Fire Prevention

If they are a new business – or an existing business, for that matter – and are wondering whether or not they need fire safety training, then read on. The bad news is fire is easily started and can spread quickly through a building – to the extent it can completely raze it to the ground. In other words, they could be left with no premises at all for them and their staff to work in. Fire safety training In a worst-case scenario, they might face court proceedings and even up to two years in jail Of course, what is really devastating about a fire is if people get hurt, maimed, or worse. And then, they could find themselves in very hot water if the company is found to be negligent when it comes to keeping up with fire safety legislation. In fact, they could end up with fines that could put them out of business. In a worst-case scenario, they might face court proceedings and even up to two years in jail. So, in answer to the question they posed in the introductory paragraph of this article – yes, they need fire safety training for the business. Under the Fire Safety Order 2005, it is actually a legal requirement for all staff to be both trained and knowledgeable when it comes to fire safety on the premises. What exactly is fire safety training? Not everyone in the company needs official fire safety training. Depending on how big the firm is, there may just be a couple of individuals who need to undergo a fire safety training program, i.e., learn how to get stuff out of a building safely and securely in the event of a fire. They can then pass on their knowledge to other employees on their team by carrying out evacuation exercises, fire extinguisher training, etc. Types of fire safety training available For instance, a care home would require a different course from that of a recycling and waste plant At FireRite they offer a full range of staff fire safety training. This can take the form of a standard package or a customized course for the company. For instance, a care home would require a different course from that of a recycling and waste plant. Regardless of whether it’s a complete training course or merely a refresher, each course meets current legislative standards. In addition to learning what to do in the event of a fire, staff are also trained in looking out for particular fire hazards or risks. They also advise on firefighting solutions, such as emergency lighting, extinguishers, alarm systems, and signage. fire risk consultancy and training program The team here at FireRite are experts when it comes to offering a full solution fire risk consultancy and training program. With more than 20 years of experience, they have helped many public and private sector businesses become adept at fire safety practices, including large government organizations. They are also the number one South Wales and West fire training and consultancy firm. The latter is thanks to being awarded Best Fire Safety & Compliance Consultancy Business 2020 and 2021 at the Welsh Enterprise Awards.  

Here at FireRite, they were saddened to learn of the huge fire that completely destroyed a recycling plant at Blaenavon in South Wales last month. Around 600 tonnes of plastic melted while 60 firefighters with 14 appliances and using specialist equipment tackled the blaze. There was also a huge upheaval for the community after roads were closed and harmful fumes polluted the atmosphere. This particular fire in October at Capital Valley Plastics followed recycling plant fires in Warwickshire, Aberdeen, and Killough in Northern Ireland. The reason they are saddened and frustrated here at FireRite is that all of these could so easily have been avoided. Fires that could have been avoided The reason the other premises were destroyed is a lack of recycling fire compliance requirements They know this because they work with similar waste and recycling businesses – all of whom already have fire safety measures in place and regularly receive fire inspections from themselves. This is important due to the nature of the materials such plants deal with, i.e. combustibles such as plastic, paper, cardboard, etc. As a result of the input, the likelihood of the premises they work with going up in flames in a similarly spectacular fashion has been minimized as much as possible. The reason the other premises were destroyed is a lack of recycling fire compliance requirements in the recycling and waste industry. FireRite environmental impact Not only that, but FireRite is a specialist in this area. The staff has both operational and legislative experience, specifically in relation to emergency planning at waste sites. They have seen the environmental impact such blazes have on local communities first-hand, through attending incidents at waste plants. It’s not just the initial impact but later on, too, when households are forced to see the charred remains of a waste plant every time they look out their windows. The stench of smoke – which contains harmful chemicals – remains for a long time too. In addition, there are unfortunate nearby properties that are damaged by fire water run-off and often need to be repaired. Waste company fires often result in later liquidation A fire at a plastic film factory near Preston in 2016 razed the entire premises to the ground Talking of damage, the business itself may have suffered quite a substantial financial loss due to having to rebuild, and it may find itself going into liquidation. Certainly, it’s not the first time this has happened.  A fire at a plastic film factory near Preston in 2016 razed the entire premises to the ground. The company rebuilt, but such was the loss of income that three years later they went into administration. More than 200 employees lost their jobs as a result – a big blow to the community. Avoiding costly large-scale fire damage The way to avoid such devastating fire damage and loss is to come up with a strategy for each and every recycling or waste plant. They have already produced Fire Prevention and Mitigation Plans for a scrap metal site in Newport. These consisted of the following: BAFE SP205 Life Safety Fire Risk Assessment NRW Waste Management Fire Compliance Waste Site Fire Management Contingency Planning Fire-Fighting Training

It’s not unusual to find fire safety training low on the demands of an innovative start-up business or even an SME. There always seems to be something more ‘urgent’ to deal with first. But what’s more urgent than finding new business premises because their existing one has burned down? And users may not be allowed to continue operating the business since failing to ensure the staff are protected against a fire outbreak is against the law. Fire risk assessment The Regulatory Reform (Fire Safety) Order 2005 states it is their responsibility, as the owner of a commercial or non-domestic premise in England and Wales, to minimise the possibility of a fire breaking out. Fire training should therefore be amongst the first tasks to consider when recruiting a team of staff - or even one other individual. Other knowledge includes when it’s possible to tackle a fire and when to evacuate the building What does fire training involve? To carry out a fire risk assessment, it’s essential to be able to show that the employees are trained to deal with the event of a fire occurring. This won’t only make them feel more confident but could potentially save their and their colleagues' lives. It also tells them that users are taking the matter seriously, potentially leading to further loyalty from their staff. Fire prevention techniques The training should include an emergency plan which shows staff how to act in the event of a fire and where their nearest assembly point is. They should also know how to operate equipment, such as a fire extinguisher, and how to open an emergency door. Other knowledge includes when it’s possible to tackle a fire and when to evacuate the building. It’s not enough to train staff on a one-off basis. The training should be updated, allowing them to keep up with fire prevention techniques and information on modern fire-fighting methods and equipment. It also acts as a refresher course for staff who may have forgotten since the last time. Meanwhile, if users business has five or more individuals working for users, they must keep a written copy of the fire risk assessment.

It is no secret that electricity can have a significant impact on the fire industry, and this is not just something that is restricted to a single country. Daily, we see the devastation that improper electrical wiring and defective products can have on a global scale. Personal injury, property loss, and death can all wreak havoc on those working within the fire service and other first responders, not to mention the significant impact on the entire community where the events take place.  steps to minimize electrical incidents There are steps that can be taken to minimize the number of these horrific electrical incidents Research from NFPA® that highlights home electrical fire statistics shows that U.S. fire departments responded to an estimated average of 46,700 home fires involving electrical failure or malfunction each year between 2015 and 2019. An additional 16,390 non-residential electrical fires required a response and were tracked between the years 2012 and 2016, indicating just how burdensome electrical fires are on the fire service.  However, there are steps that can be taken to minimize the number of these horrific electrical incidents. The implementation and utilization of current electrical codes and standards is a foundational piece in beginning to minimize these issues from arising. Triad of codes and standards NFPA has a triad of codes and standards that focus on mitigating risk and injury associated with electricity that have become known as the Electrical Cycle of Safety™ (ECoS™). When used collectively and properly, NFPA 70®, National Electrical Code® (NEC®), NFPA 70B, Standard for Electrical Equipment Maintenance, and NFPA 70E®, Standard for Electrical Safety in the Workplace®, provide an alliance for achieving holistic electrical safety. By utilizing the documents that make up the ECoS, businesses and communities can help to mitigate electrical fires and injuries that put significant strain on the limited resources available to the fire service. NFPA has a triad of codes and standards that focus on mitigating risk and injury Electrical Cycle of Safety The Electrical Cycle of Safety starts with an installation that is grounded in the requirements of the NEC The Electrical Cycle of Safety starts with a proper electrical installation that is grounded in the requirements of the NEC. This could be the initial installation for a brand-new building, an addition to an existing building, or new equipment being installed within a building. Regardless of what type of installation is taking place, it is important that, where applicable, proper electrical permits have been filed by the licensed contractor performing the work in the municipality where the building is established. This should then include having the appropriate inspections performed by a qualified electrical inspector throughout each stage of the installation. Having all electrical work done and inspected in accordance with the applicable NEC requirements is the appropriate first step in assuring electrical safety that protects both people and property. Electrical equipment and systems After any installation has been done, electrical equipment and systems must be maintained to ensure that they remain safe for those that service the equipment, as well as those that may be utilizing the equipment, such as production line workers or, in some cases, even the general public. An example of this might be keeping an electric vehicle charger in proper, safe working order so that citizens who need to use it are not exposed to any electrical safety risks, like shock hazards. NFPA 70B provides electrical equipment maintenance requirements and should be used in conjunction with any specific manufacturer maintenance requirements for electrical equipment. Safe working practices Maintaining equipment not only helps ensure electrical safety but it also helps to preserve its reliability Maintaining equipment not only helps ensure electrical safety, but it also helps to preserve its functionality and reliability. In the case of electric vehicle chargers, utilizing Chapter 33 of NFPA 70B can help to establish a maintenance plan for community-based public chargers that will keep them safe and functional for users, while minimizing the need for first responder actions. NFPA 70E is about establishing safe working practices to protect those who engage with electrical systems and equipment while on the job through either installing or servicing them or utilizing the equipment in performing their assigned work tasks. As is well established, there are many risks associated with electricity, such as electrical shock and arc flash incidents, that can put individuals at a significant risk of injury. Safe and healthy working conditions Not only is there a moral obligation as an employer to keep employees safe on the job, but there is often a legal one as well. For example, in the U.S., the Occupational Safety and Health Administration (OSHA) was established with a mission to assure safe and healthy working conditions for working men and women by setting and enforcing standards and by providing training, outreach, education, and assistance.  OSHA and NFPA 70E work in harmony to help ensure that employers are providing safe places of employment for their workers. OSHA establishes and enforces its own requirements around how employers must establish electrical safety in their place of business and, in most cases, NFPA 70E provides the means on how to accomplish those requirements. fire service and other first responders First and foremost, it means that the community as a whole becomes safer Together, the ECoS establishes a way in which electrical safety can be provided to communities that minimizes the number of responses that are required of the fire service and other first responders. First and foremost, it means that the community as a whole becomes safer. Furthermore, in a day and age where resources continually become more and more limited, alleviating the need to respond to a higher number of incidents also helps ensure that those valuable resources can be utilized where they are most needed. Knowledge to raise awareness of the ECoS So, how can the ECoS be utilized to help support the fire service and other first responders? As with many things, it begins with gathering knowledge to raise awareness of the ECoS and establish a starting point. Moving forward, this knowledge can be shared with others who have an impact on electrical safety across industries within communities.  Understanding the equal importance of safe electrical installations, maintenance, and worker safety in electrical applications will make it easier to have a dialogue with the specific groups or individuals that can impact those areas. Just as the ECoS works in unison to achieve overall electrical safety, it takes everyone working together collectively to do the same.

Sue Corrick of Allegion UK explores the evolution of panic and emergency exit hardware, examining the specification and installation points that decision-makers must consider throughout modern applications. The swift evacuation of a building and its occupants is critical in an escape or emergency situation. For decades, escape doors and exit hardware have been co-dependent in their purpose of facilitating safe egress when it matters most. Elements of public safety In fact, exit hardware has been providing users with a safe means of escape since the early 20th century. Following a string of high-profile disasters, including the infamous Iroquois Theater Fire in Chicago in 1903, the conditions of the world’s built environment and its emergency exits were more closely inspected as crucial elements of public safety, in large part to The National Fire Protection’s (NFPA) Life Safety Code in the US. Incidentally, this period was a catalyst for change in the exit device industry, with the world’s first panic bar made available in an assortment of configurations in 1908, courtesy of Von Duprin. Exit hardware is more conventionally categorized as panic hardware The conditions of the world’s built environment and its emergency exits were more closely inspected The term ‘exit hardware’ is more conventionally categorized as either panic hardware or emergency exit hardware. With distinguishing characteristics and features, both categories of exit hardware provide users with a safe means of escape, and both have come a long way since their inception all those years ago. As such, selecting the most suitable solutions can be a challenge for modern projects, and decision-makers are reminded to consider a number of key factors. Distinctive door hardware In a fire scenario, a building’s evacuation methods must be as straightforward and defined as possible. When a person reaches an exit door, it is essential that the door can be operated with ease, regardless of who is operating it and where it is being used. While all exit hardware plays an integral role in this process, decision-makers must consider a building’s type, application, and occupation levels when selecting between panic and emergency exit hardware, since there are meaningful differences between the two. Panic hardware, for example, is a type of exit device that has been designed to provide safe and effective escape through doorways with minimum effort and without prior knowledge of its operation. Panic hardware devices come in the form of horizontal push or touch bars and are commonly applied to outward opening doors in public-facing buildings or buildings with more than 60 occupants, where they can be operated by untrained people or members of the public, ensuring safe and effective escape. As such, panic device push and touch bars should be installed to provide the maximum effective length, but never less than 60% of the door leaf width, as stipulated by BS EN 1125 and harmonized CE and UKCA designated standards. levels of accessibility and security For spaces where the opening width is limited, a non-intrusive touch bar can also be a practical option With its size, panic hardware is typically easier to see and operate than some emergency exit hardware devices. With this in mind, decision-makers should often choose to implement panic hardware solutions in busy public spaces such as hospitals, shops, and places of entertainment where usability is paramount. For spaces where the opening width is limited, a non-intrusive touch bar can also be a practical option. Furthermore, in cases where users may wish to gain access from the outside of a door with a panic bar, an outside access device can also be applied to maintain equal levels of accessibility and security. Emergency exit hardware is often applied in buildings with less than 60 occupants Emergency exit hardware is dissimilar in a few areas. Typically smaller devices, emergency exit hardware is often applied in buildings with less than 60 occupants or non-public buildings, where its users have prior knowledge of the building’s layout, its escape routes and the exit devices placed throughout them. Think of office spaces and warehouses for example. In design, emergency exit devices commonly comprise of a single push pad with a rim latch or a lever handle operating a mortice escape lock or night latch and allow for single-action egress. Where emergency exit hardware is applied, it must be certified to BS EN 179. Emergency exit hardware is dissimilar in a few areas Information is key Decision-makers are urged to select door hardware devices that are tested to EN 1125 As per Approved Document B, all doors located on an escape route must have suitable exit hardware installed. And so, with varied solutions available, specification teams must also consider the door in which an exit device will be fitted. Will the device be applied to single or double doors? What are the height and width requirements? And does the device need anti-thrust bolts for added levels of security? Above all, does it meet the latest fire safety standards? BS EN 1125 and BS EN 179 standards provide important safety and reliability If in doubt, decision-makers are urged to select door hardware devices that are tested to EN 1125 while referring to harmonized and designated standards if they feel unsure. BS EN 1125 and BS EN 179 standards provide important safety and reliability details on panic hardware and emergency exit devices respectively, reviewing classification, product performance requirements, test cycles, and test methods as standard. For traceability purposes, decision-makers and end-users can also review the UKCA and CE marks on exit hardware to find its fire rating, certificate numbers, and the manufacturer’s details. Code for Construction Product Information When it comes to induction, teams are advised to use the support that’s made available by plants Typically, dependable devices will be supplied with full product information from the manufacturer - including Declaration of Performance (DoP), Certifire certification, and product data sheets - showing that they comply with the necessary harmonized standards. The Code for Construction Product Information has been designed to assist people in reviewing and selecting door hardware solutions transparently and can also be referred to for clear, accurate, and up-to-date product information, to ensure door hardware solutions conform to the latest building standards and UKCA and CE certifications. Similarly, when it comes to installation, teams are advised to use the support that’s made available by manufacturers, in the form of helpful online tools and product guides. This further helps to ensure there are no oversights made at the installation stage that could develop into life-threatening issues later down the line. fire door’s hardware devices Under current EN standards, it is also recommended that all of a fire door’s hardware devices should be supplied from the same manufacturer and tested together to ensure the full doorset remains compliant with the application. As with all other fire door hardware, there is no one-size-fits-all solution where exit hardware is concerned. Panic hardware and emergency exit hardware play crucial, but separate roles in a building’s evacuation routes and as such, both decision-makers and end-users alike must be able to distinguish between them both. After all, it could make a difference when it comes to escape.

With new fire safety regulations around the corner and a renewed focus on responsible persons and coordination, Karen Trigg of Allegion UK discusses the significance of fire door hardware and why regular inspections and maintenance periods must remain high on the agenda. Fire doors and their hardware are often the first line of defense in the event of a fire. Working in tandem, they coexist as a core element of a building’s passive fire protection system, providing valuable protection and time for occupants to escape by compartmentalizing the spread of smoke and fire in an emergency. Fire door’s lifecycle In the UK alone, approximately three million fire doors are purchased and installed each year. Such is their significance to fire safety, each component requires detailed engineering, third-party testing and critically, periods of ongoing inspection and maintenance. While each stage of a fire door’s lifecycle is strictly regulated, fire door checks and maintenance falls under the remit of a building’s designated responsible person and is widely understood to be an area that has fallen under neglect. Fire Safety Regulations 2022 Fire doors and their hardware play an invaluable role in the safety of our built environment As such, in January 2023, The Fire Safety (England) Regulations 2022, under Regulation 10, made it a legal requirement for all responsible persons of multi-occupied residential buildings to conduct regular fire door checks within their premises. And while it’s said that overall inspection levels are rising, with 68% of responsible persons now conducting fire door checks (or having them inspected by professionals) every month or every quarter, there’s still work to be done says Karen Trigg of Allegion UK: “In the 12-month period ending March 2023, fire and rescue services attended 178,737 fire incidents in England, a 17% increase compared with the previous 12 months. And when you consider the portion of fire door sets that remain overlooked, the numbers don’t make for good reading. Fire doors and their hardware play an invaluable role in the safety of our built environment, but there are considerable differences between a fire door that’s operating as intended and one that hasn’t been correctly specified, installed, and maintained." Regulatory Reform Order 2005 Even durable fire door hardware can become worn and tired in a high-footfall environment" Karen Trigg added: “When it comes to maintenance specifically, Article 17 of the Regulatory Reform (Fire Safety) Order 2005, states that responsible persons must ensure fire doors and their hardware are ‘subject to a suitable system of maintenance and are maintained in an efficient state, in efficient working order and in good repair’." "Even durable fire door hardware can become worn and tired in a high-footfall environment and may need repairing or replacing over time. A damaged or ineffective self-closing device, for example, can limit the closing action of a fire door and prevent it from fully closing into the frame - rendering it useless in the event of a fire." risk assessment duties Karen Trigg added: “Although we’ve seen real development towards fire safety education in recent years, we must continue to drive forward the number of responsible persons conducting organized fire door checks and maintenance periods as part of their risk assessment duties." "The introduction of updated guidance on 1st October 2023 aims to do this further, by improving the cooperation and coordination between responsible persons and rising the requirements associated with recording and sharing fire safety information during fire risk assessments. The update will also make it easier for enforcement authorities to act against non-compliance.” A stitch in time saves lives As fire safety processes tighten, building owners and facility managers shouldn’t feel discouraged in their actions. In fact, responsible persons are reminded that there’s no need to overcomplicate fire door inspections. A simple visual assessment, conducted and recorded by a competent individual, could make the difference between compliance and a fire safety disaster. Responsible persons are reminded that there’s no need to overcomplicate fire door inspections Karen Trigg continues: “For responsible persons conducting checks, the first step of fire door safety is recognizing each component of a fire door and the potential faults to look for when evaluating its condition. The British Woodworking Federation Group - in support of Fire Door Safety Week - shares regular and reliable advice on fire door safety; including a practical five-step checklist that has been designed to support responsible persons during fire door assessments. The checklist works as a visual guide and covers the five key areas of a fire door - informing users on what to look out for, including: Certification: “A label or similar marking can often be found towards the top or side of the door and will confirm the fire door is genuine and certified. All ironmongery components, including locks, latches, closers and hinges must also be UKCA/CE marked and compatible with the door leaf’s certification.” Apertures: “More often than not, fire doors are tested as solid doors and without any glazing panels or air transfer grilles. It’s important to ensure there are no apertures, holes or breaks in the surface of the door or frame. Decision makers are also reminded that altering the door will make certification void.” Gaps and seals: “Gaps around the fire door should be no greater than 3 mm, and this must remain consistent around the whole frame. Intumescent strips must also be fitted at the top and sides of the door and show no signs of wear as this may negate the door’s ability to compartmentalize smoke and fire. Additionally, check for CE or BS EN 1935 marked hinges, which must be firmly fixed and without missing screws.” Door closers: “When it comes to door closers, it’s vital to check that your door hardware is fully functioning and will close the door onto the latch from any standing position. The door must fully engage with the frame from any opening angle, and it’s recommended that users check this by letting go of the door from 75 mm through to the closed position. It’s also important to review any hold-open devices to ensure they aren’t working against the door’s self-closing devices, as fire doors must not be wedged open in any scenario.” Operation: “Testing the operation of the full door assembly is essential - from handles and closers to hinges and seals. If the door is not operating effectively, is closing incorrectly on any of its sides, or there is any doubt about hardware certification and reliability, responsible persons must identify the problem before arranging and managing professional maintenance as soon as possible. Because when it comes to fire safety, there’s simply no time to stand still.” How Allegion UK can Help Allegion UK has a wealth of resources to help professionals undertake product selection, installation, and maintenance checks on fire doors and hardware. For post-installation and maintenance support, Allegion’s simple toolkit provides information and tips on detecting potential faulty doors and poor installation, a guide to the EN classification system and a safety checklist. There’s also an option to order a free door gap tester or download Allegion’s general guide to service and maintenance for free.

The Dingell Act, signed into law in 2019, has far-reaching implications, including effects on fire management and emergency services. Officially named the John D. Dingell, Jr. Conservation, Management, and Recreation Act, the law impacts fire professionals and their operations and fire prevention strategies. The Dingell Act is a comprehensive public lands bill that touches on various aspects of natural resource management, conservation, and recreation. Fire mitigation efforts One of the key provisions of the act deals with wildfire management, specifically addressing how federal agencies collaborate to prevent and respond to wildfires.  The act streamlines fire mitigation efforts, enhances interagency cooperation, and encourages fire prevention measures on public lands. For fire professionals, this means better coordination among federal and local fire services, access to more resources, and improved strategies to combat wildfires. How the Dingell Act Changes Fire Management The act benefits both large fire departments and smaller teams working near public lands The Dingell Act mandates that federal agencies must coordinate with local fire services to develop effective wildfire management plans. This ensures that fire professionals have a direct line to federal resources, which can drastically improve response times. Additionally, the law increases funding for fire prevention initiatives, such as clearing vegetation in high-risk areas. Fire professionals working near national parks and other public lands will find these changes beneficial, as they create more opportunities for proactive fire control. The Dingell Act strengthens fire prevention protocols by prioritizing wildfire risk mitigation in areas under federal jurisdiction. The act benefits both large fire departments and smaller teams working near public lands. Fire professionals should recognize the broad scope of the Dingell Act and understand how it enhances safety measures in their regions. Federal and Local Collaboration Interagency collaboration is one of the key components of the Dingell Act. Fire departments in areas near public lands can now work more closely with federal agencies such as the U.S. Forest Service and the Bureau of Land Management. This collaboration is not limited to wildfire response but extends to training and resource-sharing, which can empower local teams to be better prepared for large-scale fires. By building stronger partnerships, fire professionals can develop more cohesive strategies for fire mitigation and management. The Dingell Act significantly increases the resources available to fire departments, especially in high-risk areas. Through grants and federal funding, fire professionals can access better equipment, training, and personnel to tackle fire hazards. This investment in fire prevention technology, including satellite-based fire detection systems and drones, ensures that teams have the tools they need to act quickly and effectively when fires threaten communities. Environmental Considerations Dingell Act highlights the extent of balancing fire suppression with environmental protection The Dingell Act highlights the importance of balancing fire suppression with environmental preservation. Fire professionals are encouraged to integrate eco-friendly practices into their operations, such as controlled burns that reduce vegetation buildup without damaging ecosystems. Understanding the environmental impact of fire prevention measures is essential for fire professionals who manage lands rich in biodiversity. By aligning fire prevention strategies with conservation goals, professionals can contribute to both safety and sustainability. Along with the increased collaboration between federal and local agencies come more training opportunities for fire professionals than ever before. The Dingell Act opens avenues for specialized training programs that focus on wildfire management and prevention. Firefighters can take advantage of workshops, courses, and simulation-based training to improve their skills in handling large-scale fires. This professional development is especially valuable for those looking to expand their capabilities in the face of growing wildfire risks. Future Considerations Looking ahead, fire professionals should be mindful of the evolving landscape of fire prevention. The Dingell Act represents just one piece of a broader legislative push to improve fire safety in the United States. Future regulations may build on this foundation, with more emphasis on climate change, land management, and fire technology. As professionals assess their current strategies, it is important to stay informed about upcoming changes and ensure that fire prevention efforts are aligned with national standards and policies. {##Poll1728377023 - What is the most critical resource for effective wildfire management?##}

The integration of technology into the fire service has significantly enhanced operations, but it has also introduced new vulnerabilities. Cybersecurity has become a concern for fire departments, possibly impacting their ability to respond effectively to emergencies and protect communities.   Potential problems emanating from cybersecurity concerns include a disruption of a community’s emergency response system. False alarms could result from malicious computer hackers manipulating fire alarm systems, thus wasting resources, and causing potential danger for firefighters. Fire Risks From A Cyber-Attack Medical devices are connected to the IoT and are therefore vulnerable to attack Communication is another vulnerability: A cyber-attack on communication systems could hinder coordination among firefighters and with other emergency services. Potential cybersecurity targets related to the fire service include 911 systems, public safety radios, computer-aided dispatch systems, mobile data computers, and phone systems. In the EMS arena, electronic patient reporting and records management systems are at risk. Medical devices are connected to the Internet of Things (IoT) and are therefore vulnerable to attack.   Many firefighter tools are operated by computers, so equipment malfunction is a real possibility. The digital world continues to infiltrate almost every aspect of firefighting. Critical equipment, such as fire trucks and rescue tools could be compromised, resulting in longer response times. Vulnerability to Ransomware Attacks Ransomware is a pernicious type of cyber-attack, involving the use of malicious software (malware) that encrypts files, rendering them inaccessible. The attackers then demand a ransom payment in exchange for the decryption key to restore the data.  The city of Leeds, Ala., was hit by a ransomware attack in February 2018 that locked all city computers and data, including fire and police departments. A month later, Atlanta’s municipal systems were attacked, resulting in widespread outages, and disrupting city services. Impact on Data Loss and Privacy Fire units handle sensitive data, including the personal data of citizens and crisis responders In addition to operational concerns, there are also possible cybersecurity consequences relating to data loss and privacy. Fire departments handle sensitive data, including the personal information of citizens and emergency responders. A breach could lead to identity theft and reputational damage. On a more intangible level, a cyber-attack could erode public trust in the fire department's ability to protect the community. Negative publicity from a data breach can harm the fire department's image. Phishing schemes Among the cybersecurity threats are phishing schemes, which involve scammers attempting to obtain sensitive information from individuals, usually via email, by disguising themselves as trustworthy entities. Phishing can take the form of fake emails or websites that mimic legitimate businesses like banks, online retailers, or social media platforms. They lure victims by offering enticing deals, creating a sense of urgency, or claiming there's a problem with an account. Once the user clicks on a malicious link or provides personal information, the scammers can steal login credentials, credit card numbers, or other sensitive data. Top motivators of cyber-attacks Malicious files can be delivered as email attachments, which can contain viruses, ransomware, or other malware. Clicking a link in a suspicious email can redirect the user to a malicious website that can download malware or steal personal information.  One of the top motivators of cyber-attacks is to collect personally identifiable information (PII) One of the top motivators of cyber-attacks is to collect personally identifiable information (PII), which is any data that can be used to identify an individual.  This information includes name, address, phone number, social security or driver's license number, medical records, credit card or bank account numbers, and biometric data, such as fingerprints or facial images. The fire service handles a lot of PII, especially in emergency situations, including incident reports, property records, or patient information related to emergency medical services (EMS). Cyber-Criminals Have a Variety of Profiles Cyber-criminals come from a range of backgrounds and motivations. Individual hackers might be motivated by financial gain, ideology, or simply by the concept of a personal challenge. Organized crime groups might be motivated by profit, power, and/or influence. Other cyber-crime perpetrators include nation-state actors, who might be pursuing espionage, sabotage, or political influence. These threats have significant financial and technical capabilities. They include advanced persistent threats (APTs) from countries like China, Russia, and North Korea.  Cyber threats posed by 'hacktivists' So-called 'hacktivists' can be motivated by political or social causes to launch distributed denial of service (DDoS) attacks, website defacement and/or data leaks. There is also the possibility of cyber-terrorists seeking to cause mass disruption or to achieve political or ideological goals. They are capable of large-scale attacks on critical infrastructure.  Increased cyber-risks may lead to higher insurance premiums for fire departments There is a cost component of protecting against cybersecurity threats, a critical financial implication for cash-strapped fire departments. Implementing robust cybersecurity measures requires significant financial resources. At the other extreme, responding to a cyber-attack can be expensive, including legal fees, public relations, and system recovery. Increased cyber-risks may lead to higher insurance premiums for fire departments. Mitigation Strategies at a Glance Here are some mitigation strategies fire departments should consider:  Risk assessment: Identify vulnerabilities and prioritize mitigation efforts. Employee training: Educate firefighters about cybersecurity best practices. Network security: Implement strong network security measures, including firewalls and intrusion detection systems. Data protection: Regularly back up data and encrypt sensitive information. Data minimization: Collect only the personal data that is necessary, and then limit access. Incident response plan: Develop a comprehensive plan for responding to cyber-attacks. Contingency: Create a backup plan to mitigate risk and minimize loss of critical assets in the event of an attack. Compliance: Ensure adherence with relevant privacy laws such as HIPAA and GDPR. Collaboration: Work with other agencies and cybersecurity experts to share information and best practices.

To be a smart city, modern urban areas leverage technology to improve operations and services, in effect deploying a network of sensors and devices to collect data on city operations such as traffic flow, energy use, and waste management. Analyzing the data points enables cities to identify areas for improvement and additional solutions to enhance efficiency, sustainability, and quality of life. But what are the opportunities for the fire service in today’s smart cities? Smart cities enable the creation of a more dynamic and data-driven approach to fire response. Technology enables quicker fire detection, faster routing of first responders through traffic management, and proactive fire prevention strategies, among other advantages. Analyzing Risks and Planning Prevention The fire service plays a crucial role in keeping citizens safe in smart cities, and with the integration of technologies, their capabilities are expanding. For example, smart cities utilize sensor networks and Internet of Things (IoT) devices to constantly monitor buildings for temperature fluctuations or other signs of potential fire hazards. This allows fire departments to identify risks early and take preventative measures. Real-time traffic data can be used to optimize ways for fire trucks, ensuring they reach the set faster Smart technologies can improve response times by automatically alerting fire services the moment a fire breaks out. Additionally, real-time traffic data can be used to optimize routes for fire trucks, ensuring they reach the scene quicker. Firefighters in smart cities can benefit from wearable technology and sensor data to gain better awareness of the fire environment. This can include data on temperature, air quality, and even the location of fellow firefighters, all of which improve decision-making and firefighter safety. Addressing Obstacles of Traffic Congestion Traffic congestion is a major obstacle for emergency vehicles. Smart cities use sensors and data analytics to monitor traffic flow in real time. This data can be used to dynamically adjust traffic lights, prioritizing emergency vehicles, and clearing a path to the fire. Fire stations can be equipped with software that analyzes real-time traffic data and chooses the fastest route to the fire scene. This can take into account accidents, road closures, and even weather conditions to optimize the route for emergency vehicles. Lessons Learned from Historical Data Smart city data assigns fire units to analyze historical fire incidents and recall high-risk areas Smart city data empowers fire departments to analyze historical fire incidents and identify high-risk areas. This helps them deploy resources strategically and plan fire prevention efforts more effectively. Smart city data can be used to identify areas with a higher risk of fire based on factors like building age, occupancy, and historical fire incidents. This allows fire services to pre-position resources in high-risk areas or implement preventative measures in those locations, potentially leading to fewer fires overall and faster response times when they do occur. Predicting fires in a smart city is not about pinpointing the exact time and location. Rather, it is about using data and machine learning to identify areas with a high risk of fires. A key aspect of smart city fire prediction involves collecting data from various sources. This includes historical fire incident records, building codes and inspection reports, weather data, and even sensor data from cameras and Internet of Things (IoT) devices in buildings. Closer attention or preventative measures The collected data is fed into machine learning algorithms that can identify patterns and relationships between various factors that contribute to fire risk. Based on the analysis, algorithms can assign a fire risk score to different buildings or even city blocks. This allows fire services to create fire risk maps, highlighting areas that require closer attention or preventative measures. Based on the analysis, algorithms can assign a fire risk score to different buildings or even city blocks Knowing high-risk areas allows fire departments to take proactive steps. This could involve increased fire inspections in those areas, educating residents on fire safety, or even pre-positioning fire trucks or resources closer to high-risk zones during periods of high fire danger. In essence, fire services in smart cities are transforming from reactive forces to proactive guardians, leveraging technology to prevent fires, respond faster, and protect both citizens and firefighters. Smarter Systems for Earlier Detection Traditional smoke detectors are helpful in fire prevention and response, but smarter systems with Internet-of-things (IoT) sensors can detect fires earlier and with more precision. These sensors identify both smoke and factors like temperature and air quality changes, thus providing valuable details to firefighters. Additionally, these systems can automatically notify fire services the moment a fire breaks out, eliminating any delay in reporting. Here are some examples of the impact of technology on the fire service. Dryad Networks, a Berlin-based company, builds large-scale sensor networks using the Internet of Things (IoT) specifically designed for forests. Their sensors can be attached to trees and detect gases like carbon monoxide in the early stages of a fire, giving firefighters a crucial head start. Pano is a company that analyzes data from emergency calls to pinpoint the exact location of a fire Another company, OroraTech, leverages satellite technology to meticulously map large areas, identifying zones susceptible to wildfires. This information helps forest managers and firefighters focus their preventative efforts on high-risk zones. Providing a unique approach to fire detection, Pano is a company that analyzes data from emergency calls to pinpoint the exact location of a fire and sends firefighters a text message with a video feed. This helps distinguish real emergencies from false alarms and allows for a faster response. Rain, based in Alameda, Calif., is developing firefighting drones that can be automatically dispatched upon detecting a fire. These drones can reach remote areas quickly and potentially suppress the fire before it spreads, offering a faster response in hard-to-reach locations. Smart Cities: Technologies Continue to Advance It's important to remember that fire prediction is still a developing field, and new technology models are not perfect. However, by leveraging data and machine learning, smart cities can significantly improve their ability to identify areas with a higher likelihood of fires, allowing them to take preventative actions and ultimately improve public safety.

Warehouse Boundary Road Truganina enjoys prime access to major transport routes, positioning it as an ideal hub for logistics and distribution operations.  With its expansive floor space and lofty ceilings, the warehouse offers abundant room for the storage and manoeuvring of goods. In addition to its practicality, the location on Boundary Road in Truganina provides convenience for businesses seeking proximity to key suppliers and markets. Vibrant industrial community Surrounded by a vibrant industrial community and complemented by a range of supporting amenities, this warehouse space serves as a dynamic hub for businesses aiming to thrive in Melbourne’s competitive market. Passionate Fire is proud to have contributed to both fire engineering and fire protection services design, ensuring the continuity of this business while maintaining the highest standards of fire safety.

A mobile children’s heart hospital, built in El Salvador, was recently equipped with an Advanced wireless fire safety system, ensuring top protection for children undergoing heart surgery, their doctors, and staff. Run by Kinderherzen, the mission of the hospital is to ensure that children born with serious heart conditions receive the treatment they need to go on and enjoy healthy lives. Kinderherzen operates in Germany and mobilizes doctors to provide critical care for young patients in areas of the world with limited medical services.  wireless fire alarm system Working alongside fellow Halma company - Crowcon, Advanced was approached to devise a reliable fire safety system that would be easy to install, uninstall, and reinstall as the mobile hospital moved between locations across Europe.   For speed and ease of setup, Advanced’s innovative solution was to create a bespoke, wireless fire alarm system.  reduced setup time  Axis EN single-loop panel paired with a translator and 19 devices including point detectors, sounder-beacon bases At the center of the installation is an Axis EN single-loop panel paired with a translator and 19 devices, including point detectors, sounder-beacon bases, and call points covering various rooms within the hospital. The system was pre-programmed at Advanced’s headquarters in Newcastle upon Tyne (UK) and shipped to El Salvador, ready for immediate fitting to minimize on-site setup time.  easy to install Despite logistical challenges, the installation process was incredibly efficient due to the use of special mounting plates for the control panel, translators, detectors, and sounders, which reduced setup time to less than half an hour.  Speaking about the project, Paul Duffy, Technical Services Manager at Advanced, said, "We are extremely proud to support Kinderherzen in their mission to provide critical medical care to children in need." Axis EN wireless installation Paul Duffy adds, "Given the temporary nature of the hospital, the fire alarm system needed to be robust but highly versatile. The reliability and ease of use of Advanced equipment make it perfect for this unusual brief, ensuring the ideal combination of mobility, performance, and safety."   This Axis EN wireless installation ensures Kinderherzen staff can carry out their essential work with peace of mind that their team, facilities, and patients are protected by the highest standards of fire safety.  networking capacity Networks can also be combined to create very large fire systems making the Axis EN ideal Providing powerful networking capacity, the Axis EN system supports robust networks of up to 200 panels. Networks can also be combined to create very large fire systems making the Axis EN ideal for complex, large-scale installations. Whether networking high-risk sites with complicated cause and effect, remotely monitoring networked sites, or integrating with building management systems, intuitive software and panel navigation make setup straightforward.  wired and wireless detector range Axis EN is a complete fire system solution combining high-performance, addressable panels approved to EN54 Parts 2, 4, and 13 with a comprehensive wired and wireless detector range plus extensive peripheral options.  As a pioneer in the development and manufacture of intelligent fire systems, Advanced products are specified in locations around the world, from single-panel installations to large, multi-site networks. Advanced portfolio The Advanced portfolio includes complete fire detection systems, multiprotocol fire panels, extinguishing control, false alarm management, and reduction systems as well as emergency lighting. Advanced is owned by FTSE 100 company Halma PLC – a global group of life-saving technology companies with a clear purpose to grow a safer, cleaner, healthier future for everyone, every day. 

Amthal has extended its service to become an internationally trusted provider of fire protection solutions, working closely with key clients in the Oil & Gas, Data Center, Petroleum, Energy, and Battery Energy Storage System (BESS) sectors.  The UK-based fire safety and security specialist has recently completed the first of three fire & suppression pump packages for an energy project in the Middle East. The program of works involved the installation and commissioning of fire protection solutions tailored to the specific needs of the client's modular units. Stringent safety requirements  Amthal installed main and reserved water mist systems connected to a detection system Amthal installed both main and reserve water mist systems connected to a detection activation and alarm system. Watermist technology was chosen for its effectiveness in suppressing fires while minimizing water usage and collateral damage. The internal environment of the enclosure was classified as hazardous, requiring specialized equipment to ensure safety. Amthal utilized ATEX-certified equipment, including lighting and control systems, to meet the stringent safety requirements. Local safety regulations Says Dave Pountney, IPL (Amthal Group Company) Business Development Manager: “The scope of works for the project was significant in being a highly hazardous environment, where it was critical to understand the dynamics involved. Designing fire protection solutions that could be seamlessly integrated into the client's modular units while meeting strict space and weight limitations." “We worked closely with the client to address these challenges and deliver tailored fire protection solutions. Our team conducted extensive risk assessments, research and testing to select the most suitable equipment and materials for the project. We also collaborated with regulatory authorities to ensure compliance with local safety regulations.” Reliability of the fire protection systems All control and status panels were manufactured using 316 stainless steel All control and status panels were manufactured using 316 stainless steel, known for its corrosion resistance and durability. This ensured the longevity and reliability of the fire protection systems, even in harsh environmental conditions. Deane Sales, Group Sales Director at Amthal Group Companies added: “The successful completion of the first fire water pumps package demonstrates Amthal's commitment to delivering high-quality fire protection solutions. The client was impressed with the performance and reliability of the installed systems, paving the way for future collaboration on the remaining phases of the project.” Fire protection solutions  Sales added: “Amthal's expertise in designing, supplying, installing, and commissioning fire protection solutions has positioned us as a trusted partner for global clients in the energy sector." "By leveraging innovative technologies and adhering to the highest safety standards for guaranteed compliance, we ensure the total protection of assets, personnel, and the environment in critical industrial environments.”

Thermal imaging is an advantageous tool for firefighters on the frontline. As thermal cameras have become more compact and affordable, their availability has expanded, along with their usefulness. We asked our Expert Panel Roundtable: How does thermal imaging serve the needs of firefighters and how is it changing?  

New tools and technologies are emerging that augment the efforts of the fire market to prevent and fight fires. Modern firefighting is benefiting from an ongoing sea change in technological capabilities, spanning equipment, electronic components, greater connectivity and firefighter monitoring, to name just a few. We asked our Expert Panel Roundtable: What technologies will have the greatest impact on the fire industry in 2021? 

When a fire or other emergency occurs in a building or facility, first responders depend on every available resource to ensure a safe and orderly evacuation and response. One element in any response plan is the facility’s physical security systems, including access control, video surveillance and intrusion detection. How can these systems contribute to an orderly response to a chaotic situation?  We asked this week’s Expert Panel Roundtable: What is the role of security systems in the event of a fire or other emergency evacuation?