Fire damper testing is a legal requirement in the UK, but the industry faces a widespread compliance crisis. BESA inspections reveal that significant numbers of fire dampers are incorrectly installed, untested, or would fail in the event of fire. These failures compromise compartmentation, endanger lives, and expose building owners to prosecution.
Testing involves understanding the Regulatory Reform (Fire Safety) Order 2005, complying with British Standards BS EN 1366-2 and BS EN 13501-3, and meeting BS 9999:2017 frequency requirements. Building owners must ensure inspectors possess appropriate competency, maintain comprehensive Golden Thread documentation, and understand the four inspection types defined in DW 145.
DW 145, published by BESA, provides the authoritative framework for fire damper testing in the UK. This article examines the legal requirements, testing procedures, common failures, inspector competency, and compliance obligations that building owners cannot afford to ignore.
Fire damper testing is mandated under multiple pieces of UK legislation, creating enforceable obligations on building owners, employers, and facilities managers. The main regulatory framework includes the Regulatory Reform (Fire Safety) Order 2005, the Building Regulations 2010 (including Approved Document B), the Fire Safety Act 2021, and the Building Safety Act 2022.
The Regulatory Reform (Fire Safety) Order 2005 applies to England and Wales, with the Fire Safety (Scotland) Regulations 2006 serving the same purpose in Scotland. Under this legislation, the Responsible Person has a legal duty to ensure all fire safety systems, including fire dampers, remain functional and are tested at appropriate intervals. The Responsible Person is typically the employer, building owner, landlord, facilities manager, or managing agent.
The Order requires fire risk assessments to include fire dampers and other passive fire protection measures. Where fire dampers form part of the fire safety strategy, they must be maintained in efficient working order, including regular testing to verify they close correctly under fire conditions.
BS 9999:2017 provides detailed guidance supporting compliance with the Fire Safety Order. The standard states that all fire dampers must be tested by a competent person on completion of installation and at least annually thereafter. Spring-operated fire dampers require annual testing at a minimum. In dust-laden or polluted environments, more frequent inspection is required.
The Building Safety Act 2022 introduces enhanced requirements for higher-risk buildings, typically residential buildings over 18 metres or seven storeys. Accountable Persons must ensure fire damper information forms part of the Golden Thread, covering installation specifications, testing history, maintenance schedules, and inspection reports. Fire dampers are explicitly recognised as safety-critical equipment, and testing records form essential evidence of ongoing compliance.
Insurance policies may be invalidated where fire safety systems are not maintained to regulatory standards. DW 145 emphasises that testing is a fundamental duty to protect building occupants and maintain compartmentation integrity.
Fire dampers used in the UK must comply with harmonised British and European standards governing product testing, classification, and performance verification. The two most critical standards are BS EN 1366-2, which defines the fire resistance test method, and BS EN 13501-3, which establishes the classification system for test results.
BS EN 1366-2 specifies the conditions under which a damper must be tested, including duct configuration, fire exposure direction, mounting orientation, and supporting construction type. All fire dampers must be tested to this standard by a UKAS-accredited laboratory before they can be classified and CE-marked or UKCA-marked.
The test procedure subjects the damper to controlled fire conditions that replicate a real fire scenario. The damper is installed in a test wall or floor representing the compartment boundary it will protect. The assembly is exposed to fire from one side whilst instruments measure temperature rise, flame penetration, and smoke leakage on the unexposed side.
BS EN 1366-2 defines standard supporting constructions used for testing, including flexible walls, rigid walls, and floors. Fire dampers tested in these standard constructions can be applied to walls or floors of the same type with fire resistance equal to or greater than that tested. The test standard establishes critical parameters, including penetration seal type and depth, damper orientation, and fire exposure direction.
BS EN 13501-3 provides the classification system for fire resistance ratings. Once tested to BS EN 1366-2, results are classified to assign performance criteria. The classification system uses letter codes combined with time periods:
These create classifications such as E60, EI120, or ES90. The classification also specifies mounting orientation and direction of fire exposure. Matching classifications to building requirements involves multiple factors, including fire strategy, space risk, and compartment boundary type. DW 145 provides detailed guidance on selecting appropriate classifications and on interpreting test data correctly for different applications.
The frequency of fire damper testing is clearly defined in UK fire safety legislation and supporting technical standards. The minimum requirement under BS 9999:2017 is that all fire dampers must be tested by a competent person on completion of installation and thereafter at least annually.
Spring-operated fire dampers require annual testing as a minimum legal requirement. This applies to standard fire dampers with fusible links or thermal elements that operate mechanically without electrical power. Annual inspection must verify that the damper closes correctly when the fusible link is released, that there are no obstructions preventing closure, and that the penetration seal remains intact.
Motorised fire dampers with actuators must also be tested annually as a minimum. These inspections include verification of electrical connections, actuator operation, and integration with fire alarm systems. Testing must confirm that dampers respond correctly to control signals and that failsafe mechanisms operate as designed in the event of power loss.
Fire dampers in dust-laden or heavily polluted environments require more frequent testing at intervals suited to contamination levels. Examples include commercial kitchen extract systems, industrial manufacturing facilities, and areas with high levels of airborne particulates. The appropriate testing frequency must be determined by risk assessment and practical experience of contamination rates. Some installations may require quarterly or monthly inspections where dust accumulation occurs rapidly.
Testing frequency may be influenced by building type and occupancy. Higher-risk buildings under the Building Safety Act 2022 face enhanced scrutiny, and Accountable Persons may choose to implement more frequent testing to demonstrate ongoing compliance. Buildings with sleeping risk, phased evacuation strategies, or vulnerable occupants often benefit from more frequent inspection.
Some insurance policies specify testing frequencies that exceed statutory minimums. Building owners should verify their insurance requirements and ensure testing schedules meet both legal obligations and contractual commitments. DW 145 emphasises that testing frequency should be proportionate to risk and that overly extended intervals increase the likelihood of undetected failures.
DW 145 defines four distinct types of fire damper inspection, each appropriate to different stages of a building's lifecycle and varying levels of available documentation. This structured approach ensures inspections are proportionate to risk and building age whilst maintaining consistent standards.
The four inspection types are hierarchical in terms of complexity and required competency. An inspector qualified to perform Type 1 inspections possesses the skills to conduct all four types, whilst an inspector qualified only for Type 4 inspections can perform that level alone.
Type 1 compliance inspections cover pre-handover inspections of new fire dampers or first-time inspections where pre-handover verification was not undertaken. This is the most comprehensive inspection level and requires in-depth knowledge of:
Type 1 inspections verify that fire dampers have been installed in accordance with design schedules and tested installation methods. The inspection may involve invasive checks where visual inspection is inconclusive. All findings must be documented and added to the building's Golden Thread records.
Type 2 inspections apply to new-build or refurbishment projects approximately one year after completion and can only be undertaken where a Type 1 inspection report exists. Type 2 inspections are not required for existing buildings. This inspection verifies that information documented during Type 1 remains accurate and that no changes have occurred to damper installations. If no Type 1 report exists, the inspector must perform a Type 1 inspection instead.
Type 3 inspections are intended for pre-2024 buildings where little or no documentation of fire dampers exists. The inspection establishes baseline documentation for ongoing maintenance by comparing installation methods against manufacturer guidance, verifying the completeness of penetration seals, and testing damper operation. Type 3 inspections often reveal non-compliances requiring remedial action.
Type 4 inspections are routine functional tests when Type 2 or Type 3 reports already exist. This is the least comprehensive level, focusing on damper operation, condition assessment, and penetration seal integrity. Type 4 inspections form the basis of annual testing requirements for existing buildings with established maintenance records.
Fire damper testing combines visual inspection, functional testing, and documentation verification to confirm that dampers will operate correctly in the event of fire. Testing procedures vary depending on inspection type, building age, and available documentation. DW 145 provides detailed procedures for each inspection type.
Before undertaking fire damper testing, inspectors must complete risk assessments and method statements demonstrating consideration of hazards. RAMS documentation must cover:
Inspectors must prepare inspection schedules based on available documentation. For Type 1 inspections, this requires design schedules and installation photographs. Type 3 inspections require a site survey to establish baseline documentation where no previous records exist.
Visual inspection forms the foundation of all fire damper testing. Inspectors must verify that dampers are correctly positioned within compartment boundaries, that penetration seals show no signs of damage or deterioration, and that access arrangements remain unobstructed from both sides. The inspection must confirm that damper identification labels remain legible and that ductwork connections incorporate appropriate breakaway joints.
For Type 1 and Type 3 inspections, visual verification extends to comparing installed conditions against manufacturer instructions and tested installation methods. When visual inspection is inconclusive, Type 1 inspections may require invasive checks that involve partial removal of the penetration seal material.
Functional testing verifies that fire dampers close correctly when activated. For spring-operated dampers, testing involves manually releasing the fusible link whilst observing damper blade closure. The inspector must verify that blades close fully without obstruction and seal correctly. After testing, fusible links must be replaced with correctly rated components.
For motorised fire dampers, testing requires verification of:
All testing activities must be documented with photographic evidence. DW 145 provides detailed checklists ensuring inspections capture all required information in formats suitable for Building Control verification.
Fire damper testing generates substantial documentation forming part of the building's Golden Thread of fire safety information. Proper record keeping is essential for demonstrating compliance with fire safety legislation and providing continuity of information throughout the building lifecycle. The Building Safety Act 2022 has significantly increased documentation requirements, particularly for higher-risk buildings.
All fire damper inspections must produce written reports documenting findings for each damper tested. Inspection reports must include:
Inspection schedules must be prepared before testing commences, based on previous inspection reports or design documentation. For Type 1 inspections, schedules must incorporate design information and manufacturer instructions to enable compliance verification.
DW 145 emphasises that photographic evidence is essential for all inspection types. Photographs provide visual verification that inspections occurred and capture damper conditions at the time of testing. Required photographs include damper identification labels, overall installation views, penetration seals from both sides, any damage or non-compliances identified, and actuator connections.
Photographs must be dated and linked to specific asset numbers in inspection reports. They form part of the Golden Thread documentation and provide valuable evidence for Building Control and future inspection teams.
Declaration of Performance documents must be held for all fire dampers and verified during Type 1 and Type 3 inspections. DoP documents are legal declarations by manufacturers confirming products meet stated performance characteristics and comply with relevant standards. Inspectors must confirm that the DoP documents match the installed dampers and that the installation conditions align with the tested arrangements.
The Building Safety Act 2022 requires that fire safety information forms part of the Golden Thread for higher-risk buildings. Golden Thread records must be digital, readily accessible, secure with version control, and updated throughout the building lifecycle. DW 145 provides frameworks for structuring this information in formats suitable for digital retention.
Fire damper testing frequently identifies failures that compromise compartmentation and endanger building occupants. BESA has documented widespread non-compliance across the industry, with inspections revealing significant numbers of incorrectly installed dampers that would fail in the event of fire. DW 145 addresses these common failures and provides guidance on prevention strategies.
Incomplete penetration seals are among the most frequently identified failures. Penetration seals must completely fill the gap between damper frames and surrounding construction. Common seal failures include:
Penetration seal failures often result from poor workmanship during installation or subsequent building works damaging seals. Prevention requires a clear specification of seal requirements, photographic evidence during installation, and regular visual inspection to identify deterioration.
Obstructions preventing complete damper closure are discovered frequently during functional testing. Common obstructions include:
Dust accumulation is particularly problematic in commercial and industrial environments. Regular cleaning during annual inspections prevents this failure mode. Prevention of other obstructions requires coordination during installation and vigilance during subsequent building works.
Fusible links must be intact and correctly rated to ensure dampers close at appropriate temperatures. Common failures include:
Corrosion is accelerated in environments with high humidity or exposure to corrosive atmospheres such as swimming pools or road tunnels. DW 145 states that damper operation can be adversely affected by corrosion caused by water ingress or condensation. Prevention requires selecting appropriate dampers for environmental conditions and replacing them with correctly rated components during maintenance.
Inaccessible fire dampers cannot be tested or maintained in accordance with regulatory standards. Access failures occur when access panels were not installed during original construction, other services block access routes, or solid ceilings prevent damper access. DW 145 emphasises that access must be provided from both sides and that access requirements must be considered during the design stage.
The Building Safety Act 2022 and post-Grenfell regulatory environment have significantly increased focus on competency requirements for those involved in fire safety work. Fire damper inspectors must demonstrate appropriate Skills, Knowledge, Experience, and Behaviour (SKEB) to perform inspections competently and safely. DW 145 establishes a competency framework aligned with the four inspection types.
SKEB represents a comprehensive approach to competency assessment that extends beyond technical knowledge. The framework recognises that competent fire damper inspection requires:
Competency must be demonstrated for each inspection type. An inspector qualified to perform Type 1 inspections possesses the skills to conduct all four types, whilst an inspector qualified only for Type 4 inspections can perform that level alone.
Type 1 inspections require the highest level of competency. Inspectors must demonstrate in-depth knowledge of Building Regulations, fire damper design principles, space risk assessment, British Standards, manufacturer's instructions, and interpretation of the Declaration of Performance document. Type 1 inspectors must be capable of assessing compliance against design specifications and identifying non-compliances requiring remedial action.
Type 2 and Type 3 inspections require similar competency levels to Type 1, with emphasis on comparing installed conditions against documented standards. Type 3 inspectors working with older buildings must understand the best practice applicable at the time of original installation.
Type 4 inspections require functional testing competency and condition assessment capabilities. While less comprehensive than Type 1, Type 4 inspectors must understand damper operation, penetration seal integrity, and documentation requirements.
Competency must be evaluated by independent assessors and lead to certificated qualifications. Assessment is typically site-based, supported by training where necessary. BESA Academy provides training courses covering fire damper inspection aligned with DW 145 guidance and SKEB requirements.
Competency requires ongoing learning and development. Inspectors must provide evidence that they are current with regulatory changes, updated standards, and evolving best practices. The fire safety regulatory environment continues to evolve following the Building Safety Act 2022 and Grenfell Tower inquiry findings.
The Building Safety Act 2022 introduced the concept of the Golden Thread, a comprehensive digital record of building safety information that must be maintained throughout a building's lifecycle. For higher-risk buildings, fire damper information forms a critical component, providing Accountable Persons with evidence that fire safety systems have been correctly designed, installed, tested, and maintained.
The Golden Thread is defined as the information that allows someone to understand a building and keep it safe. For fire dampers, this encompasses:
The Golden Thread must be digital, accurate and up to date, secure with version control, and comprehensive enough to support competent decision-making. It is not simply a collection of documents but a connected body of information that tells the complete story of fire damper installations.
The Building Safety Act 2022 applies enhanced requirements to higher-risk buildings, typically residential buildings over 18 metres in height or seven storeys. Accountable Persons have legal duties to maintain Golden Thread information and demonstrate ongoing compliance with building safety requirements.
Accountable Persons must ensure that fire damper records are complete, accessible, and regularly updated. This includes capturing information from design and construction phases, incorporating inspection and testing records, and documenting any remedial works or modifications. Failure to maintain adequate Golden Thread records can result in enforcement action.
Golden Thread records for fire dampers must capture:
This information must be linked to specific damper asset numbers and locations, enabling inspectors to trace the complete history of individual dampers.
The Golden Thread must be maintained continuously from design through construction, commissioning, occupation, and ongoing operation. DW 145 addresses this by establishing clear documentation requirements for each phase. Building owners should establish systems that capture fire damper information from all relevant parties and ensure documentation meets regulatory requirements. The Building Safety Regulator has powers to request Golden Thread information during compliance inspections.
DW 145 represents the authoritative industry guidance for fire damper installation, testing, and inspection in the United Kingdom. Published by BESA, the document was substantially revised in November 2024 to address post-Grenfell regulatory requirements and the Building Safety Act 2022. The revision establishes comprehensive standards supporting compliance with current Building Regulations and fire safety legislation.
DW 145 provides technical guidance covering the complete lifecycle of fire damper installations from initial design through to ongoing testing and maintenance. The document addresses critical fire safety issues identified through industry experience, including widespread non-compliance discovered during annual inspections.
The guidance clarifies the crucial role of penetration seals in ensuring fire-stopping integrity and emphasises the importance of designing systems that allow easy access for maintenance. It stresses that system designers should provide schedules that include specific damper asset references for wall types, classifications, and installation methods.
DW 145 sets a quality benchmark by outlining typical installations that ease compliance with safety requirements. It establishes that each installation should be supported by photographic evidence of each stage. These measures provide peace of mind to clients whilst reducing contractors' risk exposure.
DW 145 aligns comprehensively with British and European standards governing fire damper performance:
The document also addresses statutory requirements under the Regulatory Reform (Fire Safety) Order 2005 and clients' legal obligations. This comprehensive coverage ensures that professionals working to DW 145 guidance can demonstrate compliance with both technical standards and legal requirements.
DW 145 is structured in four parts addressing distinct phases:
DW 145 is widely recognised by Building Control bodies, fire authorities, and insurance companies as the authoritative guidance for fire damper installations in the UK. Adhering to DW 145 standards demonstrates a professional approach and reduces liability exposure for contractors and building owners. The guidance provides 169 pages of comprehensive technical guidance available through the BESA website.
Regular, documented testing of fire dampers is essential for legal compliance, occupant safety, and the preservation of fire compartmentation. Following DW 145 and maintaining Golden Thread records ensures that building owners meet their statutory responsibilities.
The following resources expand on essential topics related to fire damper testing, inspection types, and regulatory compliance under DW 145. The first article introduces the role of fire dampers in passive fire protection, while others in the series explore inspection procedures, installation standards, and ongoing maintenance responsibilities.