The introduction of Gateway 2 under the Building Safety Act and the creation of the Building Safety Regulator (BSR) has fundamentally changed how fire safety systems are reviewed and approved. This is nowhere more evident than in the design of smoke ventilation systems. Gateway 2 is not a conceptual checkpoint, it is a detailed design approval stage, requiring submissions that demonstrate how a building will actually function in a fire scenario.

Who does this apply to?

The Gateway 2 regime came into force in October 2023 and applies to new higher-risk building work submitted for building control approval from that date onwards. Buildings that were already built and occupied before this point are not subject to Gateway 2. Those existing buildings instead fall under the separate in-occupation duties introduced by Part 4 of the Building Safety Act 2022, which include requirements to register with the BSR, maintain a safety case, and engage with residents on building safety matters. The detailed design and approval obligations discussed in this article are therefore a new-build and design-stage concern.

For schemes currently in design, there is also an important upcoming deadline to be aware of. From September 2026, all Gateway 2 building control approval applications that adopt BS 9991:2024 must use the 2024 edition of the standard. Any scheme still referencing BS 9991:2015 at that point will need to demonstrate why, and show that compliance with Building Regulations is still achieved. Teams currently in early design should be working to the 2024 standard now.

A people-centric shift in smoke ventilation

One of the most important changes influencing smoke ventilation design is the move toward a more people-centric approach, as reinforced by BS 9991:2024. Buildings must now be designed to support the safe evacuation of all occupants, including those with impaired mobility. This has led to the requirement for evacuation lifts and in turn fundamentally changes the role of smoke ventilation systems.

Historically, smoke ventilation focused on protecting the stair core to maintain a clear escape route and support firefighting operations. Today, that is no longer sufficient. Designers must also ensure that the evacuation lift lobby remains clear of smoke ingress so that occupants who may need to wait for assisted evacuation can do so safely. This extension of protection significantly increases the complexity of system design and performance requirements.

Limitations of traditional approaches

The recently issued Smoke Control Association (SCA) guidance on Smoke Control to Common Escape Routes in Apartment Buildings (Flats and Maisonettes) has highlighted the risks associated with certain traditional approaches. For example, naturally ventilated corridor and lift lobby arrangements (“natural–natural” systems) may introduce unintended airflow interactions that compromise protected spaces. And in the majority of cases, a “natural-natural” configuration cannot be assumed to provide adequate protection without project-specific detailed assessment.

As per BS 9991:2024, it is no longer adequate for a mechanical smoke ventilation system (MSVS) to rely on comparative CFD (Computational Fluid Dynamics) analysis to show equivalence to a natural smoke shaft system. Designs must instead demonstrate that defined performance criteria are met — such as preventing smoke from entering the evacuation lift lobby.

Early specialist involvement is essential

Given this increasing complexity, the importance of early specialist involvement cannot be overstated. Smoke ventilation systems must be developed in coordination with the fire strategy, architectural layout, and building services design. A simplistic overview of the smoke ventilation design is unlikely to meet Gateway 2 expectations and could lead to non-approval.

Another important consideration under the Building Safety Act is that smoke ventilation systems now form part of the Fire and Emergency File. This requires designers to clearly document how the system operates, including control arrangements, equipment selection, cause and effect, and any interfaces with other building systems. As a result, the design must not only perform effectively in a fire scenario but also be presented in a way that can be readily understood and used by the responsible person and attending fire and rescue services.

A fundamental shift in mindset

Ultimately, Gateway 2 requires a shift in mindset. Smoke ventilation is no longer about demonstrating compliance with guidance in principle — it is about proving that a system will perform effectively in practice, under real fire conditions. With the September 2026 deadline for mandatory adoption of BS 9991:2024 approaching, the window for schemes to align their designs is narrowing. Engaging a smoke ventilation specialist early in the design process is essential to ensure that systems are fully integrated, compliant, and capable of delivering the required performance.

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Our team can help you navigate BS 9991:2024 compliance, and the Fire and Emergency File from early design stage through to approval.


Fire safety is often associated with alarms, sprinklers, and extinguishers. A frequently overlooked yet essential component of smoke ventilation systems are the Smoke Control Dampers.

These devices are engineered to regulate the movement of smoke during a fire, allowing smoke extract and if required inlet air from a single compartment, but when closed, needs to resist the passage of fire and smoke, maintaining compartmentation. By compartmentalizing and extracting smoke, Smoke Control Dampers play a vital role in protecting occupants, enabling safe egress, firefighters access and limiting damage to property.

What Are Smoke Control Dampers and How Do They Work?

Smoke control dampers are specialised components engineered to manage the movement of smoke during a fire. Unlike standard fire dampers that merely close to block smoke from spreading through ductwork, these dampers actively open or close to direct smoke along controlled pathways. They form a critical part of engineered smoke control systems, ensuring stairwells, lobbies, corridors, and evacuation routes remain clear.

At Teal Products, our Smoke Control Dampers are designed to integrate seamlessly within advanced smoke control systems, optimising smoke management, maintaining safe egress routes, and ensuring full compliance with fire safety standards. View the video on the SV-W-D5 Smoke Damper below to find out more.

The Hidden Danger: Smoke Inhalation

It’s a common misconception that fire itself is the biggest threat during a blaze. Smoke inhalation is the leading cause of fire-related deaths, accounting for more fatalities than burns. Smoke is toxic, blinding, and fast-moving, making escape nearly impossible if it fills exit pathways.

That’s where smoke control dampers prove their worth. By containing and directing smoke, they help ensure that people can safely reach exits before conditions become deadly.

The Different Damper Types

Smoke dampers and fire dampers serve different, specific functions:

  • Fire Dampers: Automatically close when exposed to elevated temperatures, preventing flames from spreading through ductwork.
  • Fire & Smoke Dampers: Meets the same performance of the fire damper, but in addition resists the spread of smoke, by achieving a lower leakage rate.
  • Smoke Control Dampers: Operate as part of an integrated smoke management system, actively regulating airflow to block, allow, or redirect smoke, thereby maintaining tenable escape routes.

In summary, fire dampers stop fire spreading, and fire & smoke stop fire and smoke spreading and smoke control dampers can stop fire and smoke spreading but also strategically manage smoke movement to protect occupants and support safe evacuation.

Maintenance and Inspection: Staying Code-Compliant

Ensuring the functionality of smoke control dampers is critical for occupant safety and regulatory compliance. In the UK, adherence to regulations is mandatory for all buildings, particularly those classified high risk buildings (HRB).

Regulatory Framework, Standards & Guides

  • Regulatory Reform (Fire Safety) Order 2005: This legislation mandates that life-safety systems, such as smoke control systems, must be maintained and tested “as often as necessary” to prevent risks of death or serious injury in the event of a fire.
  • Fire Safety (England) Regulations 2022: Builds on the FSO, for high-rise buildings, the ‘Responsible Person’ legally must ensure that essential firefighting equipment, including smoke control systems, are checked monthly & must advise local fire and rescue services of any faults that cannot be rectified within 24 hours. Please see Fire Safety (England) Regulations 2022.
  • BS 9991:2024 & BS 9999:2017: For residential and commercial buildings respectively. Within Annex I of each of these British Standard provides guidance on Routine inspection and maintenance of fire safety installations.
  • Smoke Control Association (SCA) Guidance on Maintenance of Smoke Control Equipment: Similar to the British Standard but adding in an extensive six-month testing and maintenance. It also, gives definitions for Nominated Person, Competent Person, Competent Maintainer and Certified Organisation e.g. KIWA/IFCC SDI 19 scheme for maintenance of smoke control systems.

Maintenance Requirements Summary

Daily

  • Inspection of control panels, indicate normal operation.
  • Faults logged, appropriate action taken.

Weekly checks

  • Conduct operational tests to ensure equipment such as smoke control dampers, AOVs, and fans are functioning correctly.

Monthly inspections

  • Perform inspections of rooftop equipment, checking for debris, corrosion, wear, and signs of tampering or vermin.
  • Simulate primary power failure, testing backup power devices and batteries.

Three-monthly

  • Ensure actuation of all zones.

Six-monthly

  • More extensive testing and maintenance, run through full cause & effects.
  • If applicable, confirm flow rates, check environmental functions, check maintenance records of ATS, UPS, or back-up generator.

Annual Testing

  • Full performance check, same as six-monthly but also verification versus original design.

Documentation and Compliance

  • Maintenance Logbooks: Maintain detailed records of all inspections, tests, and maintenance activities, including dates, findings, and corrective actions taken.
  • Access and Visibility: Ensure that all dampers are easily accessible for inspection and maintenance. Obstructed or hidden dampers may not function correctly during an emergency and can lead to non-compliance.
  • Competency: Employ individuals or qualified contractors with appropriate training and certification to perform inspection and maintenance tasks, ensuring adherence to industry standards and regulations. Please see SCA Guidance on Maintenance of Smoke Control Equipment for further information.
  • Building Safety Act 2022: Introduced the legal requirement for a “Golden Thread” of information for higher-risk buildings (residential blocks >18m). Must be digital, secure, accurate, up to date, and accessible to those who need it.

Need Help with Your Smoke Control Dampers?

Since 2000, Teal Products has been providing trusted smoke ventilation solutions. From AOV windows to bespoke smoke control systems, our team can help you find the perfect solution.