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IACS’ Council, meeting last week in Rome for its 89^th session (C89) under new Council Chair, Roberto Cazzulo, progressed a wide range of issues, foremost of which was the need for human element considerations to be taken into account at the earliest stage across all IACS’ work streams.  The requirement for increased awareness and focus on how a ship’s crew can safely operate increasingly sophisticated vessels (the human element (HE)) has led IACS to develop internal guidelines to address this need in a structured and consistent manner.

C89 was informed that more than 150 IACS technical experts had received training related to the fundamentals of Human Element Impact Assessment in the maritime sector.  This course was developed by IACS Members’ HE experts who captured assumptions about modern ship and operating company operating context, including current trends of system complexity plus remote surveys and automation. C89 agreed to develop this work into a High-Level Position Paper to promote an understanding of these matters by Industry/regulators and ensure that safety concerns related to the HE are fully considered in the development of new technology.  Recognising the importance of collaborating with external parties on this issue, C89 also welcomed initial discussions with the Human Element Industry Group (HEIG) regarding the formation of an appropriate platform for collaboration with the industry.

The rapid deployment of new technologies into the maritime sector led IACS to establish its Safe Digital Transformation Panel last December.  Council was appraised of the work that has been initiated in the last six months across areas such as complex systems, data quality and safety management for MASS and conceptualising the scope of IACS’ engagement with regard to digitalised data.  The establishment of project teams to develop recommendations on ship data quality and cyber security controls for ships-in-service was also welcomed.

C89 recognised the progress being made on safe decarbonisation with five Unified Requirements underdevelopment on; approval of lithium batteries, materials for hydrogen, ammonia treatment systems, carbon capture, and fire-fighting systems for methanol.  IACS’ Council was also advised of a new workstream on nuclear power and the establishment of a Joint Industry Working Group on Safe Decarbonisation together with an update on work with the Singapore MPA on gas dispersion simulation.

The evolution of IACS’ Common Structural Rules was discussed and C89 noted the extensive consultation with Industry taking place throughout 2024 (with further meetings planned for early October and at Tripartite), which is enabling IACS to address any concerns and deliver proposals that meet not only IACS’ aims as a technical organisation, but the industry’s common goals of safer and cleaner shipping.

C89 also noted that it is 18 months since the implementation of IACS’ Unified Requirement on Remote Survey (UR Z29).  Council reaffirmed IACS’ commitment that remote surveys must be of at least the same quality as physical surveys and so initiated a review of UR Z29 that can build on feedback received from stakeholders and maintain its alignment with developments at IMO.  C89 also recommended to extend the two quality management focus areas on the consistent implementation of UR Z29 and on the training of surveyors until end-2025.

C89 marked the end of Mr. LI Zhiyuan’s tenure as Chair of IACS’ General Policy Group, and Dr. Ajay Asok Kumar was welcomed as the new Chair.

Speaking after C88, the IACS Council Chair, Roberto Cazzulo stated “C89 held intensive discussions across a wide range of issues that will determine the shape of the industry for years to come.  Ensuring the centrality of the role of the human element in those discussions substantially reinforces our commitment to delivering a safe digital and decarbonisation transformation”

Contact: Robert Ashdown, IACS Secretary General
E: robertashdown@iacs.org.uk T: +44 (0) 20 7976 0660

International Association of Classification Societies
Permanent Secretariat 4 Matthew Parker Street, London, England SW1H 9NP

E: permsec@iacs.org.uk

T: +44 (0)20 7976 0660

Notes to Editors:

1. Dedicated to safe ships and clean seas, the International Association of Classification Societies (IACS) makes a unique contribution to maritime safety and regulation through technical support, compliance verification and research and development. More than 90% of the world’s cargo carrying tonnage is covered by the classification design, construction and through-life compliance Rules and standards set by the twelve Member Societies of IACS.

2. Roberto P. Cazzulo graduated in civil engineering from the University of Genoa (Italy) but he has spent almost his whole professional life in maritime regulatory affairs. He joined RINA in 1981 within the R&D Marine Division. Currently, he is Secretary General of Registro Italiano Navale, the RINA main shareholder. Since the ‘80s he has represented IACS and the Italian Administration at the IMO, for instance chairing the working group on the Human Element and Formal Safety Assessment of the Maritime Safety Committee, and contributing to the development of the International Safety Management Code and Goal Based Standards for ship construction. He chaired IACS in 2013-2014 when the Common Structural Rules for tankers and bulk carriers were adopted and submitted to the IMO for GBS verification. He has been elected chairman of the IACS Council for 2024-2025. A high resolution (3mb) portrait photo of Roberto Cazzulo is available at: https://iacs.s3.af-south-1.amazonaws.com/wp-content/uploads/2023/07/25155040/cazzulo_11-scaled.jpg
3. Ajay Asok Kumar is currently a member of General Policy Group (GPG) Chair Team in IACS Secretariat, London. Prior to this, he has held various positions at ClassNK in Japan as Manager of External Affairs Department, Senior Ship Surveyor, Management Systems Auditor and Plan Approval Engineer. He has also worked as a Senior Engineer at Mazagon Docks Ltd, India. He holds a Bachelor’s Degree in Naval Architecture & Ship Building from Cochin University of Science & Technology, India and Master’s & Doctoral Degrees in Environmental and Ocean Engineering from University of Tokyo, Japan. A photo of Dr. Ajay Asok Kumar can be found at https://iacs.s3.af-south-1.amazonaws.com/wp-content/uploads/2023/12/18111513/Ajay.jpg
4. More information about IACS can be found by visiting iacs.org.uk and in our Annual Review available online at here

The International Association of Classification Societies (IACS) has published a new Unified Requirement UR M85, providing the maritime industry with its first comprehensive technical guidelines for type approval testing of synthetic materials used in aftmost propeller shaft bearings. Recognized as a critical component of a vessel’s propulsion system, these bearings are essential for long-term operational safety and efficiency.

The new UR M85 establishes a robust framework for type approval testing, setting new benchmarks for safety, reliability, and performance, to address a vital gap in maritime standards. It outlines essential criteria to be met during type approval testing, outlining key areas to ensure material performance and durability in real-world conditions. Key aspects of the UR include:

• Type Approval Testing Requirements: A structured and detailed testing program is mandatory, incorporating a comprehensive description of each product, precise selection of test samples, and specific test conditions. This framework ensures alignment with industry standards, providing consistency and clarity for manufacturers.
• Material Properties Compliance: Non-elastomeric and elastomeric materials used in aftmost propeller shaft bearings must satisfy strict property benchmarks, including tensile strength, elongation, and metal adhesion. These properties, detailed in associated tables within the UR, are crucial for maintaining structural integrity and performance across various operating conditions.
• Accredited Testing Facilities: Type approval tests must be conducted in ISO/IEC 17025-accredited laboratories. This standardization ensures that material property tests are reliable, accurate, and conducted to the highest quality, reinforcing IACS’s commitment to robust rule compliance.
• Wear Testing Procedures: To assess material durability, wear testing must adhere to ASTM G77-17 or equivalent standards, with strict parameters specified for shaft material, lubrication type, and testing duration. These guidelines ensure consistent and reliable wear data, reducing variability and supporting predictable product performance.
• Environmental Conditions for Testing: Testing must be conducted under strictly controlled environmental conditions, including regulated temperature, humidity, and the use of substitute ocean water. By simulating operational conditions, the UR ensures that materials are thoroughly tested for real-world application and resilience, thereby enhancing overall safety.
• Type Approval Certificate Issuance: Following the successful completion of testing and submission of technical documentation, the Classification Society will issue a Type Approval Certificate. This certificate signifies product quality and conformity with IACS standards, instilling confidence among shipowners and operators.

With the publication of this UR, IACS once again demonstrates its commitment to shaping technical standards that address real-world operational challenges to enhance industry-wide resilience. By working in close collaboration with industry stakeholders, IACS ensures that its guidelines are aligned with the latest industry needs and evolving technological advancements and highlights IACS’s role in promoting innovative, safety-focused solutions for the maritime sector.

IACS invites designers, manufacturers, operators and owners to adopt these requirements into their products and vessels, contributing to a unified approach for safer and more reliable maritime operations.

Contact: Robert Ashdown, IACS Secretary General
E: robertashdown@iacs.org.uk T: +44 (0) 20 7976 0660

International Association of Classification Societies
Permanent Secretariat 4 Matthew Parker Street, London, England SW1H 9NP

E: permsec@iacs.org.uk

T: +44 (0)20 7976 0660

Notes to Editors:

1. Dedicated to safe ships and clean seas, the International Association of Classification Societies (IACS) makes a unique contribution to maritime safety and regulation through technical support, compliance verification and research and development. More than 90% of the world’s cargo carrying tonnage is covered by the classification design, construction and through-life compliance Rules and standards set by the twelve Member Societies of IACS.
2. More information about IACS can be found by visiting iacs.org.uk and in our Annual Review available online at https://iacs.org.uk/about-us/annual-review

In light of the evolving regulatory landscape for ammonia as a maritime fuel, and the recent finalisation of the IMO’s draft interim guidelines on ammonia, the International Association of Classification Societies (IACS) announces the withdrawal of Unified Requirement UR H1, “Control of Ammonia Releases in Ammonia Fuelled Vessels”, ahead of its scheduled implementation date of 01 January 2025. This decision ensures alignment with the IMO guidelines and creates a clearer regulatory environment as ammonia use expands within the maritime sector.  

The decision to withdraw UR H1 stems from the differences between its safety parameters and those outlined in the IMO Interim Guidelines. The IMO Sub-Committee on Carriage of Cargoes and Containers, at its 10th session, finalised the draft interim guidelines for the safety of ships using ammonia as fuel, with a view to approval by MSC 109. These guidelines include several differences from IACS’s original UR H1 requirements. The IMO Interim Guidelines establish a 220 ppm threshold for acute exposure, without defining a hazardous concentration, and require preventing direct ammonia release during normal and controllable abnormal scenarios, which may exclude releases from leakages. Toxic areas have been defined, requiring gas dispersion analysis to demonstrate concentrations do not exceed 220 ppm in key locations. An ammonia release mitigation system is required to maintain outlet concentrations below 110 ppm, with alarms for exceedances. Additionally, alarms must activate at 110 ppm with system shutdown at 220 ppm, while a visual indication is required at 25 ppm near entrances to affected enclosed spaces. These differences could potentially lead to confusion within the maritime industry. 

To ensure consistency and reduce the potential for conflicting interpretations, IACS has decided to withdraw UR H1 with a view to publishing a revised version that aligns with the IMO guidelines. The revised UR, to be published in 2025, will provide a consistent regulatory framework for the safe adoption of ammonia and will provide the necessary safety framework for ammonia-fuelled vessels while aligning with best practices and international guidelines. 

As the industry shifts towards alternative fuels in response to environmental regulations and sustainability goals, the safety risks associated with these fuels cannot be overlooked. Crankcase explosions, a critical hazard in engine operation, becomes even more concerning in the context of gas and low flashpoint fuels.  To address this issue, and as part of the International Association of Classification Societies (IACS) IACS’ commitment to assisting the industry to decarbonise safely,  IACS has published the latest edition of Unified Requirement (UR) M10, which introduces new safety requirements to protect internal combustion engines from crankcase explosions.

The revised URM10, specifically designed for engines running on gas or low flashpoint fuels, addresses the unique challenges posed by these fuel types thereby ensuring that safety measures keep pace with evolving technologies and thus safeguarding maritime operations.

Revision 5 of UR M10 builds on key exisiting safety standards essential for protecting against crankcase explosions. These include the requirements for crankcases to be constructed to withstand the internal pressures generated by potential explosions. For engines with a crankcase volume exceeding 0.6 m³, additional explosion relief valves are required to safely manage the excess pressure. Furthermore, a crankcase explosion relief valve must be in compliance with type testing procedures stipulated in IACS UR M66, as incorporated in IACS Members Rules, ensuring they meet the unified technical requirements fit for safety purposes, designed to safeguard against explosions.

This new edition of UR M10 was achieved through extensive collaboration with key industry stakeholders, including engine manufacturers. This cooperative effort ensures that the new guidelines are not only effective but also practical and feasible for real-world application, reflecting the latest technological advancements in engineering practices and safety protocols.

In this latest edition, IACS has also introduced the following improvements to address the safety requirements specific to engines fueled by gas or low flashpoint fuels:

• Airflow Requirements: Technical conditions for the external airflow into the crankcase have been specified for engines fueled with gas or low flashpoint fuels, ensuring operational safety.

• Lower Explosive Limit (LEL): The revised UR M10 now defines the Lower Explosive Limit (LEL) for gas, fuel vapors, or mixtures in the crankcase, contributing to enhanced safety measures.
• Crankcase Pressure Control: To prevent interference with critical safety devices, such as oil mist detection systems during forced extraction of the crankcase atmosphere.
• Safety Evaluation: Engines fueled by gas or low flashpoint fuels must undergo a comprehensive safety evaluation to ensure gas concentrations remain below the LEL or that explosion risks are duly mitigated.
• Explosion Risk Mitigation: Predefined measures for reducing the risk of crankcase explosions have been introduced, ensuring greater protection against potential hazards.
• Engine Bearing Monitors: Engine bearing temperature monitors or equivalent devices are now classified as essential safety components.
• Comprehensive Documentation: Documentation detailing the effectiveness of the safety measures to prevent explosive conditions is to be provided my manufacturers and designers.

Commenting on the revised UR, IACS Secretary General, Robert Ashdown, said

“As the industry continues to adopt alternative fuels, IACS remains committed to advancing maritime safety standards. By introducing enhanced safety requirements tailored to modern engines and different fuel types, URM10 ensures that the industry remains equipped to mitigate the risk of explosions, while adapting to the introduction of sustainable fuels.”

Stakeholders are encouraged to review these changes and update their safety practices accordingly.

/Ends

Contact: Robert Ashdown, IACS Secretary General
E: robertashdown@iacs.org.uk T: +44 (0) 20 7976 0660

International Association of Classification Societies
Permanent Secretariat 4 Matthew Parker Street, London, England SW1H 9NP

E: permsec@iacs.org.uk

T: +44 (0)20 7976 0660

Notes to Editors:

1. Dedicated to safe ships and clean seas, the International Association of Classification Societies (IACS) makes a unique contribution to maritime safety and regulation through technical support, compliance verification and research and development. More than 90% of the world’s cargo carrying tonnage is covered by the classification design, construction and through-life compliance Rules and standards set by the twelve Member Societies of IACS.

More information about IACS can be found by visiting www.iacs.org.uk and in our Annual Review available online at https://iacs.org.uk/about-us/annual-review

The IACS Council met in London last week (C90) scheduling new dates for the introduction of revised Common Structural Rules, welcoming the establishment of IQARB as a legally constituted body and acknowledging the significant number of safety related outputs successfully delivered in 2024. 

IACS revisions to the Common Structural Rules (CSR) are part of its continual ‘class cycle’ of review and improvement.  C90 reaffirmed IACS’s commitment to maintaining the highest standards to ensure safety, structural integrity, and environmental protection, and meet the Goal-Based Standards (GBS) requirement for continuous improvement set by the IMO. The basis for revisions to CSR (including new wave loads, and other subsequent rule changes) will be more transparent and accurate as they are based on more scientific and validated data and include a more comprehensive and technically sound background compared to the existing CSR.  

IACS Council recognised that it is vital that CSR revisions are made with all stakeholders in mind, and as part of a truly collaborative process. Revisions to the CSR will undergo an extensive scrutiny process by all stakeholders which is intentionally designed to be inclusive and transparent, allowing for widespread consultation with flag states, shipowners and shipyards.  To facilitate this process, and to smooth the subsequent introduction, C90 decided to allow additional time for the development and implementation of the new CSR to allow all concerned sufficient time to comment, engage and adapt without undue pressure. 

Accordingly, the new CSR are scheduled to be adopted by IACS Council on 1 July 2027 and to enter into force on 1 July 2029. 

On other matters at C90, IACS Council warmly welcomed the incorporation of IQARB into a legal entity capable of delivering a common, independent, fully transparent and trusted mechanism which flag States can utilise as a tool to supplement their oversight of their ROs.  Such an approach benefits Member States and maritime safety and the protection of marine environment by allowing IMO Member States to focus their time and resources on RO monitoring activities in targeted areas and on specific safety and environmental matters pertaining to their flagged ships. 

C90 also reaffirmed IACS ongoing commitment to safety across the board and noted that, at MSC 109 alone, IACS provided 20% of all action papers submitted, covering major safety agenda items, including GBS, MASS, safe decarbonisation, FSA, IGC and IGF Codes, and radio. 

This focus on safety was also emphasised at the traditional meeting of the IACS Council with industry where updates were provided on IACS’ work related to safe decarbonisation (especially Carbon Capture and Storage) and a safe digital transformation (data quality, MASS and Complex Systems amongst others) as well as the Association’s new strategic commitment to enhancing its focus on the human element particularly through its commitment to human centred design. 

Commenting on discussions at C90, IACS Council Chair, Roberto Cazzulo, said ‘Safety related matters dominated the agenda.  In a world where new technologies and fuels proliferate, managing their safe implementation and integration with the crews who sail the ships has never been more necessary.  Everything starts with safe design and IACS’ revised CSR will facilitate the introduction of novel designs while our focus on human centred design will address human risk and improve ship system interfaces’. 

Contact: Robert Ashdown, IACS Secretary General
E: robertashdown@iacs.org.uk T: +44 (0) 20 7976 0660 

International Association of Classification Societies
Permanent Secretariat 4 Matthew Parker Street, London, England SW1H 9NP 

E: permsec@iacs.org.uk 

T: +44 (0)20 7976 0660 

Notes to Editors: 

1. Dedicated to safe ships and clean seas, the International Association of Classification Societies (IACS) makes a unique contribution to maritime safety and regulation through technical support, compliance verification and research and development. More than 90% of the world’s cargo carrying tonnage is covered by the classification design, construction and through-life compliance Rules and standards set by the twelve Member Societies of IACS. 

1. More information about IACS can be found by visiting www.iacs.org.uk and in our Annual Review available online at Here