Rational design is about achieving performance-driven fire safety measures through sound engineering principles. Rational design is not just a tick-box exercise. It involves a deep understanding of fire risks and behaviour, which allows for developing customised fire protection strategies.
“Ensuring safety in the face of increasingly complex building designs and rising standards requires more than mere adherence to standard codes; it necessitates a rational design approach,” says Michael van Niekerk, CEO of ASP Fire. This performance-based method goes beyond compliance, actively seeking tailored, effective fire safety solutions that are critical in protecting both lives and property.
The South African National Building Regulations (SANS 10400) are pivotal in guiding fire safety design. The latest update, the fifth edition of SANS 10400 Part T, introduced in February, emphasises a comprehensive approach to fire protection.
This part of the standard specifically addresses fire-related safety, covering key elements such as safety distances, occupancy types, fire resistance of structural components, escape routes, and more. By consulting this standard, designers and engineers can follow a ‘deemed-to-satisfy’ route, ensuring compliance with the country’s National Building Regulations. However, compliance alone is not enough for the complexities of modern fire safety.
Flexible and adaptable
Rather than simply meeting minimum requirements, rational design enables flexibility and adaptability to address the specific fire hazards a structure may face. Importantly, rational design is applied by registered professionals, ensuring that the approach is thorough and incorporates industry best practices.
One of the standout features of rational design is its emphasis on risk assessment. This process evaluates potential fire risks based on the building’s use, layout, and materials. For example, a shopping mall will have different fire hazards than an industrial facility such as a fuel depot. Recognising these nuances is key to an effective rational design, which must cater to the specific requirements of each setting.
“From shopping centres to high-risk industrial sites, a proper rational design cannot be achieved by simply following code requirements. It starts with a comprehensive risk assessment,” explains van Niekerk.
Rational design is especially crucial when refurbishments or extensions are added to an existing structure. For instance, installing solar panels on the roof of a shopping centre introduces new variables that could impact fire safety. In such cases, a fresh fire safety assessment is essential to evaluate any new risks introduced by the changes.
Property owners and developers can ensure that fire protection systems are designed and installed with a strategic, informed approach by involving fire safety experts from the earliest planning stages. The goal of rational design is to create safety solutions that are both flexible and reliable, maintaining the required level of protection, while considering alternative methods when suitable.
As building regulations evolve and structures become more complex, the need for rational design will only increase. This approach not only aligns with legal requirements, but also embodies a commitment to the highest fire protection standards. Through rational design, lives, property, and investments are better safeguarded, reinforcing the importance of expertise and customisation in modern fire safety.
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