The significance of third-party certification: What the OceanGate Titan tragedy taught us

The OceanGate Titan tragedy has highlighted the importance of third-party certification in ensuring safety and quality standards. This article aims to explore the role of third-party certification in mitigating risks and reducing the probability of such incidents. It emphasises the need for external inspection and certification to prioritise safety over commercial interests.

The Role of Probability in Risk Assessment

Probability plays a crucial role in assessing the risks associated with any product or activity. When considering the probability of failure in the risk formula, it follows that a higher number of successful outcomes brings a failure closer rather than farther away. To illustrate this point, take the analogy of a bag of marbles; there are 4 red marbles and 1 blue marble. After picking 4 red marbles out of the bag, it is definite that your next marble will be blue. Translating this analogy to the risk of failure of an operation, if the probability of failure is 20%, after 4 consecutive successful operations, the next operation has to fail (if the probability of failure is indeed 20%).

This highlights the importance of probability. Unless the probability of failure is known for each element in a system, it is impossible to calculate the probability of overall system failure with adequate certainty. This means agreeing on a level of risk that is acceptable is not possible, neither can further overall risk mitigation be controlled.

Equally critical are controlled processes and production such as those verified through Factory Production Control (FPC) audits, part of third-party certification. There really is no substitute for external assessments in ensuring probability is accurate and manufacturing tolerances don’t wander.

Third-Party Certification and Mitigating Probability of Failure

Third-party certification acts as a mitigating factor in assessing probability by involving independent certification bodies rather than relying solely on the claims of inventors or manufacturers. In the absence of third-party certification, production and quality control are solely managed by the profit-driven manufacturer, without external scrutiny. This raises a crucial question: What takes precedence, commercial interests, or safety? Neither comes first, but rather a sequence of “safety-by-my-standards,” followed by “commercial interest,” and finally “safety-as-an-independent-sees-it.” It is important to acknowledge that different individuals may have varying standards, and this is where third-party certification proves invaluable.

Value of Third-Party Certification in Preserving Lives

The value of third-party certification can be measured in terms of lives saved rather than monetary gains. It ensures that production aligns with established industry benchmarks for safety and quality.

While there may always be a few bad actors, they are exceptions rather than the norm. Even in the presence of such actors, the presence of third-party certification remains superior to the absence of certification altogether. It is important to note that third-party certification does not eradicate risk, but rather, it significantly contributes to assessing the safety and reliability of a product, and ensuring the probability number is controlled. The value of this cannot be overstated when considering products that lives depend on.

The Need for Transparency and Certainty

Innovation should be celebrated, but when it comes to life-safety products, caution should take precedence over expediency. While third-party certification may slow down the innovation process, avoiding unnecessary risks and preventing avoidable loss of lives is far more crucial. An uncertified product may indeed possess the same level of safety as a third-party certified product, but the crucial difference lies in the certainty of the probability of failure. With third-party certification, the probability of failure is controlled, whilst, without it, commercially controlled production can be uncertain.

Understanding the Compound Effect of Probabilities

When evaluating probabilities, it’s crucial to understand how they can compound or multiply when dealing with interconnected elements. Consider a system consisting of five vital components, each having a relatively conservative 10% chance of failing. At first glance, this might seem like an acceptable level of probability. However, when we take into account how these probabilities interact with each other, the scenario changes significantly.

When we calculate the compounded risk of these interdependent components, we find that the likelihood of the entire system failing reaches a startling 50% (resulting from multiplying 5 by 10%). This high probability of system failure is clearly unacceptable in many critical situations.

Suppose we replace these components with new ones, each having a lower 5% chance of failure. In this case, the overall probability of the system failing drops significantly to just 25% (the result of multiplying 5 by 5%). This demonstrates a straightforward yet effective risk mitigation strategy.

This principle of understanding how probabilities compound can be applied to a wide range of situations, including critical areas like fire safety, where the consequences of failure can be life-threatening.

Fire Curtains and the Role of Third-Party Certification

Applying these principles to fire curtains, it is clear to see why industry leaders have long advocated for third-party certification being a mandatory requirement. The valid third-party certification statuses for various product standards used in the UK are:

BS EN 16034: Third-party certification available

BS 8524-1: No valid third-party certification available

ISO 21524: Third-party certification available

When considering various configurations of fire curtains, it is crucial to highlight the specific product standards as these have valid third-party certification. The following standards are the only ones that have valid third-party certification for each of the different fire curtain configurations:

Vertical fire curtains: BS EN 16034

Horizontal fire curtains: ISO 21524

Concertina fire curtains: BS EN 16034

By adhering to these certified product standards, organisations can ensure the highest level of safety and quality for fire curtains in their respective configurations.

In conclusion, the OceanGate Titan tragedy serves as a poignant reminder of the significance of third-party certification. It emphasises the need for external inspection, transparency, and certainty in ensuring safety and quality standards. The value of third-party certification lies in preserving lives and mitigating risks. By understanding the compound effect of probabilities and prioritising safety over commercial interests, we can strive for a safer future.

Adexon Fire & Smoke Curtains, a pioneer in life-safety products, stands at the forefront of innovation and excellence in the active fire curtain industry. With a commitment to safeguarding lives and property, Adexon specialises in the design, manufacturing and installation of advanced fire and smoke curtain systems.