum. The crew was forced to abort their mission and departed for nearby Salisbury Airport, where the man they had pulled from the water was pronounced dead on arrival by paramedics.

Dewey, Kelly and Cusick were the only men pulled from the ocean alive that morning. Their 31 shipmates had either succumbed to hypothermia or drowned.

All told, Coast Guard, Navy, and merchant vessel crews recovered 24 bodies from the scene of the capsizing. Seven were never found. It is likely the ship's engineers were trapped belowdecks when the vessel capsized.

"Throughout Coast Guard history, the missions of the service have been written in blood," said Dr. William Thiesen, historian, Coast Guard Atlantic Area. "Such was the case with the loss of the Marine Electric."

While the incident itself served as the catalyst for the major changes to the Coast Guard and maritime community at large, the rigorous efforts of Coast Guard Captain Domenic Calicchio brought the necessity for such changes into sharper focus.

Calicchio was one of the three marine safety officers charged with investigating the capsizing and sinking of the Marine Electric. The board of inquiry launched their investigation on July 25, 1984, and examined every aspect of the WWII-era cargo ship, its upkeep, the events leading up to its demise, and the Coast Guard's rescue efforts on that morning.

The investigation revealed that although the Marine Electric had been recently inspected several times by both the American Bureau of Shipping and the Coast Guard, marine inspectors had failed to note several discrepancies or recommend needed repairs. Investigators concluded that the casualty had most likely been caused by inadequate cargo hatches and deck plating, which allowed the crashing waves to flood the vessel's forward spaces.

Calicchio felt the Coast Guard needed to revamp its marine safety procedures and demand more of maritime companies, but more importantly, that the Coast Guard needed to demand more of itself.

His push for reform resulted in several additions to the Coast Guard's marine safety protocol, including guidance on hatch cover inspections, and new requirements for enclosed lifeboats and their launching systems, for ships' owners to provide crews with cold water survival suits and for flooding alarms to be installed in unmanned spaces on vessels.

The Coast Guard also tightened its inspections of 20-year or older ships, which led to the near-immediate scrapping of 70 similar WWII-era vessels.

"Calicchio embodied the service's core values of honor, respect, and devotion to duty," said Thiesen. "He championed marine safety and pursued the truth even at the risk of his career of a Coast Guard officer."

The Marine Electric shipwreck served as the genesis of another crucial development: the Coast Guard rescue swimmer program, which was established in 1984. The program's physical fitness standards, training and organizational structure were developed over a five-year implementation period, and in March of 1985, Air Station Elizabeth City became the first unit to receive rescue swimmers.

The first life was saved two months later.

Story and artwork by U.S. Coast Guard Petty Officer 2nd Class Corinne Zilnicki.

 

Salvage Team Departs FSO Safer After Completing Oil Transfer Project

FSO Safer
FSO Safer sits high in the water after the offload was completed (David Gressly/Twitter)

PUBLISHED AUG 29, 2023 11:22 AM BY THE MARITIME EXECUTIVE

 

The salvage team in the UN-led effort to remove the oil from the dilapidated FSO Safer departed the site on Monday, August 29, marking the completion of the project. UN officials thanked the team from Boskalis’ SMIT Salvage for completing the complex task which adverted a potential environmental disaster.

After completing the transfer of approximately 1.1 million barrels of oil that had been stored aboard the Safer since 2015, the team undertook a final series of tasks. The transfer was declared over on August 11, two and a half weeks after it began on July 25. The salvage team had prepared the machinery aboard the Safer for the transfer and stabilized the storage tanks which had not been properly vented in years. Equipment was standing by in case of a spill but they were able to complete the transfer without a serious incident.

During the last two weeks, the tanks aboard the Safer were scrapped and cleaned to remove as much residue as possible. The material was also transferred to the replacement tanker Nautica which had been acquired from Euronav and was renamed Yemen by the local government after the UN transferred the ship to Yemen. 

 

Replacement tanker was repositioned in one of the final tasks in the salvage operation (Boskalis/SMIT)

 

The tanker was repositioned on Sunday evening, August 27, to remain a safe distance from the FSO Safer. The older tanker, which was built in 1976 and had been functioning as a storage and transfer point approximately four miles off the coast of Yemen since 1988, has been prepared for recycling. The UN is responsible for arranging for the recycling of the vessel while the replacement tanker will take its place holding the oil which is claimed by the Houthi faction which controls that area of Yemen.

The Boskalis vessel Ndeavor, which had been alongside the FSO Safer since the end of May accommodating the SMIT team, departed Yemen on August 28. It is sailing to Djibouti where the salvage team will disembark and the vessel will then continue on its trip back to Rotterdam.

“The completion of the work marks the end of a pivotal chapter in the UN-led operation to address the threat of a major oil spill that have been caused by a leak in or destruction of the Safer tanker,” said UN spokesperson Stéphane Dujarric during his daily briefing on Monday. “The United Nations and the broad group of partners that support the Safer project have so far succeeded in preventing the worst-case scenario of a massive oil spill in the Red Sea which with obvious potential catastrophic environmental, humanitarian and economic repercussions.”

UN officials highlighted that they still need to raise an additional $22 million beyond the $120 million already committed to the project. They are awaiting the delivery of a new mooring buoy that will be installed for the Yemen. They also need to arrange for the towing and scrapping of the FSO Safer. Experts working with the UN previously determined that the Safer was beyond repair and in imminent danger of a structural failure. The vessel had only received minimal maintenance since operations were suspended eight years ago during the civil war.

The execution of the project lasted nearly 13 weeks. Officials highlighted that the project required years of planning with many world leaders acknowledging the UN was the only organization that could have undertaken the task, dealing with the political sensitivities of the Yemen civil war. 

 

FSO Safer on May 31 fully loaded when the salvage team arrived (Boskalis)

 

FSO Safer offloaded and prepared for recycling on August 28 (Boskalis)

 

Maersk’s First Methanol Boxship Arrives in Europe

bunkering in rotterdam
Maersk's new feeder ship completed the first green methanol bunkering in Rotterdam (OCI Global)

PUBLISHED AUG 29, 2023 4:49 PM BY THE MARITIME EXECUTIVE

 

The first methanol-fueled containership, Maersk’s new feeder ship, arrived in Europe making more firsts on its record-setting maiden voyage. Completing final preparations for its upcoming naming ceremony and festivities centered on the decarbonization of the shipping industry, the vessel is set to usher in a new era for container shipping and the maritime industry.

A.P. Moller – Maersk ordered the world’s first methanol dual-fuel containership in 2021 and took delivery of the vessel from its builders in South Korea early in July. Since that first order, Maersk has entered into contracts for 24 additional dual-fuel vessels due to start entering service next year and continuing till 2026. The container shipping segment as a whole has rapidly moved to the adoption of methanol as a next-generation fuel with DNV calculating that there are now 144 methanol-fueled containerships on order, representing 80 percent of the total orders for methanol-fueled ships due for entry into service in the next five years.

Arriving in Rotterdam on August 28, the new Maersk ship is on the last leg of a more than 13,000 nautical mile maiden voyage. The ship will go on to Copenhagen, where Ursula von der Leyen, the president of the European Commission, will have the honor of officially naming the ship on September 14. Maersk is also hosting a week of festivities between September 18 and 21 marking the ship’s entry into service.

Maersk has not yet confirmed the name of the vessel, but her AIS signal shows Laura Maersk. Designed to operate in the Baltic, the vessel is 564 feet long. It has a capacity for 2,100 TEU including reefer boxes. Maersk has said the vessel will provide a critical real operation experience for its crew as they learn to handle the new engines and using green methanol as a fuel. Similarly, OCI Global which supplied fuel for the trip said the green methanol bunkering provided an opportunity to develop and share bunkering guidelines among global ports as the industry prepares for the fuel transition.

 

Bunkering the vessel required nearly six hours during the port call in Egypt (SCZONE)

 

As part of the port call in Rotterdam, the ship completed the port’s first green methanol bunkering, the last on its maiden voyage. The first methanol bunkering took place in the Port of Ulsan, South Korea, and then again in Singapore. The containership arrived in East Port Said, Egypt on August 15 where they undertook another methanol bunkering. SCZone reported it took nearly six hours for the ship to be loaded with 500 tons of green methanol which was supplied from the barge Lara S. Fuel supplier OCI Global made arrangements to supply green methanol to the vessel during each leg of its maiden voyage to demonstrate the potential of reducing carbon emissions by adopting the new technology and fuel.

OCI Global is preparing to launch its green methanol bunkering operation in Rotterdam starting next year. The company recently reached an agreement with Unibarge that will see them develop the world’s first dual-fuel bunker barge to be deployed in Rotterdam.

Maersk has emblazoned the phrase “All the Way to Zero,” on the hull of the first methanol dual-fuel ship to highlight its commitment to decarbonization. The company has stated that it aims to transport a minimum of 25 percent of ocean cargo using green fuels by 2030, compared to a 2020 baseline. Maersk’s target is net zero greenhouse gas emissions by 2040. 

 

Digital Horizon: Proving the Value of Unmanned Naval Surface Vehicles

Capt. Michael Brasseur, then-commander of Task Force 59, briefs Under Secretary of Defense for Policy Dr. Colin Kahl in Bahrain, Nov. 2022 (USN)
Capt. Michael Brasseur, then-commander of Task Force 59, briefs Under Secretary of Defense for Policy Dr. Colin Kahl in Bahrain, Nov. 2022 (USN)

PUBLISHED AUG 29, 2023 6:05 PM BY CIMSEC

 

[By Capt. George Galdorisi]

The international community has been tremendously proactive in undertaking operations, exercises, experiments, and demonstration to accelerate the development and fielding of unmanned surface vehicles, reflecting the real importance of these systems to world navies. Much of this work has occurred in and around the Arabian Gulf under the auspices of Commander U.S. Fifth Fleet and Task Force 59.

These ambitious exercises throughout the course of 2022 provided a learning opportunity for all participating navies. These culminated in the capstone unmanned event, Exercise Digital Horizon, a three-week event in the Middle East focused on employing artificial intelligence and 15 different unmanned systems: 12 unmanned surface vehicles (USVs) and three unmanned aerial vehicles (UAVs).

A key goal of Digital Horizon was to speed new technology integration across the 5th Fleet, and to seek cost-effective alternatives for Maritime Domain Awareness (MDA) missions. As Carrington Malin described the importance of Digital Horizon:

“Despite the cutting-edge hardware in the Arabian Gulf, Digital Horizon is far more than a trial of new unmanned systems. This exercise is about data integration and the integration of command and control capabilities, where many different advanced technologies are being deployed together and experimented with for the first time.

The advanced technologies now available and the opportunities that they bring to enhance maritime security are many-fold, but these also drive an exponential increase in complexity for the military. Using the Arabian Gulf as the laboratory, Task Force 59 and its partners are pioneering ways to manage that complexity, whilst delivering next-level intelligence, incident prevention and response capabilities.”1

Digital Horizon brought together emerging unmanned technologies and combined them with data analytics and artificial intelligence in order to enhance regional maritime security and strengthen deterrence by applying leading-edge technology and experimentation.2 Vice Admiral Brad Cooper, commander of U.S. Naval Forces Central Command, U.S. 5th Fleet and Combined Maritime Forces introduced the exercise and highlighted its potential: “I am excited about the direction we are headed. By harnessing these new unmanned technologies and combining them with artificial intelligence, we will enhance regional maritime security and strengthen deterrence. This benefits everybody.”3

Click to expand. Graphic illustration depicting the unmanned systems that participated in Digital Horizon 2022. (U.S. Army graphic by Sgt. Brandon Murphy)

Captain Michael Brasseur, then-commodore of Task Force 59, emphasized the use of unmanned maritime vehicles to conduct intelligence, surveillance and reconnaissance missions, including identifying objects in the water and spotting suspicious behavior.4 He noted: “We pushed beyond technological boundaries and discovered new capabilities for maritime domain awareness to enhance our ability to see above, on and below the water.”5

During Digital Horizon, Task Force 59 leveraged artificial intelligence to create an interface on one screen, also called a “single pane of glass,” displaying the relevant data from multiple unmanned systems for watchstanders in Task Force 59’s Robotics Operations Center (ROC). Reviewing what was accomplished during this event, Captain Brasseur marveled at the pace of innovation: “We are challenging our industry partners in one of the most difficult operational environments, and they are responding with enhanced capability, fast.”6

One of the features of Digital Horizon, and in line with the first word of the exercise, “Digital,” was the ability of one operator to command and control five unique drones, a capability long-sought by U.S. Navy officials.7 The Navy is acutely aware of the high cost of manpower and is dedicated to moving beyond the current “one UXS, multiple joysticks, multiple operators,” paradigm that has plagued UXS development for decades.

Digital Horizon was a unique exercise from the outset. Task Force 59 worked with the Department of Defense’s Defense Innovation Unit (DIU) in order to leverage that organization’s expertise as a technology accelerator. Additionally, given the U.S. Navy’s ambitious goals to rapidly test and subsequently acquire USVs to populate the Fleet, CTF-59 used a contractor-owned/contractor operated (COCO) model to bring a substantial number of unmanned systems to Digital Horizon, well beyond those already in the inventory. This approach sidestepped the often clunky DoD acquisition system while providing appropriate oversight during the exercise and gaining operational experience with new systems.

MANAMA, Bahrain (Nov. 19, 2022) Various unmanned systems sit on display in Manama, Bahrain, prior to exercise Digital Horizon 2022. (U.S. Army photo by Sgt. Brandon Murphy)

Another distinctive feature of Digital Horizon involved launching and recovering small UAVs from medium-size USVs. This lash-up leveraged the capabilities of both unmanned assets, enabling the long-endurance USVs to carry the shorter-endurance UAVs to the desired area of operations. This “operationalized” a CONOPS that emerged from the U.S. Navy laboratory community years ago.8

The results of Digital Horizon lived up to the initial hype. During a presentation at the 2023 Surface Navy Association Symposium, here is how Vice Admiral Cooper described what was accomplished during Digital Horizon:

“We are creating a distributed and integrated network of systems to establish a “digital ocean” in the Middle East, creating constant surveillance. This means every partner and every sensor, collecting new data, adding it to an intelligent synthesis of around-the-clock inputs, encompassing thousands of images, from seabed to space, from ships, unmanned systems, subsea sensors, satellites, buoys, and other persistent technologies.

No navy acting alone can protect against all the threats, the region is simply too big. We believe that the way to get after this is the two primary lines of effort: strengthen our partnerships and accelerate innovation…One of the results from the exercise was the ability to create a single operational picture so one operator can command and control multiple unmanned systems on one screen, a ‘Single Pane of Glass’ (SPOG)…Digital Horizon was a visible demonstration of the promise and the power of very rapid tech innovation.”9

The results of Digital Horizon could change the way the world’s navies conduct maritime safety and security. Having multiple unmanned systems conduct maritime surveillance, with the operations center then using big data, artificial intelligence and machine learning to amalgamate this sea of data into something that commanders can use to make real-time decisions, enables navies to “stretch” their crewed vessels and use them for more vital missions than merely conducting surveillance.

As one example of how Digital Horizon brought together COTS unmanned surface vehicles with COTS systems and sensors, the T-38 Devil Ray was equipped with multiple state-of-the-art COTS sensors to provide persistent surveillance. The T-38 provided AIS, full motion video from SeaFLIR-280HD and FLIR-M364C cameras, as well as the display of radar contacts on a chart via the onboard Furuno DRS4D-NXT Doppler radar. These were all streamed back to Task Force 59’s Robotics Operations Center via high bandwidth radios and SATCOM.

These exercises and initiatives are important if the Navy is to convince a skeptical Congress that its plans for unmanned systems are sound, and represent an important course change in the way the Navy intends to communicate with Congress, by “showing, not telling” what its unmanned systems can do.10 This approach is vital, for as long as Congress remains unconvinced regarding the efficacy of the unmanned systems the Navy wishes to procure; it is unlikely that funding will follow.11

Secretary of the Navy, Carlos Del Toro, explained this new “show, don’t tell,” philosophy built on an ongoing series of exercises, experiments and demonstrations, further indicating that he believes the Navy is “on the same page as Congress:”

“The Navy has a responsibility to be able to prove that the technology that Congress is going to invest in actually works and it meets what we need to address the threat. I think that’s the responsible thing to do…I don’t see it as a fight between Congress and the Department of Navy. I think we’re aligned in our thinking about what has to be done.”12

Indeed, in remarks at the Reagan National Defense Forum, Secretary Del Toro said the Navy intends to stand up additional unmanned task forces around the globe modeled after what Task Force 59 accomplished during Digital Horizon, noting:

“We’ve demonstrated with Task Force 59 how much more we can do with these unmanned vehicles—as long as they’re closely integrated together in a [command and control] node that, you know, connects to our manned surface vehicles. And there’s been a lot of experimentation; it’s going to continue aggressively. And we’re going to start translating that to other regions of the world as well. That will include the establishment of formal task forces that will fall under some of the Navy’s other numbered fleets.”13

Secretary of the Navy Del Toro continued this drumbeat during the U.S. Naval Institute/AFCEA “West” Symposium in February 2023. In a keynote address describing the Navy’s progress and intentions regarding integrating unmanned systems into the Fleet, he emphasized the progress that CTF-59 had made, especially in the area of successfully integrating unmanned systems and artificial intelligence during Digital Horizon.14

A Marine Advanced Robotics WAM-V unmanned surface vessel operates in the Arabian Gulf, Nov. 29, during Digital Horizon 2022. (U.S. Army photo by Sgt. Brandon Murphy)

Importantly, the U.S. Navy has now created the infrastructure to accelerate the testing and evaluation of unmanned surface vehicles. In 2019, the Navy stood up Surface Development Squadron One to provide stewardship for unmanned experimentation and manned-unmanned teaming.15 In 2022, seeking to put additional emphasis on unmanned maritime vehicles, the Navy established Unmanned Surface Vessel Division One (USVDIV-1), under the command of Commander Jeremiah Daley.16

This new division oversees medium and large unmanned surface vessels out of Port Hueneme Naval Base in Ventura County.17 Unmanned Surface Vessel Division One is engaged with the Fleet to move the unmanned surface vessels further west and exercise autonomy, payloads, and hull, mechanical and electrical (HM&E) systems to ensure that future programs of record (LUSV and MUSV) are successful from inception, and that they provide lethality and combat effectiveness for future naval and joint forces.

Digital Horizon presages a new paradigm in the way navies will think about uncrewed assets, no longer as “vehicles” but rather as “systems” that are nodes in a web of assets delivering far greater capability than the sum of the parts. World navies will conduct ambitious unmanned exercises, experiments and demonstrations throughout 2023 and beyond, and the lessons learned from Digital Horizon will no doubt inform those efforts.

Captain George Galdorisi (USN – retired) is a career naval aviator whose thirty years of active duty service included four command tours and five years as a carrier strike group chief of staff. He began his writing career in 1978 with an article in U.S. Naval Institute Proceedings. He is the author of 15 books, including four New York Times best-sellers. The views presented are those of the author, and do not reflect the views of the Department of the Navy or the Department of Defense.

This article appears courtesy of CIMSEC and may be found in its original form here.

References

1. Carrington Malin, “A Testbed for Naval Innovation,” Middle East AI News, December 1, 2022.

2. Aaron-Matthew Lariosa, “US Navy Highlights TF 59 Contributions to Fleet’s Unmanned Vision,” Naval News, January 23, 2023.

3. “U.S. Launches New Unmanned & AI Systems Integration Event,” U.S. Naval Forces Central Command Public Affairs, November 23, 2022, accessed at: https://www.cusnc.navy.mil/Media/News/Display/Article/3226901/us-launches-new-unmanned-ai-systems-integration-event/.

4. J.P. Lawrence, “Navy’s ‘Influx’ of Aquatic and Aerial Drones Tested in the Middle East,” Stars and Stripes, December 1, 2022.

5. “Digital Horizon Wraps Up: Task Force 59 Perspective, Second Line of Defense, December 22, 2022.

6. Geoff Ziezulewicz, “New in 2023: Here Comes the First-Ever Surface Drone Fleet,” Navy Times, January 3, 2023.

7. Justin Katz, “Accenture Demos Data Vis, C2 for Multiple USVs During Navy’s Digital Horizons Exercise,” Breaking Defense, December 16, 2022.

8. Vladimir Djapic et al, “Heterogeneous Autonomous Mobile Maritime Expeditionary Robots and Maritime Information Dominance,” Naval Engineers Journal, December 2014.

9. Audrey Decker, “5th Fleet Commander Details ‘Digital Ocean’ After TF-59 Reaches FOC,” Inside the Navy, January 16, 2023.

10. See, for example, George Galdorisi, “Catch a Wave: Testing Unmanned Surface Vehicles Is Becoming an International Endeavour,” Surface SITREP, Winter 2022.

11. “Navy Failing to Make ‘Critical Pivot’ In Unmanned Investment,” Inside the Navy, October 10, 2022.

12. Justin Katz, “Show, Don’t Tell: Navy Changes Strategy to Sell Unmanned Systems to Skeptical Congress,” Breaking Defense, March 10, 2022.

13. Jon Harper, “Navy to Establish Additional Unmanned Task Forces Inspired by Task Force 59,” Defense Scoop, December 4, 2022.

14. Remarks by the Honorable Carlos Del Toro, Secretary of the Navy, at the U.S. Naval Institute/AFCEA “West” Symposium, February 16, 2023.

15. Meagan Eckstein, “Navy Stands Up Surface Development Squadron for DDG-1000, Unmanned Experimentation,” USNI News, May 22, 2019.

16. “Navy to Stand Up New USV Command This Summer,” Inside the Navy, January 13, 2022.

17. Joshua Emerson Smith and Andrew Dyer, “Navy Ramps Up Efforts on Unmanned Vessels,” San Diego Union Tribune, May 16, 2022, and Diana Stancy Correll, “Navy Creates Unmanned Surface Vessel Division to Expedite Integration of Unmanned Systems,” Navy Times, May 16, 2022.

The opinions expressed herein are the author's and not necessarily those of The Maritime Executive.

 

As Japan Begins Releasing Water From Fukushima, Should We be Concerned?

Tank farm for contaminated water at the Fukushima nuclear power plant (Tepco)
Tank farm for contaminated water at the Fukushima nuclear power plant (Tepco)

PUBLISHED AUG 27, 2023 3:46 PM BY EDMOND SANGANYADO

 

Japan’s decision to release water from the Fukushima nuclear power plant has been greeted with horror by the local fishing industry as well as China and several Pacific Island states. China – which together with Hong Kong imports more than US$1.1 billion of seafood from Japan every year – has slapped a ban on all seafood imports from Japan, citing health concerns.

Tokyo has asked for the ban to be lifted immediately. The Japanese prime minister, Fumio Kishida, told reporters on Thursday: “We strongly encourage discussion among experts based on scientific grounds.” Japan has previously criticised China for spreading “scientifically unfounded claims”.

Japan remains steadfast in its assurance that the water is safe. The discharge process, which will take 30 years, was approved by the International Atomic Energy Agency – the intergovernmental organisation that develops safety standards for managing radioactive waste. And seawater samples taken following the water’s release showed radioactivity levels more than seven times lower than the drinking water limit set by the World Health Organization.

Since the world’s highest authority on radioactive waste backs Japan’s plan, should we also dismiss the concerns raised by Pacific nations and local fishermen as merely irrational fear of radioactive materials?

Contaminated water

In 2011, a magnitude 9.0 earthquake off the north-eastern coast of Japan’s main island, Honshu, triggered a tsunami that devastated many coastal areas of the country. Tsunami waves knocked out the Fukushima nuclear power plant’s backup electricity supply and caused meltdowns in three of its reactors. The event is regarded as one of the worst nuclear accidents in history.

Since the accident, water has been used to cool the damaged reactors. But, as the reactor core contains numerous radioactive elements, including ruthenium, uranium, plutonium, strontium, caesium and tritium, the cooling water has become contaminated.

The tainted water is stored in more than 1,000 steel tanks at the power plant. It has been treated to remove most of the radioactive contaminants – but traces of the radioactive isotope tritium remain.

Removing tritium from the water is challenging. Tritium is a radioactive form of hydrogen that forms water molecules with properties similar to regular water.

It does decay over time to form helium (which is less harmful). But tritium has a half-life of slightly over 12 years.

This is relatively quick in comparison to other radioactive contaminants. But it will still take around 100 years for the radioactivity of the tritium within the tanks at Fukushima to drop below 1%.

To safely store the water that will continue to be contaminated over that time (some 100 tonnes of water each day), the plant’s operators will need to construct an additional 2,700 storage tanks. This may be impractical – storage space at Fukushima is fast running out.

Should we be concerned?

Studies have, in the past, explored the health effects of tritium exposure. However, much of this research has focused on organisms such as zebrafish and marine mussels. Research from France, for example, found that tritium – in the form of titrated water – led to DNA damage, altered muscle tissue and changed movement patterns in zebrafish larvae.

Interestingly, the zebrafish were exposed to tritium concentrations similar to those estimated to be in the storage tanks at Fukushima. But the tritium at Fukushima will be significantly diluted before its release, reaching levels almost a million times lower than those that caused health issues in zebrafish larvae.

Marine organisms within the discharge zone will experience consistent exposure to this low concentration over the next 30 years. We cannot definitively rule out potential repercussions from this on marine life. And, importantly, the findings from these studies cannot be universally applied to all animals.

It’s worth noting, however, that organisms can eliminate half of the tritium in their bodies through biological processes in less than two weeks (known as the biological half-life).

But that’s not everything

In theory, it’s also possible that the potential health issues linked to tritium could worsen due to the presence of other chemical contaminants. In China, researchers discovered that exposing zebrafish larvae to both tritium and genistein – a naturally occurring compound produced by some plants that is commonly found in water – led to reduced survival and hatching rates.

The amount of tritium used in this study was over 3,000 times less than that used in the French study. But it still exceeded the levels being discharged into the Pacific Ocean from Fukushima by almost 250 times.

Yet it’s possible that other chemical contaminants present in the ocean near Japan or within the storage tanks could interact with tritium in a similar way, potentially offsetting the benefits of dilution.

Given that we lack precise knowledge of the exact chemical pollutants present in Fukushima’s water storage tanks and their potential combined effects with tritium, it could be unwise to casually brush aside the very real concerns raised by Pacific nations and fishermen.

Edmond Sanganyado is an Assistant Professor in Environmental Forensics at Northumbria University, Newcastle.

This article appears courtesy of The Conversation and may be found in its original form here

Australia's Antarctic Research Vessel Can't Reach its Own Fuel Pier
Nuyina in DP mode, rotating about her own axis without changing position
 (Australia Antarctic Science)

PUBLISHED AUG 27, 2023 11:20 PM BY THE MARITIME EXECUTIVE

The harbormaster at the port of Hobart, Tasmania has determined that the Antarctic research vessel Nuyina is too beamy, too prone to drift in a turn, and too affected by windage to safely pass under the Tasman Bridge. This leaves Nuyina without access to her local fueling pier, even though it is just two miles north of her home base.

Though the vessel is capable of walking a few meters at a time in DP mode, using her tunnel thrusters to control course and heading, the harbormaster has determined that the Nuyina is not able to safely make the outbound journey under the bridge because the ship would drift too much in a dynamic turn. There is a relatively sharp bend approaching the navigation span when outbound. After running the scenario in a simulator, the concern is that Nuyina might not be able to line up onto the span after making the turn.

“The risk is always a loss of control,” the harbormaster told Australian outlet ABC. “The vessel has a significant amount of drift and side slip. The vessel is perfectly suited for straight line work, perfectly suited for ice operations. It is a very powerful ship. But when you put that vessel into a dynamic turn, it slides.”

He noted that the Nuyina is about 30 feet wider than originally specified. The vessel also has the most sail area of any ship that has ever requested permission to pass, and wind was a concern.

Lacking viable barge or truck options to bring the bunkers to Nuyina, the crew will have to bring Nuyina all the way to Burnie for fuel - adding an extra 300 nautical miles each way onto science voyages to Antarctica.

There is a historical precedent behind the harbormaster's caution. In 1975, the bulker Lake Illawarra struck the Tasman Bridge and destroyed two pylons. A 400-foot section of the concrete bridge deck fell on the ship, sinking it and killing seven crewmembers. The wreck and the original bridge deck remain on the bottom of the channel as a warning.

Nuyina is a DP2-classed research vessel with a combined diesel-electric and direct-drive diesel (CODLAD) propulsion arrangement. This complex, redundant system has little resemblance to a merchant vessel's single two-stroke engine: Nuyina's powerplant couples two main engines and four auxiliary generators to two shafts, each with variable-pitch propellers. Six tunnel thrusters (three forward and three aft) provide for stationkeeping in conditions up to sea state 4.

The bridge holdup is the latest in a string of setbacks for Nuyina. The futuristic, $500 million vessel suffered an electrical fault on her delivery voyage to Hobart in October 2021. Two months later, her maiden scientific voyage was delayed after issues were detected in the alarm and monitoring system software. In April 2022, she headed for Singapore for planned maintenance and repairs to address issues with propulsion system couplings. A shortage of spare parts meant she missed the bulk of the 2022-2023 Antarctic season.



 

Oil and gas companies have outsized economic impact on Alaska, says industry study


A network of pipelines, seen on Aug. 23, 2018, snakes through a portion of the Greater Prudhoe Bay Unit on Alaska’s North Slope. The oil and gas industry has more impact on Alaska’s economy than any other industry, a new study finds. (Photo by Yereth Rosen/Alaska Beacon)

The oil industry packs a bigger economic punch than any other industry in Alaska, according to study findings presented on Wednesday at an industry conference in Anchorage.

The study, by the McKinley Research Group and commissioned by the Alaska Oil and Gas Association, found that oil and gas employment, spending, tax revenues and spinoff effects supported 16% of the state’s jobs in 2022.

For each direct oil and gas company job, industry activity supported 15 other jobs, and each dollar in oil and gas industry wages supported $4 in other Alaska wages, according to the report, which was presented at the Alaska Oil and Gas Association’s annual conference.

“This is a significant multiplier. This is the highest multiplier in the state,” Katie Berry, McKinley’s director of economics and research, said in her presentation at the conference. “And that comes about because the oil and gas industry has such a high level of spending and is so connected to their vendors and is so connected to the state of Alaska.”

The multiplier to which Berry referred is an economic term that accounts for direct employment and spending, indirect spending and induced spending, which includes industry workers’ purchases in the larger economy.

“Every time somebody that works at an oil and gas company goes to the dentist or pays for child care or stops by Costco, they’re supporting jobs and wages here in Alaska,” Berry said.

The 15 primary oil and gas companies operating in the state employed 4,105 workers, 83% of whom were Alaska residents, and paid $1.1 billion in wages in 2022, Berry said in her presentation. The companies that year paid $4.6 billion for goods and services in Alaska and contributed $4.5 billion in total tax and royalty payments, $4.1 billion of which went to the state government, she said.

That $4.1 billion amounted to 47% of state revenue in the 12 months that ended on June 30, 2022, she said.

Factoring in all multipliers, the industry supported 69,250 jobs and was the source of $5.9 billion in wages in 2022, Berry said.

The industry’s big economic impact will continue in coming years, Berry said in her presentation.

The oil and gas companies collectively plan to spend $14 billion on new fields and investments in existing fields through 2028, a notable sum, she said.

“We feel compelled to remind you that these companies are operating in a global environment in which they’re competing to bring capital to the projects in Alaska. So to have this level of investment in the state is very significant,” she said.

Direct construction and drilling employment from that investment is expected to total 1,600 jobs with $1 billion in wages, Berry said. Factoring in the multiplier effect, the investment is expected to support 2,500 to 2,900 workers annually during the construction phase, she said.

Direct employment during the production phase of those new projects is expected to total 300 jobs and $65 million in wages by 2028, according to the findings. With all multiplier factors considered, the cumulative total from the new development during the production phase is expected to be about 2,700 new jobs and $215 million in wages through 2028, according to the findings.

The study is based on state and company data, Bery said.

The new findings were largely similar to findings in a McKinley Research report released in early 2020 that was also commissioned by the Alaska Oil and Gas Association findings. At the time, the company went by a different name: the McDowell Group.

That 2020 study, which focused on impacts in 2018, found a somewhat higher level of direct oil and gas company employment: 4,906, of which 84% were Alaska residents. Including all multipliers, the oil and gas industry supported 77,600 jobs in Alaska in 2018, about a quarter of all wage and salary jobs in the state, according to that study.

The Alaska Department of Labor and Workforce Development’s annual employment forecast, issued in January, noted that North Slope oil employment hit a 16-year low in 2021 but is poised to increase this year because of investments in new projects.


Alaska Beacon is part of States Newsroom, a network of news bureaus supported by grants and a coalition of donors as a 501c(3) public charity. Alaska Beacon maintains editorial independence. Contact Editor Andrew Kitchenman for questions: info@alaskabeacon.com. Follow Alaska Beacon on Facebook and Twitter.

You can read the original here

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