The Baltimore Bridge Collapse : Another Case of a Failed Management System ISO 55001:2024

By – Dr. IJ Arora

Can good management systems make organizations immune to disasters? The Baltimore bridge or simply the Bay Bridge or more precisely the Francis Scott Key Bridge that collapsed in 2023 because of the allision with the container vessel MV Dali is a tragedy, perhaps caused by the failure of several management systems, the ship, the port, the state and whoever else was involved.   

The National Transportation Safety Board (NTSB) investigation is ongoing, and will no doubt look at the part played by the MV Dali, its crew and operator. However, my thought is the MV Dali or other ships plying the waters by simple statistical probability were considered as a risk by the authorities. I mean there is the water channel, ships sailing in and out, and a bridge, there was likely to be an allision someday. Perhaps not a matter of if but when! Thus should the bridge have been safer and better designed, based on known and appreciated risks? After all, not all accidents can be completely avoided. However, each tragedy has lessons learnt as responsive action. The lessons become the data that drive risk identification and trends and, thus making the system proactive.  I am sure  the NTSB is considering all this. In the meantime, without going into the ongoing investigation, are there some basics which are common indications of failures of the system. Be it the Titan submersible, or the Boeing management system,  as an SME in  process-based process-based management systems I see a common cause; the failure of the system to  deliver conforming products and services. 

In this short article I want to discuss this bridge collapse in the context of the management system, considering ISO 9001:2015 generically and ISO 55001:2024 Asset Management System requirements specifically. Could simply designing a good system based on the standard have enabled the organization to better assess the associated risks? Perhaps they were assessed and justified as a low probability of occurrence. If that were the case, the discussion would be on prioritization of risks. ISO 55001 was first published in 2014. It was developed as a standalone standard for asset management, building upon the principles of ISO 9001 (quality management) and other relevant standards. 

I am aware that as of September 2024, the investigation into the Baltimore bridge collapse is still ongoing.  Therefore, while the exact cause of the collapse remains under investigation, we can consider several factors that could have contributed to the incident. MV Dali, experienced a series of electrical blackouts before the allision.  The vessel SMS (safety management system based on the ISM Code) implementation could be a factor. Bridge stability, its age and condition are I am sure are being investigated as a potential contributing factor. Then there is always human element.  There may have been errors on the part of the ship’s crew or bridge operators. Was the system designed to support them in such a scenario? What factors may have caused operators at all levels to perhaps not follow requirements, to justify the risks. The NTSB’s investigation will highlight a detailed analysis of the ship’s navigation systems, the bridge’s structural integrity, and the actions of the individuals involved in the reasons for this tragedy. Their final report will provide a comprehensive understanding of the incident and may include recommendations to prevent similar occurrences in the future. 

However, even at this stage we can agree that bridges in general are national assets. They are valuable infrastructure that provides essential services to communities. While it is not publicly known whether the State of Maryland specifically implemented ISO 55001 for its bridges, the principles and practices outlined in this standard could have been beneficial in managing the risks associated with the Baltimore bridge. The implementation of this standard and or even if the generic standard ISO 9001 were implemented the authorities could have performed: 

  • Risk Assessments: ISO 55001 requires organizations to conduct regular risk assessments to identify potential threats and vulnerabilities. A thorough assessment of the bridge’s condition, age, and traffic load could have helped identify potential risks and inform maintenance and repair decisions, as also change in procedures, protection of navigation channels and so on. 
  • Life Cycle Management: The standard emphasizes the importance of managing assets throughout their entire lifecycle, from planning and acquisition to maintenance and disposal. By following ISO 55001, the state could have developed a comprehensive plan for the bridge’s maintenance, upgrades, and eventual replacement. 
  • Performance Measurements: ISO 55001 requires organizations to establish measurable Objectives or Key Performance Indicators (KPIs) to measure the effectiveness of their asset management activities. This could have helped the state monitor the bridge’s condition and identify any signs of deterioration. 
  • Continual Improvement: The standard promotes a culture of continual improvement, encouraging organizations to learn from past experiences and make necessary adjustments to their asset management practices. 

I agree, it is impossible to say definitively whether ISO 55001 would have prevented the Baltimore bridge collapse. However, the principles and practices outlined in the standard could have helped to reduce the risk of such incidents. By adopting a systematic and proactive approach to asset management, organizations can improve the reliability and safety of their infrastructure. A systematic study must go beyond what the MV Dali contributed to the Baltimore bridge collapse, it is also important to consider the broader context and the potential contributions of other factors: 

  • Bridge Design and Maintenance: The age and condition of the bridge are likely to be factors in the investigation. Older infrastructure may be more susceptible to damage or failure, especially if it has not been adequately maintained or upgraded. 
  • Vessel Traffic: The frequency and intensity of vessel traffic in the area can also influence the risk of collisions. The bridge is in a busy shipping channel; therefore, the likelihood of incidents was higher. 
  • Safety Measures: The presence or absence of safety measures, such as buoys, warning systems, or restricted areas, can also impact the risk of collisions/allisions. This needs to be studied and are factors the authorities would know. 
  • Human Element and Factors: Errors on the part of both the ship’s crew and bridge operators can contribute to accidents. Factors such as fatigue, inexperience, or inadequate training may play a role. What led to these?  Error proofing, mistake proofing and FMEA (Failure Mode Effect & Analysis) are tools that could be part of the effective management system. 

Let us therefore consider ISO 55001 and the relevant clauses of the standard which could apply to the collapse of the Baltimore Bridge. 

Clause 4: Context of the Organization 

  • Clause 4.1: Understanding the external context, such as the age of the bridge, traffic volume, and environmental factors, is crucial for risk assessment. 
  • Clause 4.2: Identifying the needs and expectations of relevant interested parties, including the public, commuters, and regulatory bodies, is essential for effective asset management. 

Clause 6: Planning 

  • Clause 6.2.1: The bridge’s asset management plan should have included clear objectives for its maintenance, repair, and replacement. 
  • Clause 6.2.2: Specific objectives related to safety, reliability, and cost-effectiveness should have been established. 
  • Clause 6.2.3: Detailed planning for maintenance, inspections, and upgrades would have been necessary to ensure the bridge’s structural integrity. 

Clause 7: Support 

  • Clause 7.1: Adequate resources, including funding, personnel, and expertise, should have been allocated for bridge maintenance and inspection. 
  • Clause 7.2: Ensuring that personnel involved in bridge management have the necessary competence and training is essential. 
  • Clause 7.3: Raising awareness among all relevant stakeholders about the importance of bridge maintenance and safety is crucial. 

Clause 8: Operation and Maintenance 

  • Clause 8.1: Regular inspections and monitoring of the bridge’s condition would have helped identify potential problems early on. 
  • Clause 8.2: A well-defined maintenance schedule, including preventive and corrective maintenance, would have been necessary to address issues before they escalated. 

Clause 9: Performance Evaluation 

  • Clause 9.1: Establishing key performance indicators (KPIs) to measure the bridge’s performance, such as safety records, traffic flow, and maintenance costs, would have provided valuable insights. 
  • Clause 9.2: Regular monitoring and evaluation of these KPIs would have helped identify areas for improvement. 

Clause 10: Improvement 

  • Clause 10.2: The bridge’s management should have implemented a system for monitoring and measurement, including data collection and analysis. 
  • Clause 10.3: Predictive maintenance techniques could have been used to identify potential failures before they occurred. 

My objective of writing this article is to awaken this basic thought in organizations that by applying the principles of a standard, be it generic ISO 9001 or an industry specific standard or as in this case the asset management system standard ISO 55001, the organization (State of Maryland) could have strengthened its asset management practices and potentially mitigated the risks associated with the Baltimore bridge collapse. 

The above article was recently published in the Exemplar Global publication – ‘The Auditor’.