The origins of the fire protection industry are frequently traced back to the Ancient Romans more than 2,000 years ago. After a multi-day fire destroyed large parts of Rome in 64 AD, Emperor Nero ordered it to be rebuilt using new building and construction rules. This included using fire-retardant building materials and increased separation between buildings. Fast forward to the early years of the 20th century, and fire engineering had emerged from the Industrial Revolution alongside civil, mechanical, and chemical engineering as a separate discipline. In the last fifty years or so, the advent of electronics, computers, software, and the development of the internet have combined to offer the modern-day fire protection industry a stack of building blocks to elevate the safety of people and property to new levels.
The design and construction of a new building or the renovation of existing buildings always includes extensive consideration of passive and active fire protection systems in alignment with regulations and best practices. Nero’s team had it correct when they chose appropriate building materials and designs as they rebuilt Rome.
The passive fire protection systems used by the Romans are still used today, although today’s design principles are far more sophisticated. Passive fire protection is intended to limit the spread of fire and smoke and includes the construction materials and the building designs to enable building evacuation. On the other hand, active fire protection systems slow or stop fire and smoke and include fire detection, fire-alerting systems, and fire-suppression systems, including sprinklers and extinguishers. Modern fire systems are linked to building fire panels, and the panels are connected to fire dispatch centres to ensure rapid deployment of fire brigade assets.
Standards for the design, installation and commissioning of active and passive fire protection systems provide the necessary guidelines to ensure buildings are safe for their intended use. Recent disasters like the Grenfell fire in London in 2017 that sadly saw 72 people perish reinforce the imperative to improve active and passive fire protection systems. Significant developments in the design and installation of passive and active fire protection systems are vital. A recent advancement is the use of Internet of Things (IoT) sensor technologies that can monitor room temperature with greater precision and potentially detect the presence of fire faster than traditional detectors.
Equally as essential as designing and installing fire protection systems is the ongoing maintenance or servicing of these systems. It’s far better for a fire protection maintenance professional to detect an issue with a fire protection asset instead of a fire brigade turning up at the front door with lights flashing and sirens blaring.
Fire protection standards like the Australian Standard 1851 are a set of rules and regulations that building owners are expected to meet regarding fire protection maintenance. Additionally, each Australian State and Territory has regulations that draw from AS 1851 and often provide further requirements on servicing frequency, reporting, training, and technician certification requirements. A frequently lamented difference between the states and territories are annual building inspection reports. In New South Wales, it’s the ‘Annual Fire Safety Statement’; in Queensland, it’s the ‘Occupier Statement’ and so on.
As mentioned, the fire protection maintenance industry ensures that installed fire protection systems are maintained as per standards and regulations. The importance of the industry is underscored by recent Covid 19 lockdown work exemptions being similarly granted for fire protection maintenance professionals to emergency services and health personnel. The industry relies on accredited professionals inspecting fire assets to ensure the systems are ready to detect, alarm and combat a fire should one occur.
Like most digital transformations, the modernisation of the fire protection maintenance industry has seen digital technology embedded into many areas of the operation. It has challenged the status quo and has enhanced the value offered to property owners and occupants alike. Similarly, technology has delivered operational efficiencies and ultimately increased productivity for fire protection maintenance businesses.
Building owners and tenants are the customers of fire protection maintenance businesses. Digital transformation offers them several important benefits:
Digital transformation has revolutionised fire protection maintenance providers in recent years as they moved from mostly paper-based systems to software systems for office and field teams. In essence, fire asset management systems enable businesses to re-engineer workflows to be simpler, more accurate and compliant. Fire protection maintenance businesses consistently see these important benefits:
Despite Nero being of dubious character, the rebuilding of Rome under his rule to be fire resistant demonstrated advanced thinking. In the ensuing 2,000 years or so, fire protection systems design has continued to evolve as technology has developed. As more fire assets are connected, the level of fire protection available will be increasingly robust. Likewise, the digital transformation of fire protection maintenance and servicing will enable maintenance providers to improve service levels to building owners while also increasing their efficiencies. The safety of people and places must continue to be the focus of future developments and should underpin all development efforts.
This article was written by FireMate with a version published by Safety Solutions Magazine in October 2021.
Like most digital transformations, the modernisation of the fire protection maintenance industry has seen digital technology embedded into many areas of the operation.