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Xeneta: Explosion at Ningbo-Zhoushan port raises serious safety concerns in ocean container shipping

Explosion in Ningbo follows other major incidents in 2024, including collapse of Baltimore Bridge in March after it was struck by a container ship and an electrical fire onboard “Maersk Frankfurt” in July.

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Xeneta: Explosion at Ningbo-Zhoushan port raises serious safety concerns in ocean container shipping

A major explosion has occurred on a container ship while berthed at the Port of Ningbo-Zhoushan in China in another incident that raises serious safety concerns, said Xeneta, an ocean and air freight rate benchmarking and market analytics platform, on Friday (9 August).

The incident took place today, Friday, with video footage showing a massive explosion onboard the YM Mobility. There are no reports of casualties.

The explosion in Ningbo follows other major incidents in 2024, including the collapse of Baltimore Bridge in March after it was struck by a container ship and an electrical fire onboard the Maersk Frankfurt during its maiden voyage through the Arabian Sea last month which claimed the life of one crewmember.

Peter Sand, Xeneta Chief Analyst, said: “This type of incident should never happen and is another example of how one failure in ocean container shipping can have catastrophic consequences.

“Had this explosion happened at sea rather than at berth in port then the crew and ship would have been in even more perilous danger.

“An investigation will take place and the industry must learn from it. Container ships are used to transport hazardous and potentially explosive cargo, so it is of paramount importance that robust safety measures are in place.”

Ningbo-Zhoushan is the second most important container shipping port in China behind Shanghai, handling more than 100 000 TEU (20ft equivalent shipping container) each day.

Xeneta data showed average spot rates on the major fronthaul trade from Ningbo to the US West Coast increased by 146% between 30 April and 1 July amid the impact of the ongoing conflict in the Red Sea region on container shipping.

Average spot rates on the trade to the US West Coast have since softened, falling by 18% to stand at USD 6510 per FEU (40ft shipping container) on 9 August.

Sand does not believe the explosion on the YM Mobility will have a significant impact on the market.

He said: “Ningbo-Zhoushan is a hugely important and well-connected port in the Far East, second only to Shanghai in China and on par with Singapore.”

“It is a critical hub for container shipping and this incident is deeply concerning from a safety perspective, but it is unlikely it will have a significant impact on the market.”

Related: NTSB report dismisses bunker fuel as cause of Singapore-registered “Dali” crashing into Baltimore bridge
Related: Baltimore bridge crash: Safety investigation to include contaminated bunker fuel as possible cause
Related: Baltimore bridge collapse: FuelTrust highlights bunkering activities of Singapore-registered “Dali”
Related: MPA: Singapore-registered ship in Baltimore bridge crash passed previous foreign port state inspections

 

Photo credit: Screengrab from CCTV
Published: 12 August, 2024 

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Bunker Fuel Quality

VPS on lifeboat fuel quality: A safety of life at sea critical risk

Neil Chapman and Steve Bee said regular fuel testing, correct fuel selection, and proactive fuel management are essential to ensure lifeboats are ready when they’re needed most.

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Neil Chapman, Managing Director of Americas, and Steve Bee, Group Marketing and Strategic Projects Director of marine fuels testing company VPS, on Monday (13 July) said regular fuel testing, correct fuel selection, and proactive fuel management are essential to ensure lifeboats are ready when they’re needed most: 

Performance when its most critical

In an emergency, a lifeboat engine is not simply a mechanical asset, it is a life-saving system. If the fuel in that system is of poor quality due to degradation, contamination, or simply unsuitable for the operating environment, then the result may be failure to launch, manoeuvre, or sustain operation, when human lives depend on it. Fuel failures in lifeboats onboard Cruise Liners are high-consequence life-safety risk as the engine may be the only power source available during an emergency. It is a key SOLAS (Safety of Life at Sea) requirement that lifeboats should hold sufficient fuel to enable them to run at 6 knots for no less than 25 hours.

The primary consequence of a lifeboat failure is not the commercial  loss, but the potential failure of a safety-critical system during an abandon-ship scenario. Financial, legal and reputational consequences will undoubtedly follow but the immediate risk is to life.

Now with the inclusion of Biofuels and FAME in the marine fuel mix and assuming the same fuel used in the main engines may be used in the emergency systems, how do you verify the operability of the lifeboats in times of crisis?

Fuel grade DMX within the ISO8217 specification is specifically intended for use within emergency equipment. However, since this is not a mandatory requirement, marine gas oil (MGO grade DMA) used for other purposes on board, is often used to fill up lifeboat fuel tanks. This could lead to hazardous outcomes as the DMA grade fuel might not be suitable for its intended use. DMA fuel whilst acceptable for general machinery use, will unlikely provide the same assurance of low-temperature operability, ignition quality, storage reliability, or starting reliability required for emergency craft. The quality of the fuel in the lifeboat tanks may also deteriorate during storage. Hence it is essential to test and ensure that the quality of the fuel being taken into the tanks is ’fit for purpose’ and monitored at regular intervals. DMX fuel should be chosen due to its ability to operate at a lower temperature, superior ignition quality and  improved starting capabilities. However, this fuel only accounts for approximately 1-2% of the global supply, compared to the regular DMA grade.

Failure Modes in Emergency Operations

SOLAS compliance should not be viewed only in terms of carrying the required quality of fuel. The fuel must also remain fit-for-purpose regarding stability, cleanliness and be capable of supporting reliable engine operation throughout the vessel’s operation. Lifeboat failures are rarely a singular dramatic event, rather a chain of events. These are typically caused by degraded fuel, filter blockages or storage issues.  Incorrect handling and storage can result in the ingress of water, which with modern fuels, can promote the growth of filter blocking bacteria rendering the engine inoperable.  So rather than the issue being no fuel, it is more likely to be an issue of fuel that is of poor quality. As lifeboat engines may sit idle for long periods it potentially allows the fuel to degrade, if the correct due care and attention is not paid to this key piece of emergency equipment.

The handling and storage of fuel, coupled with the observance of quality operating procedures can lessen the risk of these failures, but are unlikely to eliminate them completely. However, the failure to follow established procedures can result in issues that are likely to cause catastrophic financial and reputational damage to the cruise line operator.

The most common failure modes in emergency lifeboats can be categorised as follows:

  • Fuel Starvation
  • Contamination
  • Degraded Fuel
  • Blocked Filter/Injectors

Contamination in the engine due to the presence of water, as previously mentioned, can be catastrophic as this can induce corrosion and oxidation, along with promoting microbial growth which results in filter blocking and fuel starvation to the engine.

If an engine fails to start, or runs poorly under load, due to fuel related issues this would likely cause a secondary emergency, compounding the reason the lifeboat was required in the first instance.

The danger with degraded fuel is that the risk is often hidden. A lifeboat may appear available, inspected and compliant, whilst he fuel inside its tank is steadily losing the properties required for reliable emergency operation.

IMO guidelines indicate that inspectors and regulators are increasingly looking at emergency systems for fuel compliance, highlighting its importance in the operation of a vessel.

Seasonal & Regional Fuel Requirements

Often overlooked are the cold flow properties of diesel and biofuels.  While hydrocarbon-based diesel has very good (low temperature) cold flow properties, this is not the case for biofuels, so lifeboats fuelled in the Caribbean for the summer season may be completely inoperable if the vessels are transferred to the Northeast or higher location, for a winter period.

Root Cause Failure Mechanisms

The failure to follow the appropriate standards which result in engine failure can be categorised as follows:

image 45

The Effect of Biofuels on Marine Fuel Quality

In a study recently completed by a major shipping line, blends of biofuels were tested for a wide range of parameters.  The findings were:

Biological growth appeared within the first month, increasing rapidly with exposure to light.

Within 3 months oxidative corrosion started to occur requiring regular monitoring.

46 CFR § 169.837 states:

“(2) The fuel tanks of motor propelled lifeboats have been emptied, and fuel changed once every twelve months.”

Yet the evidence shows fuel stability effectively starts to deteriorate within the first month and can be unusable by month 3.

Prevention Strategy

Fuel testing should be viewed as part of the vessel’s safety assurance programme. It provides evidence that the lifeboat fuel remains fit-for-purpose, not only on the day it was supplied, but throughout storage and across changing operational conditions. A strong housekeeping policy requires a multi-pronged approach to ensure operability in times of crisis; such steps include:

  • Housekeeping – ensuring the fuel system remains closed when not in use to eliminate the ingress of water.
  • Operation – frequently run the engines so that fuel and lubricants are cycled through the units.
  • Testing program – likely to be cheaper and more efficient than changing out the fuel. A well-developed fuel testing program can eliminate the need to change the fuel.
  • Documentation – by recording all the actions taken to protect the emergency systems historic data can be tracked.

Advanced Testing Programs

Due to the importance of these emergency assets several different tests should be considered to ensure the suitability of the fuel.  Testing should include:

  • Cold-Flow properties using Pour Point, Cold Filter plugging Point, Cloud Point
  • Water content for moisture
  • BYF for Microbial testing
  • Acid Number for corrosion tendencies
  • FAME for biofuels content
  • Sulphur for MARPOL Annex VI compliance
  • Visual Appearance
  • Viscosity for flow properties
  • Density
  • Flash Point for SOLAS compliance
  • Cetane Index

Conclusion

It is possible to avoid engine failures, but this can only be achieved with a well-documented and well-followed operating procedure.  Regular fuel sampling and testing along with general good housekeeping techniques will ensure these units are ready go when they are most needed. Once they are seen as an active safety-critical asset rather than a dormant emergency component the value in this process will be realized.

Lifeboat fuel quality is not a housekeeping detail, it is a Safety of Life at Sea issue. Emergency craft must be capable of starting manoeuvring and operating for the required duration whenever called upon. Sub-standard, degraded, contaminated, or unsuitable fuel can compromise that capability and turn an emergency response into a secondary emergency. Regular testing, correct fuel choice, controlled storage and documented fuel management provide the evidence and assurance that lifeboats remain ready when lives depend on them.

 

Photo credit: VPS
Published: 14 July, 2026

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Safety

IMO Secretary-General condemns new attacks on vessels in Strait of Hormuz

Arsenio Dominguez urged flag states, shipowners, operators and authorities to avoid exposing seafarers to unnecessary danger by transiting the Strait while the safety and security of crews cannot be assured.

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SMW 2024: Maritime industry on track to adopt mid-term decarbonisation measures, says IMO chief

International Maritime Organization (IMO) Secretary-General Arsenio Dominguez on Wednesday (8 July) issued a statement, calling for maximum restraint and de-escalation in the Strait of Hormuz following new attacks on ships transiting the area. 

According to reports, at least three vessels transiting the strait have been attacked in recent days.  

“I regret that once again I am compelled to speak out following attacks on commercial ships and innocent seafarers, due to geopolitical circumstances beyond their control,” he said. 

“I condemn the attacks over the past two days against several ships transiting the Strait of Hormuz.

“These reckless attacks have again placed innocent seafarers in grave danger. No seafarer should have to risk their life simply for doing their job.”

He urged flag states, shipowners, operators and all relevant authorities to avoid exposing seafarers to unnecessary danger by transiting the Strait while the safety and security of crews cannot be assured. 

“The situation in the region remains volatile. These attacks further intensify the fear, uncertainty and psychological strain already being endured by the nearly 6,000 seafarers who remain stranded on board vessels unable to depart the Persian Gulf safely,” Dominguez added. 

“I call on all States concerned to exercise maximum restraint, de-escalate the situation without delay, and facilitate the safe departure of the ships still trapped in the Gulf since the crisis began.

“The safety of seafarers must remain our foremost priority.”

According to IMO’s website, a total of 136 vessels and 2,900 seafarers have been evacuated through the Strait of Hormuz before IMO paused its evacuation plan on 25 June. 

 

Photo credit: International Maritime Organization
Published: 9 July, 2026

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Hydrogen

DNV launches new recommended practice for use of hydrogen as bunker fuel

New RP outlines the competence requirements for crew, inspectors, and technical personnel to support the proper handling of hydrogen systems on board ships.

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DNV study for EMSA backs design-based safety approach for hydrogen‑fuelled ships

Classification society DNV on Wednesday (20 May) said it has released a new recommended practice (RP) for hydrogen as ship fuel, outlining the competence requirements for crew, inspectors, and technical personnel to support the proper handling of hydrogen systems on board ships.

Hydrogen is gaining traction as a marine fuel, with seven vessels currently in operation and another 30 in the orderbook. However, several safety barriers like hydrogen leakage, low ignition energy, and management of high‑pressure or cryogenic storage, still limit its uptake. But with proper training and a strong safety culture, and with ship designs engineered to limit risk as much as possible, its use can be managed more safely and efficiently.

The DNV-RP-0703 “Competence related to use of hydrogen as fuel” addresses hydrogen’s specific risk profile by defining structured competence requirements. The RP can also be used as a basis for operational procedures and emergency preparedness planning. It builds on DNV’s existing competence framework for low‑GHG fuel, following RPs and Standards for LNG, ammonia, and methanol.

Cristina Saenz de Santa Maria, CEO Maritime at DNV, said: “Hydrogen represents one of several possible pathways in maritime decarbonization. The development of efficient safety regulations and guidelines is fundamental for hydrogen to evolve from large-scale demonstration to commercial use. 

“To get there it is essential that the industry develops competence levels among seafarers in parallel with technical solutions so that they can operate hydrogen‑fuelled vessels with confidence.”

DNV’s RP is designed to supplement existing regulatory frameworks such as the STCW Convention and ISM Code by providing hydrogen‑specific competence guidance for organizations considering using hydrogen as a marine fuel. 

It is also intended for use by shipowners and operators for onboard familiarization and competence management, by maritime academies and training institutions to develop curricula and courses, and by third parties as a reference for certification or verification of learning programs and competence assessments.

Kirsten Birgitte Strømsnes, Business Development Leader in DNV, said: “The use of hydrogen as a ship fuel requires that crew and shore-based personnel are trained on its specific hazards, and that organizations reflect these risks in their management systems and competence frameworks. It also means ensuring safer ship designs and implementing the necessary technical barriers.

“We have developed this recommended practice using DNV’s established methodology for competence standards, with input from industry partners and with reference to international regulations. As industry experience with hydrogen-fuelled vessels grows, this RP is intended to evolve in line with emerging best practices into a competence standard.” 

DNV has collaborated with industry partners Samskip, eCap Marine, Naval Dynamics, Chart Industries, LH2 Shipping, Torghatten, Shell, Everllence, and GreenH in developing the recommended practice. 

Note: More information on DNV’s new RP can be found here

 

Photo credit: DNV
Published: 21 May, 2026

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