Requirements for Fire Detection Systems in HMOs

What is an HMO?

HMOs are typically large houses that have been converted into flats or bedsits, such as student housing. ‘Houses in multiple occupation’ are defined by gov.uk as follows:

Your home is a house in multiple occupation (HMO) if both of the following apply:

  • at least 3 tenants live there, forming more than 1 household
  • you share toilet, bathroom or kitchen facilities with other tenants

It is important to note that the requirements for sheltered housing, such as supported living facilities, and self-catered rentals, such as holiday cottages are different, and not covered in this blog.

Kitchen facilities are often shared in HMOs
Shared kitchen spaces are a fire risk in HMOs

What grade of smoke alarm system is required for HMOs?

Within most HMOs, there are several acceptable options available for compliance with the Standard, depending on its size and configuration. 

The first option is to have Grade A fire alarm system installed throughout the building. This type of system consists of a conventional or addressable fire alarm panel, and then fire alarm detectors, call points, sounders and beacons are specified according to the layout and requirements of the property and manufactured to BS EN 54. It also requires a power supply to BS EN 54-4, and installation to BS 5839 Part 1.

However, in most cases, this level of coverage is not a requirement. In some small HMOs, for example, it may be acceptable to install a Grade D1 system. This is defined as a system incorporating one or more interlinked mains-powered smoke alarms (and heat alarms if required), each with an integral stand-by supply. They can be hardwire-interlinked or radio-interlinked, meaning that fire alarm panels are not required. The stand-by supply must be tamper-proof and last the full life of the alarm.

The final option, suitable for many medium and even large HMOs, is a mixed system. This involves the installation of Grade A components in communal areas, and any other high-risk areas identified by the risk assessment. Elsewhere in the premises, a separate Grade D1 system can be installed. This has become the preference, as it is likely to reduce the impact of nuisance alarms from individual flats on other occupants.

Ei Electronics and Kidde offer both RF and wired mains powered alarm systems as well as a range of accessories that can help you to test, locate and hush alarms easily. For more guidance about the alarm grade system, visit our help guide.

Mains Powered Smoke Alarms with Lithium Back-up Ei3000 Series
Mains Powered Smoke Alarms with Lithium Back-up Ei3000 Series
  • Available in Optical, Heat, Combined Optical & Heat, and Combined Heat & CO
  • Mains powered alarms with sealed lithium back-up battery
  • AudioLINK technology fitted as standard
  • Interlinks with up to 12 compatible devices
  • Compatible with Ei3000MRF SmartLINK Module for radio-interlinking
  • Suitable for BS 5839-6: 2019 Grade D1 installations
  • Also suitable for both the Welsh and Scottish 2022 legislation
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Fire detection categories

The coverage within the building by the detection system is divided into three distinct categories. These are described with the following codes:

LD1 (highest level of coverage): Covers all circulation spaces that form part of escape routes plus all rooms in which a fire could start

LD2 (middle level of coverage): Covers all circulation spaces that form part of escape routes plus all rooms and areas that present a high fire risk to occupants

LD3 (lowest level of coverage): Covers circulation spaces that form part of the escape routes

Diagram showing levels of fire detection systems in HMOs

Any room which a building user must pass through, from another, in order to exit the premises would need detectors installed to satisfy these Categories. For example, if all rooms in a bungalow open onto a hallway which leads outside, only the hallway is considered a circulation space forming part of the escape route; if the only exit from the kitchen is into the dining room which then opens onto a hallway, the dining room would also need a detector under LD3 minimum protection as it is part of the escape route.

What category of fire detection is required within my HMO?

Different levels of coverage are needed in different areas of the building due to the risk of fire. This includes different Grades of fire detection system, as well as different configurations of components. For example, communal areas in HMOs are required to have Grade A systems, as they have particularly high levels of risk. This is due to the shared, and therefore often neglected responsibility for safety and housekeeping in HMOs. Moreover, the exact installation requirements within your HMO will depend upon the configuration and size of the premises. For more advice for landlords about fire safety in HMO’s, visit our help guide.

Messy kitchens are a health risk, and a fire hazard.
Responsibility for housekeeping can be neglected in HMOs. This is a fire risk,

Minimum levels of requirements for fire detection systems in HMOs:

The following is general guidance on the minimum levels of installation required in different scenarios.

One or two storey HMOs, where the area of each floor is less than 200sqm:

A Grade D1, category LD1 configuration should be installed in a new, or materially altered HMO. In an existing premises of this size, category LD2 is acceptable if it is already installed, but an LD3 system must be upgraded to comply with the Standard.

Areas within HMOs with more than 3 floors, or where the area of at least one floor is greater than 200sqm

Individual, one-room dwellings, with or without cooking facilities:

A Grade D1, category LD1 configuration should be installed. This is required in a new and existing HMO premises.

Individual dwellings comprising two or more rooms:

A Grade D1, category LD2 configuration should be installed. This is required in a new and existing HMO premises.

Communal areas

A Grade A, category LD2 configuration should be installed. This is required in a new and existing HMO premises.

Suitable Fire Detection Systems in HMOs

Always ensure that a comprehensive fire risk assessment has been carried out in your property by a competent person, to determine the risks specific to your premises. This is essential to protect the occupants, particularly as many tenants of HMOs are young and / or vulnerable renters. The Responsible Person for the building may be prosecuted if they cannot demonstrate that they have made every reasonable effort to comply with fire safety requirements enforced by their local council, particularly if a fire breaks out. Compliance with the Standards is the best way to ensure that this compliance can be achieved and evidenced.  

For additional guidance, please visit our Smoke Alarm Help and Information and BS 5839 summary page.

What to do if my Carbon Monoxide alarm goes off?

CO detectors, or carbon monoxide alarms, are essential for the detection of a deadly gas, carbon monoxide (CO). This gas cannot be seen, tasted or smelt and is only detected with the use of co detectors. It is produced through the incomplete combustion of fuel, such as gas, wood, coal and oil. If your carbon monoxide alarm is going off, do not assume it is a false alarm.

What to do when your carbon monoxide alarm is going off

You should assume that there is CO present and should follow these steps to ensure your safety.

  • Stay calm, open doors and windows to increase ventilation
  • Where safe to do so, turn off any fuel-burning appliance
  • Leave the premises and notify other occupants of the potential carbon monoxide leak (you should also notify any occupant of premises adjoined to your home as CO can seep through walls and floors
  • Call Gas Emergency Services 0800 111 999 or a local Gas Safe Registered Engineer to check for the source of carbon monoxide
  • Get medical help for anyone suffering from symptoms of CO poisoning

Symptoms of carbon monoxide poisoning

The main symptoms of carbon monoxide poisoning are:

Carbon monoxide poisoning symptoms: persistent headaches

Persistent Headaches

Having persistent dull headaches and tension type headaches.

Carbon monoxide poisoning symptoms: dizziness

Dizziness

Having waves of dizziness or feeling light headed and off balance.

Carbon monoxide poisoning symptoms: nausea/vomiting

Nausea / Vomiting

Feeling like you need to be sick (nausea) and actually being sick (vomiting).

Carbon monoxide poisoning symptoms: stomach pains

Stomach Pains

Pains in your stomach or lower abdomen, sometimes accompanied by diarrhoea.

Carbon monoxide poisoning symptoms: difficulty breathing

Difficulty Breathing

Sudden shortness of breath or difficulty breathing (dyspnoea).

Carbon monoxide poisoning symptoms: tiredness

Tiredness

Having no energy or feeling tired, sleepy, lethargic and sluggish.

Carbon monoxide poisoning symptoms: sudden collapse

Sudden Collapse

Sudden collapse, seizures or loss of consciousness.

Carbon monoxide poisoning symptoms: confusion

Confusion

Confusion, difficulty concentrating and becoming easily irritated.

What causes CO detector false alarms?

A false alarm is when your CO detector alarms and where no carbon monoxide is detected by your engineer. There could be several reasons for this, which can often be easily resolved:

Cause of alarmWhat to do
The carbon monoxide detected did not come from your own appliances but may have seeped through the walls or floor from a neighbour.Check if your neighbours have fuel-burning appliances that might emit carbon monoxide. Carbon monoxide might escape from chimney stacks allowing the toxic gas to enter your premises via a joint loft space.
The replace-by date may have been exceeded.Most CO alarms are only effective for 5-10 years. Once expired, they can sound erratically, or not sound when they should, The expiry date for each unit can be found on the information sticker on the back of the unit.
Excessive moisture from a bathroom may set off your CO alarm.CO alarms can be corrupted by steam, and therefore shouldn’t be installed in bathrooms. If your CO alarm is repeatedly triggered by steam, it may become ineffective, and should be replaced.
Lead acid battery chargers produce hydrogen gas which sets off CO detectors.If you are charging your caravan or boat battery at home, this could set off your CO alarm. Once you have made sure that the alarm is false, it is safe to ignore the alarm in this scenario, but remain vigilant for other signs. If this happens often, invest in a CO alarm with a digital display to assess the level of risk when the alarm sounds.
Freshly screeded floors emit a gas that sets off carbon monoxide alarms.If your floors have just been screeded, and you have made sure that the alarm is false, it is safe to ignore the alarm in this scenario, but remain vigilant for other signs.
The carbon monoxide alarm that you have installed may not be suitable for the type of premisesFor example if it is installed in a caravan, tent, boat or living quarters of a horsebox you will need to ensure that your alarm is Kitemarked to BS EN50291-2. Alarms tested to BS EN50291-1 are only for use in home environments and are not suitable for camping and caravanning.
Smoking indoorsA heavy smoker in a poorly ventilated room the CO from smoking may trigger an alarm. It is recommended to open a window if possible to improve ventilation. If this happens often, invest in a CO alarm with a digital display to assess the level of risk when the alarm sounds.
Homes that are adjacent to very busy roads may experience higher levels of CO in the home when windows are open as traffic fumes may enter the room and set your alarm off.If this causes persistent false alarms, invest in a digital CO alarm, allowing you to see a live CO reading. You can then determine the level of risk. For example, if the reading is high, there is probably a leak. However, if it has just tipped over the threshold due to air pollution, the alarm can be ignored/silenced without having to get an engineer in to check for a leak.
The sound that your alarm is making may not be the alarm sound to alert you that there are dangerous levels of CO present.Most alarms have several audible sounds to indicate things such as low battery warning or that there is a fault with the alarm. Keep the manual safe so that you can refer to it should the alarm go off.

Buying a CO detector

You should have a carbon monoxide detector in every room where there is a solid fuel burning appliance. Only chose CO detectors that have met the rigorous testing standards of the European standard EN50291. These alarms provide peace of mind that this vital alarm has been manufactured and tested to the highest standards. Moreover, investing in a CO detector with a digital display also provides peace of mind, as it allows you to assess the situation when an alarm goes off. This is particularly useful if you have had persistent false alarms due to pollution, smoking, or other external factors, as it allows you to check the reading to assess the level of risk before calling an engineer to check for a leak.

For more information about taking a carbon monoxide detector on holiday, read our blog on this ultimate travel essential, and what to do if you detect a leak.

Kidde Carbon Monoxide Alarm - 7DCO / 7DCOC
Kidde Carbon Monoxide Alarm - 7DCO / 7DCOC
  • Product Life: 10 years
  • Battery: replaceable AA alkaline batteries included
  • Warranty: 10 year warranty
  • Displays CO levels from 10ppm
  • Peak Level Memory - recalls highest CO levels
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  • Kitemarked to BS EN50291-1 and BS EN50291-2
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If you are unsure if you have the correct carbon monoxide alarm installed our customer care team are here to help. You can call them on 0800 612 6537 or email support@safelincs.co.uk.

Angie Dewick-Eisele

Director

Angie Dewick-Eisele is co-founder of Safelincs Ltd, one of the leading fire safety providers in the UK. Angie was Marketing Manager for many years and as Director is these days responsible for Content Management.

Latest Posts by Angie Dewick-Eisele

Emergency Lighting Requirements1st August 2024
What to do if my Carbon Monoxide alarm goes off?19th March 2024
What is BAFE certification?28th March 2023

Managing False Alarms

Managing false alarms is a public safety issue. As reported by the BBC, in 2020 the Chief Fire Officer (CFO) at Lincolnshire Fire and Rescue – Les Britzman – asked business owners to take more care and responsibility in managing false alarms. Provided that there are no hazardous materials in the premises and there is no immediate risk to life or the community, the CFO stated that organisations should “have systems in place to go and check those buildings themselves” before calling 999 if a fire is discovered.

Despite this, a National Statistics report shows that FRSs in the UK attended 246,529 fire false alarms in 2023. This was a 3.1% increase on the previous year, and a 6.3% increase on figures 5 years ago. Last year (2023) saw the largest number of false alarms attended since 2011. This diverts essential resources from real emergencies and puts people at risk due to avoidable blue light journeys.

Islington Fire Station, London.
Islington Fire Station, London. The station is part of the London Fire Brigade network of emergency responders.

Further to wasting public resources, management and mitigation of false alarms ensures that time is not wasted by needless evacuations. Unnecessary evacuations may cause downtime of machinery, and potentially a loss of earnings. If false alarms are allowed to persist, occupants may become desensitized to the sound. This puts lives at risk, as in a real emergency occupants may fail to react properly.

The importance of managing false alarms

BS 5839 Part 1, the Code of Practice for design, installation, commissioning and maintenance of fire alarm systems in non-domestic premises, has a focus on managing false alarms. Therefore, managing fire alarms is recommended for organisations to demonstrate that they are acting responsibly to prevent fires.  To achieve this, the Responsible Person must ensure that all false alarms on a system are logged. Each false alarm must also be investigated for a root cause, which must be addressed. Mitigating work must be undertaken as necessary to prevent the same incident occurring again. To learn more about this Standard, see our summary of BS 5839-1: 2017.

Should a real fire occur, documentation including a record of, and mitigation work following past false alarms will be required during the investigation. The maintenance of these records is not a legal requirement. However, correct documentation can prevent prosecutions of negligence. It is also highly likely that insurers will require these records when processing a claim.

How to prevent false alarms

Preventing false alarms can be as simple as fitting flip covers to manual call points to prevent accidental activations. Indeed, this is now a recommendation in the Standard, though not a requirement. However, if a false alarm occurred because a manual call point was accidently triggered, the need to mitigate against repeat occurrences may necessitate their installation.

Fire Alarm System Testing & Maintenance
Functional testing of point smoke detectors with a Solo aerosol dispenser and access pole.

Another fundamental part of managing false alarms in existing fire alarm systems is to ensure they are maintained. This includes regular testing, inspections, and servicing. This will reduce the risks of false alarms caused by faulty or improperly installed equipment, as well as ensuring that the system is effective in an emergency.

Premises with a change of use should be professionally inspected to identify whether the existing fire alarm system remains suitable. For example, replacing optical beam detectors with a system of point heat detectors would prevent false alarms in a storage warehouse that has been converted into a factory with machinery that creates a lot of dust.

Optimising new fire alarm systems

For new fire alarm systems, during the design stage the full details of the Fire Risk Assessment, the building, and its intended / current use should be made available. This ensures that the most suitable types of detector can be selected, and positioned in the correct way. Suitable detectors in the correct locations are one of the easiest methods for managing false alarms. For example, installing an optical smoke detector near kitchens or bathrooms could result in false alarms due to steam from cooking or baths and showers.

Identifying design shortcomings is not generally the responsibility of an installer. However, the Standard does state that any issues noticed during installation – particularly those arising from features of the building that might not have been known to the designer – should be brought to the attention of the designer or Responsible Person.

Fire Risk Assessments must be kept up to date and carried out by a competent person.
Fire alarm systems should be tailored to the building. It should account for the risks identified in the building’s fire risk assessment.

False alarms put unnecessary strain on UK fire services, diverting essential resources away from real fires, and putting lives at risk. Managing false alarms is in the interest of organisations as it prevents disruption.

Safelincs provide nationwide fire alarm system servicing and maintenance contracts at competitive pricing. View our Servicing and Maintenance page or call our Servicing team on 0800 612 4827 for more information.

Daniel Bennett

Compliance and Data Analyst

Daniel is our Senior Product Manager. He has a wealth of knowledge when it comes to emergency lighting, fire alarms, smart products, and fire extinguishers.

Latest Posts by Daniel Bennett

Managing False Alarms19th March 2024

Reasonable Adjustments in Schools

According to the Equality Act 2010, schools and educational premises have a duty to make reasonable adjustments where necessary for anyone with a disability. So, what is a reasonable adjustment in schools? And, what can schools and universities do to improve access for all and meet fire safety requirements in education?

What is a reasonable adjustment?

The Equality Act 2010 tackles disability discrimination in schools and other organisations or businesses across society. It sets out a responsibility to remove barriers experienced by someone who has a disability. Anyone who has a disability should be able to receive the same service as far as possible as someone who is not disabled. What is considered a ‘reasonable’ adjustment will depend on things like the size of the organisation, and the money and resources available. It will also depend on the needs of the individuals who attend the setting.

Reasonable adjustments and fire safety in education

According to current fire safety regulations, it is the duty of the Responsible Person for the building to provide a fire safety risk assessment that considers the needs of all of its users. It should contain an emergency evacuation plan for all people likely to be on the educational premises. This includes anyone who is disabled or has additional needs. The Disability Discrimination Act 1995 (DDA) also supports these regulations.

Evacuation chairs are a reasonable adjustment
An EVAC+CHAIR can be used to safely evacuate anyone with a permanent or temporary mobility impairment in an emergency

The reasonable adjustments in schools need to meet legal requirements for disability and fire safety, and depends on what is set out in your fire risk assessment. It will also depend on the needs of the individuals who attend your school or university.

What examples are there of reasonable adjustments in schools or higher education establishments for fire safety?

A reasonable adjustment can be:

  • A change to the way things are done such as a change to a rule or policy. For example, this might involve a change to an escape route.
  • A change to a physical or architectural feature in a building or outside areas. This could include using a fire door retainer on internal fire doors to allow easier access for all or installing visual fire alarm beacons with louder audible sirens for anyone who has a hearing impairment.
  • Provision of extra services or aids. This could include providing an evacuation aid such as an evacuation chair.

The type of changes and extra aids or services will depend entirely on your circumstances and the needs of the individuals who attend your school or university. Fire safety requirements will be set out in detail in your fire risk assessment and should be implemented.

Fire door retainers and the Equality Act 2010

Fire door retainers such as Dorgard are a cost-effective and easy to install solution for improving access for all in schools and universities. Fire doors are a necessity in many buildings but can be a barrier to anyone with a mobility impairment as they are heavy to operate and difficult to manoeuvre in a wheelchair.

fire doors in education
Fire door retainers can improve access for anyone with a mobility impairment

Dorgard is certified and tested to British Standards EN1155:1997 and EN 1634. It is a legal solution for holding open fire doors. This allows easier access for everyone including any disabled users with a mobility impairment. When the fire alarm sounds in your building, Dorgard will release the fire door so that it closes and provides the usual protection. You should never wedge or prop open fire doors using an uncertified device or object. The fire doors will be unable to provide any protection if they are open when a fire starts.

Fire door retainers can be a reasonable adjustment
Dorgard Fire Door Retainers are widely used in education

The University of London’s College Hall has found Dorgard to be an effective solution to accessibility in their building.

“The Dorgard offers a low energy automatic door solution that proved to be the most cost-effective way of improving access and independence for wheelchair users.”

University of London’s College Hall

Mel Saunders

Head of Marketing

Mel joined Safelincs in 2020 and leads the content and marketing team.

Latest Posts by Mel Saunders

Maintained or Non-Maintained Emergency Lighting?7th June 2024
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Everything you need to know about cooking oil fires

According to the National Fire Protection Association (NFPA), cooking equipment is the leading cause of house fires, with unattended cooking being the primary culprit. Cooking oil fires, in particular, pose a unique challenge due to the intensity and rapid spread of the flames.

Cooking oil fires are difficult to extinguish if you don’t have the right equipment at hand. The powerful jet of some fire extinguishers could spread the oil fire. Using water to extinguisher oil fires can cause the fire to erupt violently. Therefore, it is important to have the correct equipment to tackle kitchen fires

Tackling Cooking Oil Fires at Home

How to put out a Cooking Oil Fire

Pan fires can be tackled with fire blankets and fire extinguishers. A water mist fire extinguisher is versatile, and therefore can tackle all types of kitchen fire including fires involving electrical equipment up to 1000 volts. A fire blanket is a good option for most domestic kitchens, as generally smaller amounts of oil are used. A fire blanket is placed over the pan fire to smother it and starve the fire from oxygen.

For larger deep fat fryers in your home, we would recommend a wet chemical fire extinguisher which holds a 25F rating. The wet chemical extinguisher is made specifically for tackling larger quantities of oil on fire.

Where to put a Kitchen Fire Extinguisher

In the case of cooking oil fires, having a fire extinguisher within easy reach can be a lifesaver. Mount the extinguisher in a visible and easily accessible location, away from the stove but still within close proximity to the cooking area. We recommend placing your fire extinguisher near the kitchen exit, ensuring a quick and unobstructed path to safety. Avoid placing it too close to potential fire hazards, such as curtains or wooden cabinets.

Tackling Cooking Oil Fires at Work

If you work in a commercial kitchen with deep fat fryers, a wet chemical kitchen fire extinguisher is usually recommended. Wet chemical fire extinguishers are specifically designed to put out cooking oil fires and therefore should be kept in kitchens for commercial use. The wet chemical fire extinguisher forms a foam blanket on top of the oil which stops the supply of oxygen, therefore extinguishing the fire. Fire blankets are also a useful addition in a commercial kitchen as they can be used on pan fires, cooking oil fires, waste basket fires and also clothing fires.

What to do in a Kitchen Fire

  • Stay calm
  • Turn off the heat source (if possible)
  • If the fire is not too big, use your fire extinguisher or fire blanket to try and extinguish the fire 
  • Call emergency services
  • Move anything else that could catch fire away from the burning oil if you can
  • Make sure children and pets do not come near the fire
A man cooking starts a cooking fire.

How can Cooking Oil Fires be Prevented?

To avoid cooking oil fires, never leave cooking unattended and pay attention to cooking pans and deep fat fryers at all times, especially when cooking with oil. Keep the area clean from grease buildup, as accumulated grease can be a potential fuel source for fires. In the event of a small grease fire, never use water to extinguish it. Instead, cover the pan with a fire blanket or use a fire extinguisher for kitchen fires. By adopting these preventive measures, you can significantly reduce the likelihood of cooking oil fires and enhance the overall safety of your kitchen.

For further advice on fire prevention in your home, complete the Home Fire Safety Check. Get personalised tips and a fire safety action plan to help you and your family to stay safe.

Why are fire drills important?

Conducting regular fire drills in the workplace is essential in order to practice for a safe evacuation during a fire. Fire drills go beyond compliance with regulations; they are the heartbeat of safety culture within organisations. Not only do they ensure that all staff, customers and visitors to your premises understand what they need to do if there is a fire, but they also help you to test how effective your fire evacuation procedure is.

What is a fire drill?

A fire drill is an organised procedure to simulate the steps you should take in the event of a fire. Its primary function is to ensure that all individuals in the building are familiar with escape routes, emergency exits and safety protocols. A fire drill educates and prepares occupants for a swift evacuation in the event of a real fire. A fire drill usually involves sounding the alarm system, evacuation to designated assembly points and coordination with emergency responders.

Regularly practicing fire drills enhances your readiness and response in the event of a real fire, which contribute to a safer environment for everyone involved.

Life or death

Imagine a fire starts. The company does not conduct regular fire drills. Everyone is panicking and doesn’t know what to do as part of the fire evacuation procedure. However, an organisation or even a household that conducts regular fire drills remains calm. Instinct kicks in from the fire drill practice to follow the fire evacuation procedure. This can be the difference between life and death.

Why should I do fire drills?

  • Be prepared in the event of a fire
  • Familiarity with evacuation routes
  • Test emergency systems
  • Calm response in the event of a fire
  • Identify weaknesses in fire evacuation procedure
  • Builds a ‘safety-first’ culture
  • Strive for continuous improvement 
  • Comply with regulations

‘You need to train new staff when they start work and tell all employees about any new fire risks.

You should carry out at least one fire drill per year and record the results. You must keep the results as part of your fire safety and evacuation plan.’ GOV UK

Testing Safety Equipment

Your fire drill not only gives people a routine to ensure their safety, it also gives you the opportunity to make sure essential fire safety equipment is in working order. Fire safety equipment includes alarm systems, fire door retainers, emergency lighting and evacuation equipment. In the event of a real emergency, all fire safety equipment must be working to evacuate timely and to prevent the spread of fire.

If, while undergoing a fire drill, you find that your fire safety equipment isn’t working; get it fixed or replaced as soon as possible to give your business the best chance of being protected.

How often should you do fire drills?

Yearly fire drills are a legal requirement for all businesses. However, Health and Safety Executive (HSE) recommends having a few fire drills each year to enhance safety measures and better prepare for potential emergencies. While the minimum legal standard is an annual fire drill, more frequent exercises, such as quarterly or semi-annual drills, can significantly improve the effectiveness of emergency response plans.

Fire Drill Roles & Responsibilities

Designating key roles to individuals during your fire drills helps streamline the evacuation. Fire Wardens oversee the evacuation process and check designated areas, while Evacuation Marshals are responsible for guiding people to safety. Someone should also be assigned to account for all individuals at the assembly points to ensure that everyone has safely evacuated the building. Clearly defining roles and responsibilities in advance ensures confidence in individuals that there is a well-coordinated plan in place.