1. Ingeniería

Last updated: 05 Feb 2015
VOLUME 2 LIST OF APPROVED PRODUCTS AND SERVICES
Foreword by the United Arab Emirates (UAE) Acting Commander in Chief, Major
General Rashid Thani Al Matrooshi
As the dynamic environment in our Region progresses, we the UAE Civil Defence Authority, has set forth a
number of strategic goals for the delivery of public safety. Our strategic goals observe both the national and
Ministry of Interior’s strategic plan by;
“Providing an effective firefighting and emergency response system delivered by qualified and well trained
people using the latest technologies to ensure lives and properties are safeguarded”
As a result, the UAE can be ‘benchmarked’ with other Countries that are witnessing a decline in fires and
incidents when compared to the density of population. As an example, the number of fire incidents has been
reduced by 39% in 2011 compared to 2010, with a marked reduction in small and medium fire incidents,
together with a high percentage achievement of a 9 minute response time for first attendance at incidents.
“Providing excellent performance and support during disasters and crises”
Confirmation of performance and support are achieved during disasters and crisis situations. Civil Defence
Departments conduct a range of joint fire safety and evacuation drills in association with other safety agencies
for both the public and private sectors. Evacuation drills carried out in Dubai during 2011 was estimated at
356 drills, which targeted 178,530 persons. Customer satisfaction percentage achieved was 97.2%. The
number of drills carried out has increased by 142.4% compared to the target number set out in our annual
plan.
“Spreading a fire safety and awareness culture across the community “
In this regard, a National Safety campaign was launched targeting ‘domestic safety’ with an achieved target of
50% of homes in UAE being visited during a six month period. This was aimed at preventive awareness and
removing violations which threaten public safety. During the campaign, 206,490 houses (61.4% of the total
dwellings) were visited, again with a marked customer satisfaction percentage of 92%.
Similarly a National Safety campaign was also executed at industrial areas, with teams visiting industrial
facilities at different industrial areas across the country. 31,647 facilities were inspected. The teams also
managed to correct violation situations in 13,400 facilities and 53,426 people were trained in the basic skills of
firefighting and awareness.
“Equipping operations with the best and appropriate equipment and technologies”
The latest state of the art technologies have been introduced for various services such as, ‘e-engineering’ for
online drawing approval and the ’24 x 7 smart system’ for building electronic monitoring and protection.
Currently 61.7% of buildings are connected to the system and 95.7% surveyed for connection.
In addition, the ‘UAE Fire and Life Safety Code of Practice’ with our Standard Operating Procedures (SOPs) is
considered a first in the region. This will contribute to reduced costs and effort. Ultimately this will result in a
decrease in accidents and improve command and control mechanisms.
“Achieving Strategic Partnership with Public/Private and Voluntary Organizations”
By ensuring, through careful selection, that products, systems and installers are approved with a listing by
Civil Defence, following rigorous third party certification. This ensures that locally we receive the best
performance of fire safety products, systems and technologies.
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05 Feb 2015
VOLUME 2 LIST OF APPROVED PRODUCTS AND SERVICES
LPCB is widely recognised as an independent reference for all fire and security safety experts. Their testing
laboratories and approvals services together with their leading team of highly qualified expert scientists and
engineers, guides us all impeccably towards a qualified framework.
Major General Rashid Thani Al Matrooshi
Introduction
BRE Global Ltd, based in the UK near London, is an independent third party organisation offering certification
of fire, security and sustainability products and services to an international market. LPCB is the certification
brand used for fire and security products and services. The LPCB mark is accepted worldwide. We have
representative offices in China, India and Malaysia. We are owned by the BRE Trust, a not-for-profit
organisation.
LPCB listings can be accessed, free of charge, at www.redbooklive.com or via apps from Apple, Google and
Windows.
BRE Global Ltd is also a Notified Certification Body and Notified Test Laboratory for:



Construction Products Regulation
Pressure Equipment Directive
Marine Equipment Directive
Transport Pressure Equipment Directive
BRE Global additionally carries out:





Fire Investigation
Fire Risk Assessment
Fire Safety Engineering
Research
Training
05 Feb 2015
iii
VOLUME 2 LIST OF APPROVED PRODUCTS AND SERVICES
LPCB Listings
Listings are given in sections which list related groups of products and services such as suppression, security
and so on. Each section also summarises the technical basis for the certification of each product or service.
The Red Book listings should always be used in conjunction with rules, regulations and design specifications
required by the relevant Authority having jurisdiction.
2015 Listings comprise:
Volume 1:
 Fire detection and alarm products, systems, and cables
 Manual fire extinguishing equipment
 Automatic sprinkler, water spray and deluge systems
 Fixed fire fighting products and systems
 Related installers
Volume 2: (This Volume)
 Passive fire protection products
 Security protection products
 Fire doors and shutters
 Smoke and fire ventilation systems
 Related installers
 Management Systems
 Construction products
Listings are given in the name of the manufacturer or service provider, in alphabetical order. They can be
downloaded free of charge from our website at www.redbooklive.com and also via an App that is available
free from Apple iStore (for iPhone and iPad), from Google Play, (for Android phones and tablets) and
Windows Store (for Windows 8 phones).
Updates
Certification of products and services are updated regularly. To ensure that you are using the most up to date
information please refer to <<www.redbooklive.com>> or download the App.
What is Third Party Certification?
A frequent concern of stakeholders is in knowing whether a product will perform in accordance with the stated
specifications. These concerns can involve such product attributes as safety, health or environmental impacts,
durability, compatibility, suitability for intended purposes or for stated conditions, and other similar
considerations. These issues can all be addressed through product certification.
Third party certification is a conformity assessment process, carried out by a body that is independent of both
supplier and customer organisations. It provides confirmation that products and services have met and will
continue to meet the requirements of specified standards and other normative documents.
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05 Feb 2015
VOLUME 2 LIST OF APPROVED PRODUCTS AND SERVICES
LPCB third party product certification schemes are quality assurance schemes and comprise initial type
testing and technical evaluation, assessment and surveillance of the manufacturer’s quality system and
factory production procedures, regular audit testing, labelling and listing.
Similarly, LPCB schemes for suppliers of services (installers) are also quality assurance schemes comprising
a technical assessment of an installer’s capability, assessment and surveillance of the installer’s quality
system and production procedures, regular inspection of completed installations and listing.
Benefits of Third Party Certification
For specifiers, regulators, insurers, manufacturers and installers, the benefits of an LPCB approval are:
For specifiers and regulators:
 Risk reduction - specifying LPCB approved products and services demonstrates due-diligence and
best endeavour and mitigates against possible accusations of negligence.
 Avoidance of costly mistakes - you can trust LPCB approved products and services to conform each
and every time.
 Time - using Red Book Live to search for and assess products and services can save you time.
For manufacturers and installers:
 Increased global sales - LPCB approval is recognised and specified widely throughout the world. In
some territories LPCB approval is a mandatory requirement.
 Added value of the product or service - LPCB approved products and services are recognised as
providing added value given their ability to conform each and every time.
 Reduced liability - LPCB approved products and services demonstrate due-diligence which can
reduce liability for both you and your customers.
What does LPCB Certification offer?
LPCB certification is carried out against Loss Prevention Standards (LPS’s). These LPS’s include reference to
BS, EN or ISO standards as appropriate. LPCB certification are level 5 schemes as detailed in ISO/ IEC
17067 with the added requirement to have a quality system certificated to ISO 9001.
The technical requirements of LPCB schemes are given in the Loss Prevention Standards (LPSs). These
documents are drafted by LPCB technical experts in conjunction with appropriate external experts. They are
then peer reviewed by representatives from trade bodies, regulators, insurers, specifiers, manufacturers and
other suppliers. Finally these documents are approved for use by the BRE Global Governing Body; the Body
that oversees all of the certification activities of BRE Global.
Product schemes comprise:
 Initial type testing and evaluation of product.
 Approval and surveillance of the manufacturer’s (or supplier’s) quality management system to ISO
9001
 Assessment and surveillance of the manufacturer’s (or supplier) factory production control system
(FPC).
 Periodic audit testing of the product from either the factory or marketplace.
 Labelling or marking as appropriate.
 Listing on Red Book Live
05 Feb 2015
v
VOLUME 2 LIST OF APPROVED PRODUCTS AND SERVICES
Installer schemes comprise:
 Technical assessment of the installation contractor’s capability.
 Approval and surveillance of the contractor’s quality management system to ISO 9001 or assessment
against the requirements of the relevant Loss Prevention Standard where ISO 9001 is not
appropriate.
 Regular surveillance inspections of on-going installations.
 The issue of Certificates of Conformity by the installer to demonstrate compliance for each installation.
 Listing in the Red Book.
The LPCB Mark - the Mark you can trust
After certification of a product or service the manufacturer or service provider may place the LPCB certification
mark, as shown below, on the product, packaging and literature etc.
Where LPCB holds accreditation through the United Kingdom Accreditation Service (UKAS), the certified
company may include the UKAS symbol (the Crown and Tick) alongside the LPCB mark for certain
applications e.g. promotional literature or material and stationery, as shown below.
(Full details of LPCB accreditation can be found on the UKAS website at www.ukas.com)
Where for reasons of space or cost the use of the above full mark is not practical, then the following simplified
mark may be applied directly to the product (for some schemes only). The LPCB scheme rules define how
and where the marks can be used.
The products listed in Volume 2: Part 5 - Construction Products, are approved under our BRE Global
Certification brand - the certification mark for this brand is changing.
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05 Feb 2015
VOLUME 2 LIST OF APPROVED PRODUCTS AND SERVICES
To this
from
(discontinued for new certificates
from 1 January 2014)
A transition period of up to three years is being allowed for the change and the ‘old’ mark remains valid where
the certificate was issued before 1 January 2014.
05 Feb 2015
vii
CONTENTS
3 Smoke and fire ventilation systems
SECTION 1 Fire dampers
SECTION 2 Fire resistant ducts
SECTION 3 Smoke curtains
SECTION 4 Powered smoke and heat exhaust ventilation
SECTION 5 Grease filters used in commercial kitchen extract systems
viii
1
3
17
27
28
33
05 Feb 2015
INDEX
A
Actionair
Arabian Thermal Aire Industries Company Ltd
B
BSB Engineering Services Limited
E
Elta Fans Limited
F
Fenland Fire Contracts Limited
05 Feb 2015
3
11
11
28
Fire Protection Limited
Firespray International Limited
Flameshield Products Limited
H
Halton Foodservice Limited
R
Rockwool Limited
18
20
21
33
23
17
ix
Part
3
SMOKE AND FIRE
VENTILATION SYSTEMS
PART 3: SMOKE AND FIRE VENTILATION SYSTEMS
INTRODUCTION
Fire ventilation systems are installed to:
 Keep escape and access routes free from smoke.
 Facilitate fire fighting operations by creating a smoke free layer.
 Delay and/or prevent flashover and the subsequent full development of the fire.
 Protect equipment, furnishings, contents, etc.
 Reduce the thermal effects on structural components during a fire.
 Reduce damage caused by thermal decomposition of products and hot gases.
The key components of smoke and fire ventilation systems, i.e. fire dampers, ductwork, smoke curtains and
powered smoke and heat exhaust ventilation fans, are listed in this section.
Their functions are:
Fire dampers:
 To maintain compartmentation where air distribution ducts pass through compartment walls and
floors.
LPCB approves fire dampers to LPS 1162: Requirements for the approval of fire dampers.
Fire resistant ductwork:
 To maintain compartmentation when air distribution ducts pass through compartment walls and floors
and where fire resisting dampers are not used to provide the compartmentation.
 To achieve the same fire resistance in terms of integrity and, if required, insulation as required for the
compartment walls or floors.
LPCB approves fire resistant ductwork to BS 476: Part 24 Fire tests on building materials and structures:
Method for determination of the fire resistance of ventilation ducts.
Smoke curtains:
 To create a smoke reservoir by containing and limiting the travel of smoke.
 To channel smoke in a predetermined direction.
 To prevent or retard smoke entry to another area or void.
LPCB approves Smoke curtains to LPS 1182: Requirements for the approval of fixed fabric smoke curtains,
fixed metal smoke curtains and powered smoke curtains.
Powered smoke and heat exhaust ventilation fans:
 To channel heat and smoke in a predetermined direction.
 To prevent smoke logging of the protected space.
Powered smoke and heat exhaust ventilation fans are approved in accordance with EN 12101-3 Smoke and
heat control systems. Part 3 Specification for powered smoke and heat exhaust ventilation.
Grease filters used in commercial kitchen extract systems:
 To reduce flammable and volatile grease droplets from the cooking exhaust of commercial cooking
equipment.
LPCB categorises and approves grease filters in accordance with the requirements of LPS 1263:
Requirements for the approval and listing of the fire performance of grease filters used in commercial kitchen
extract systems.
2
05 Feb 2015
PART 3: SECTION 1
FIRE DAMPERS
Fire dampers are installed:
To maintain compartmentation where air distribution ducts pass through compartment walls and floors.
To achieve the same fire resistance in terms of integrity as required for compartment walls or floors.
To close completely as soon as a fire is detected.



All the fire resistant dampers listed in Section 1 of this part of the list have been tested and assessed against
the requirements of LPS 1162 Requirements and tests for the LPCB approval of fire dampers.
Actionair
Ruskin Air Management, Joseph Wilson Industrial Estate, South Street, Whitstable, Kent CT5 3DU, United
Kingdom
Tel: +44 (0)1227 276100 • Fax: +44 (0)1227 264262
E-mail: [email protected] • Website: www.actionair.co.uk
Certificate No: 017a to LPS 1162: Issue 4
Product
Name
Model /
Installation
frame
Maximum
Duct size
Width
(mm)
Maximum
Duct size
Height
(mm)
Maximum
Duct size
Diameter
(mm)
Approved Installation /
Construction
Fire
Shield
I/F damper
horizontally
mounted
1250
1000
-
I/F damper
vertically
mounted
1250
1000
-
Concrete Floor.
Ref - AA10701 Mounted
using a HEVAC/HVCA
frame in a 150mm thick
reinforced aerated
concrete floor. Builders
ties located at 500mm
centres around the frame,
are bent outwards and
wired to 10mm- diameter
stud anchors driven into
the reveal the 15 - 60mm
gap between the frame
and reveal is filled with
mortar or concrete.
Masonry/concrete Wall.
Ref - AA/F10703
Mounted using a
HEVAC/HVCA frame in a
150mm thick
masonry/concrete wall.
Builders ties located at
400mm centres around
the frame, 15 - 60mm gap
between the frame and
reveal. The ties are bent
outwards and mortared
into 50mm-deep pockets
cut into the wall.
05 Feb 2015
BS EN
1366-2
Fire
Performance
(min)
Integrity /
Insulation /
Leakage
240 / 0 / 0
LPS
1162
Class
(Note 1)
LPCB
Ref.
No.
Standard
017a/01
240 / 0 / 0
Standard
3
PART 3: SECTION 1
FIRE DAMPERS
Product
Name
4
Model /
Installation
frame
Maximum
Duct size
Width
(mm)
Maximum
Duct size
Height
(mm)
Maximum
Duct size
Diameter
(mm)
Approved Installation /
Construction
I/F damper
vertically
mounted
1250
1000
-
DWFX-F
damper
vertically
mounted
1250
1000
-
+ Flange
damper
vertically
mounted
1250
1000
-
DWFX-C
damper
vertically
mounted
1250
1000
-
Masonry/concrete Wall.
Ref - AA/F10703
Mounted using a
HEVAC/HVCA frame in a
150mm thick
masonry/concrete wall.
Builders ties located at
400mm centres around
the frame, 15 - 60mm gap
between the frame and
reveal. The ties are bent
outward and mortared
into the gap
Drywall Partition.
Ref - AA/F10705
Mounted using 2 x 10mm
Ø threaded drop rods
attached to the damper
via steel cleats welded to
the top corners of the
DWFX-F Flange (75mm
wide x 1.2mm thick)
which is tack welded to
the damper casing in a
steel stud partition
120mm to 200mm thick.
(see note 3)
Masonry/concrete Wall.
Ref - AA/F10707REV2
mounted in a
masonry/concrete wall
minimum 150mm thick,
the Flange (75mm wide x
1.2mm thick) which is
tack welded to the
damper casing is fixed to
the face of the wall the
gap (25mm max)
between the aperture and
damper casing is filled
with Rockwool and held in
place with an angle flange
to the inside of the reveal
or Z flange to the face of
the wall.
Drywall Partition.
Ref - AA/F10709
mounted using 2 x 10mm
Ø threaded steel drop
rods attached to angle
section cleats welded to
the top sides of the
damper casing in a
plasterboard partition min
100mm max 200mm (see
note 4)
BS EN
1366-2
Fire
Performance
(min)
Integrity /
Insulation /
Leakage
120 / 0 / 0
Standard
120 / 0 / 0
Standard
120 / 0 / 0
Standard
120 / 0 / 0
Standard
LPS
1162
Class
(Note 1)
LPCB
Ref.
No.
05 Feb 2015
PART 3: SECTION 1
FIRE DAMPERS
Product
Name
Model /
Installation
frame
Maximum
Duct size
Width
(mm)
Maximum
Duct size
Height
(mm)
Maximum
Duct size
Diameter
(mm)
Approved Installation /
Construction
S&A
damper
vertically
mounted
1250
1000
-
S&A
damper
vertically
mounted
1250
1000
-
S&A
damper
vertically
mounted
1250
1000
-
S&A
damper
vertically
mounted
1250
1000
-
Drywall Partition.
Ref - AA/F10711 Infill up
to 675mm mounted using
2 x 10mm Ø threaded
steel drop rods to the
damper via steel cleats
welded to a flange (75mm
wide x 1.2mm thick)
which is tack welded to
the damper casing in a
Rockwool Ablative
Coated Batt within a
plaster board partition
100mm thick (see notes 5
and 6)
Masonry/concrete Wall.
Ref - AA/F10713 Infill up
to 675mm mounted using
2 x 10mm Ø threaded
steel drop rods to the
damper via steel cleats
welded to a flange (75mm
wide x 1.2mm thick)
which is tack welded to
the damper casing in a
Rockwool Ablative
Coated Batt within a
masonry/concrete wall
(see note 6)
Drywall Partition.
Ref - AA/F10715
mounted using 2 x
100mm Ø threaded steel
drop rods to a flange
(75mm wide x 1.2mm
thick) which is tack
welded to the damper
casing in a plasterboard
partition Stone mineral
wool (60 - 100kg/m³) is
fitted around the damper
on the opposite face to
the flange, prior to a steel
installation angle being
riveted to the duct. (see
note 7)
Masonry/concrete Wall.
Ref - AA/F10717
mounted using 2 x 10mm
Ø threaded steel cleats
welded to a flange (75mm
wide x 1.2mm thick)
which is tack welded to
the damper casing in a
masonry / concrete wall.
Stone mineral wool (80 100kg/m³) is fitted around
the damper on the
opposite face to the
flange, prior to a steel
installation angle being
riveted to the duct.
05 Feb 2015
BS EN
1366-2
Fire
Performance
(min)
Integrity /
Insulation /
Leakage
120 / 0 / 0
Standard
120 / 0 / 0
Standard
120 / 0 / 0
Standard
120 / 0 / 0
Standard
LPS
1162
Class
(Note 1)
LPCB
Ref.
No.
5
PART 3: SECTION 1
FIRE DAMPERS
Product
Name
Model /
Installation
frame
Maximum
Duct size
Width
(mm)
Maximum
Duct size
Height
(mm)
Maximum
Duct size
Diameter
(mm)
Approved Installation /
Construction
Smoke
Shield
PTC
I/F damper
horizontally
mounted
1000
1000
-
I/F damper
vertically
mounted
1000
1000
-
I/F damper
vertically
mounted
1000
1000
-
DWFX-F
damper
vertically
mounted
1000
1000
-
Concrete Floor.
Ref - AA/F10700
Mounted using a
HEVAC/HVCA frame in a
150mm thick reinforced
aerated concrete floor.
Builders ties located at
500mm centres around
the frame, are bent
outwards and wired to
10mm- diameter stud
anchors driven into the
reveal the 15 - 60mm gap
between the frame and
reveal is filled with mortar
or concrete.
Masonry/concrete Wall.
Ref - AA/F10702
Mounted using a
HEVAC/HVCA frame in a
150mm thick
masonry/concrete wall.
Builders ties located at
400mm centres around
the frame. 15 - 60mm gap
between the frame and
reveal. The ties are bent
outwards and mortared
into 50mm-deep pockets
cut into the wall.
Masonry/concrete Wall.
Ref - AA/F10702
Mounted using a
HEVAC/HVCA frame in a
150mm thick
masonry/concrete wall.
Builders ties located at
400mm centres around
the frame. 15 - 60mm gap
between the frame and
reveal the ties are bent
outwards and mortared
into the gap
Drywall Partition.
Ref - AA/F10704
Mounted using 2 x 10mm
Ø threaded drop rods
attached to the damper
via steel cleats welded to
the top corners of the
DWFX-F Flange (75mm
wide x 1.2mm thick)
which is tack welded to
the damper casing in a
steel stud partition
120mm to 200mm thick.
(see note 3)
6
BS EN
1366-2
Fire
Performance
(min)
Integrity /
Insulation /
Leakage
240 / 0 / 120
LPS
1162
Class
(Note 1)
LPCB
Ref.
No.
Standard
017a/04
240 / 0 / 120
Standard
120 / 0 / 120
Standard
120 / 0 / 120
Standard
05 Feb 2015
PART 3: SECTION 1
FIRE DAMPERS
Product
Name
Model /
Installation
frame
Maximum
Duct size
Width
(mm)
Maximum
Duct size
Height
(mm)
Maximum
Duct size
Diameter
(mm)
Approved Installation /
Construction
+ Flange
damper
vertically
mounted
1000
1000
-
DWFX-C
1000
1000
-
S&A
damper
vertically
mounted
1000
1000
-
S&A
damper
vertically
mounted
1000
1000
-
Masonry/concrete Wall.
Ref - AA/F10706REV 2
mounted in a masonry /
concrete wall minimum
150mm thick, the Flange
(75mm wide x 1.2mm
thick) which is tack
welded to the damper
casing is fixed to the face
of the wall the gap (25mm
max) between the
aperture and damper
casing is filled with
Rockwool and held in
place with an angle flange
to the inside of the reveal
or Z flange to the face of
the wall.
Drywall Partition.
Ref - AA/F10708
mounted using 2 x 10mm
Ø threaded steel drop
rods attached to angle
section cleats welded to
the top sides of the
damper casing in a
plasterboard partition min
100mm max 200mm.
(see note 4)
Drywall Partition.
Ref - AA/F10710 Infill up
to 675mm mounted using
2 x 10mm Ø threaded
steel drop rods to the
damper via steel cleats
welded to a flange (75mm
wide x 1.2mm thick)
which is tack welded to
the damper casing in a
Rockwool Ablative
Coated Batt within a
plaster board partition
100mm thick. (see notes
5 and 6)
Masonry/concrete Wall.
Ref - AA/F10712 Infill up
to 675mm mounted using
2 x 10mm Ø threaded
steel drop rods to the
damper via steel cleats
welded to a flange (75mm
wide x 1.2mm thick)
which is tack welded to
the damper casing in a
Rockwool Ablative
Coated Batt within a
masonry/concrete wall
(see note 6)
05 Feb 2015
BS EN
1366-2
Fire
Performance
(min)
Integrity /
Insulation /
Leakage
120 / 0 / 120
Standard
120 / 0 / 120
Standard
120 / 0 / 120
Standard
120 / 0 / 120
Standard
LPS
1162
Class
(Note 1)
LPCB
Ref.
No.
7
PART 3: SECTION 1
FIRE DAMPERS
Product
Name
CSS Circular
Smoke
Shield
8
Model /
Installation
frame
Maximum
Duct size
Width
(mm)
Maximum
Duct size
Height
(mm)
Maximum
Duct size
Diameter
(mm)
Approved Installation /
Construction
S&A
damper
vertically
mounted
1000
1000
-
S&A
damper
vertically
mounted
1000
1000
-
Damper
Horizontally
Mounted
-
-
355
Drywall Partition
Ref - AA/F10714
mounted using 2 x 10mm
Ø threaded steel drop
rods to the damper via
steel cleats welded to a
flange (75mm wide x
1.2mm thick) which is
tack welded to the
damper casing in
plasterboard partition.
Stone mineral wool ( 60 10kg/m³ is fitted around
the damper on the
opposite face to the
flange, prior to a steel
installation angle being
riveted. to the duct (see
note 7)
Masonry/concrete Wall.
Ref - AA/F10716
mounted using 2 x 10mm
Ø threaded steel drop
rods to the damper via
steel cleats welded to a
flange (75mm wide x
1.2mm thick) which is
tack welded to the
damper casing in a
masonry / concrete wall.
Stone mineral wool (60 100kg/m³) is fitted around
the damper on the
opposite face to the
flange, prior to a steel
installation angle being
riveted to the duct.
Concrete Floor.
Ref - AA/F10719
mounted in a concrete
floor min 100mm thick
using a square
flange/frame (two
sections) and assembled
in situ using M5 tapit
screws where the
sections overlap each
other. The flange on the
upper surface is fixed
using drywall screws,
corner voids around the
damper casing within the
thickness of the floor are
packed with compressed
stone wool (nominal
density 28 kg/m³) prior to
fixing the lower
installation frame, which
is fixed in a similar
manner using HA50
Loden anchors. The
nominal gap between the
edge of the aperture and
the damper casing should
be 5mm.
BS EN
1366-2
Fire
Performance
(min)
Integrity /
Insulation /
Leakage
120 / 0 / 120
Standard
120 / 0 / 120
Standard
120 / 0 / 120
Standard
LPS
1162
Class
(Note 1)
LPCB
Ref.
No.
017a/05
05 Feb 2015
PART 3: SECTION 1
FIRE DAMPERS
Product
Name
Model /
Installation
frame
Maximum
Duct size
Width
(mm)
Maximum
Duct size
Height
(mm)
Maximum
Duct size
Diameter
(mm)
Approved Installation /
Construction
Damper
vertically
installed
-
-
355
Damper
vertically
installed
-
-
355
Drywall Partition.
Ref - AA/F10718
mounted in a
plasterboard partition
(min 100mm max
200mm) using a square
flange/frame (two
sections) and assemble in
situ using M5 tapit screws
where the sections
overlap each other. The
flanges are fixed to the
stud and track sections
around the perimeter of
the aperture using drywall
screws, corner voids
around the damper
casing within the
thickness of the aperture
are packed with
compressed stone wool
(nominal density
35kg/m³). The nominal
gap between the edge of
the aperture and the
damper casing should be
5mm. (see note 8)
Masonry/concrete Wall.
Ref - AA/F10720
mounted in a masonry /
concrete wall (min
100mm thick) using a
square flange/frame (two
sections) and assembled
in situ using M5 tapit
screws where the
sections overlap each
other. The flanges are
fixed to the wall around
the parameter of the
aperture using M5 steel
anchors, corner voids
around the damper
casing within the
thickness of the aperture
are tacked with
compressed stone wool
(nominal density
35kg/m³). The nominal
gap between the edge of
the aperture and the
damper casing should be
5mm.
05 Feb 2015
BS EN
1366-2
Fire
Performance
(min)
Integrity /
Insulation /
Leakage
120 / 0 / 120
Standard
120 / 0 / 120
Standard
LPS
1162
Class
(Note 1)
LPCB
Ref.
No.
9
PART 3: SECTION 1
FIRE DAMPERS
Product
Name
Model /
Installation
frame
Maximum
Duct size
Width
(mm)
Maximum
Duct size
Height
(mm)
Maximum
Duct size
Diameter
(mm)
Approved Installation /
Construction
CCS Circular
Smoke
Shield
Damper
vertically
installed
-
-
355
CSS Circular
Smoke
Shield
Damper
vertically
installed
-
-
355
Drywall Partition.
Ref - AA/F10721 Infill up
to 675mm mounted using
2 x 10mm Ø threaded
steel drop rods to the
damper via steel cleats
welded to a flange which
is a square flange/frame
(two sections) and
assembled in situ using
M5 tapit screws where
the sections overlap each
other in a Rockwool
Ablative Coated Batt
within a plaster board
partition 100mm thick.
(See notes 9 and 10)
Masonry/concrete Wall.
Ref - AA/F10722 Infill up
to 875mm mounted using
2 x 10mm Ø threaded
steel drop rods to the
damper via steel cleats
welded to a flange which
is a square flange/frame
(two sections) and
assemble in situ using M5
tapit screws where the
sections overlap each
other in Rockwool
Ablative Coated Batt
within a masonry /
concrete wall. (see note
10)
BS EN
1366-2
Fire
Performance
(min)
Integrity /
Insulation /
Leakage
120 / 0 / 120
Standard
120 / 0 / 120
Standard
LPS
1162
Class
(Note 1)
LPCB
Ref.
No.
Notes;
1. See LPS1162 Issue 4, Table 1.
2. LPCB ref 017a//01 and 017a/04 damper casing and blades are manufactured from Stainless steel with the casing
manufactured from galvanised steel.
LPCB ref 017a/05 damper casing and blades are manufactured from galvanised steel.
3. The partition comprised a steel framework of steel studs insulated with a layer of Rockwool RW5 (minimum density
100kg/m³) insulation slab and clad on each face with two layers of 12.5mm-thick Type F plasterboard. With the aperture
framed using stud and track with the web of the section set flush with the cut edges of the board, the framed aperture was
then lined with one layer of 12.5mm-thick Type F plasterboard. The gap between the perimeter of the damper casing and
the sides of the aperture should be no greater than 15mm wide along the top, bottom and non drive side, 40mm along the
drive side. The gap is packed with Rockwool RW5 stone mineral wool and covered with a Type F plasterboard pattress
overlapping the edge of the partition by minimum 65mm.
4. The partition comprised a steel framework of steel studs insulated with a layer of Rocksilk RS33 (minimum density
33kg/m³) insulation slab and clad on each face with two layers of 12.5mm-thick Type F plasterboard. With the aperture
framed using stud and track with the web of the section set flush with the cut edges of the board, the framed aperture was
then lined with one layer of 12.5mm-thick Type F plasterboard. The gap between the vertical sides of the damper casing
and the sides of the aperture should be no greater than 50mm wide. The gap is packed with stone mineral wool (minimum
density 33kg/m³) the top and bottom of the damper casing fits flush with the aperture and is sealed with a bead of
intumescent mastic to each side. A Type F plasterboard pattress overlapping the edge of the partition by minimum 75mm
is then fixed to both sides of the partition.
5. The partition comprised a steel framework of steel studs insulated with a layer of Rockwool RW3 (minimum density
60kg/m³) insulation slab and clad on each face with two layers of 12.5mm-thick Type F plasterboard. With the aperture
framed using stud and track with the web of the section set flush with the cut edges of the board, the framed aperture was
then lined with two layers of 12.5mm-thick Type F plasterboard.
6. The Ablative Coated Batt is constructed by fitting the batt in the aperture with the longest edges orientated horizontally.
The batts are glued into the opening and to each other using FirePro glue. The interface between the batts and the
supporting construction is sealed with a 15mm bead of acoustic intumescent sealant. Following installation of the batts, a
coat of Rockwool Ablative coating is applied over both sides of the completed seal. The batts should be cut to size so that
they fit against the damper casing on all four sides and they rest against the flange which is tack welded to one face of the
10
05 Feb 2015
PART 3: SECTION 1
FIRE DAMPERS
7.
8.
9.
10.
damper casing. A 20mm-thick pattress of Rockwool Ablative Coated batt is fitted around the damper on the opposite face
to the flange, prior to a steel installation angle being riveted to the duct.
The partition comprised a steel framework of steel studs insulated with a layer of Rockwool RW5 (minimum density
100kg/m³) insulation slab and clad on each face with two layers of 12.5mm-thick Type F plasterboard. With the aperture
framed using stud and track with the web of the section set flush with the cut edges of the board, the framed aperture was
then lined with one layer of 12.5mm-thick Type F plasterboard. Stone mineral wool (60 - 100kg/m³) is fitted around the
damper on the opposite face to the flange, prior to a steel installation angle being riveted to the duct.
The partition comprised a steel framework of steel studs insulated with a layer of Stone mineral wool (minimum density
38kg/m³) insulation slab and clad on each face with two layers of 12.5mm-thick Type F plasterboard. With the aperture
framed using stud and track with the web of the section set flush with the cut edges of the board, the framed aperture was
then lined with one layer of 12.5mm-thick Type F plasterboard.
The partition comprised a steel framework of steel studs insulated with a layer of Stone mineral wool (minimum density
100kg/m³) insulation slab and clad on each face with two layers of 12.5mm-thick Type F plasterboard. With the aperture
framed using stud and track with the web of the section set flush with the cut edges of the board, the framed aperture was
then lined with two layers of 12.5mm-thick Type F plasterboard.
The Ablative Coated Batt is constructed by fitting the batt in the aperture with the longest edges orientated horizontally.
The batts are glued into the opening and to each other using FirePro glue. The interface between the batts and the
supporting construction is sealed with a 15mm bead of acoustic intumescent sealant. Following installation of the batts, a
coat of Rockwool Ablative coating is applied over both sides of the completed seal.
To view the applicable drawing, please click on the product name in the entry on www.RedBookLive.com
Arabian Thermal Aire Industries Company Ltd
Al-Jubail Industrial City, Tareeg # 118, Al-Sinaiyah-31961, Kingdom of Saudi Arabia
Tel: +966 3 341 5857
E-mail: [email protected] • Website: www.ataico.com
Certificate No: 699a to LPS 1162: Issue 3
Product Name
Max
Duct
Size:
width
(mm)
1250
Max
Duct
size:
diameter
(mm)
-
ISO
10294
Fire
Resistance
Integrity
(min)2
Fire
Resistance
Insulation
(min)
Durability
Standard1
Corrosion
Marine
Test
Cyclic
LPCB
Ref. No.
WFA
Max
Duct
Size:
height
(mm)
1000
-
Satisfactory
Not tested
1000
-
-
-
Satisfactory
Not tested
Not
tested
Not
tested
699a/01
1000
Horizontal
plane - 240
Horizontal
plane - 240
-
WGDB
LPS
1162
Class
(see
note 1)
LPCB
Ref.
No.
Standard
828a/03
Series
ATAI-Waterloo
galvanized steel shutter
ATAI-Waterloo
galvanized steel
smoke/fire damper
699a/02
Notes:
1. Standard LPS1162 requirement for normal use.
2. Mounted in a steel deck assembly.
BSB Engineering Services Limited
Unit 56, Trinity Trade Centre, Mill Way, Sittingbourne, Kent ME10 2PD, United Kingdom
Tel: +44 (0)1795 422609 • Fax: +44 (0)1795 429543
E-mail: [email protected] • Website: www.bsb-dampers.co.uk
Certificate No: 828a to LPS 1162: Issue 4
Product
Name
Model /
Installation
frame
Maximum
Duct size
Width
(mm)
Maximum
Duct size
Height
(mm)
Maximum
Duct size
Diameter
(mm)
Approved
Installation/Construction
FSD-TD
S, C & O /
Horizontal
plane HF
1200
1200
1200
Ref FSD-TD M1-r4
Mounted using a
HEVAC/HVAC frame in a
200mm-thick reinforced
aerated concrete floor of
minimum nominal density
580kg/m 3
05 Feb 2015
EN 1366-2
Fire
performance
(min)
Integrity/
Insulation/
Leakage
240 / 0 / 240
11
PART 3: SECTION 1
FIRE DAMPERS
Product
Name
Model /
Installation
frame
Maximum
Duct size
Width
(mm)
Maximum
Duct size
Height
(mm)
Maximum
Duct size
Diameter
(mm)
Approved
Installation/Construction
S, C & O /
Vertical
plane HF
1000
1000
1000
S, C & O /
Vertical
plane SA
1000
1000
1000
S, C & O /
Vertical
plane BF
1000
1000
1000
Ref. FSD-TD M2-r4 Mounted using
HEVAC/HVAC frame into
an aperture in minimum
150mm-thick lightweight
aerated block wall of
minimum nominal density
650kg/m 3
Ref FSD-TD M3-r4
Mounted using a sleeve &
angles method in a min
100mm max 200mm thick
blockwork wall of minimum
nominal density 650kg/m 3
(See Note 4)
Infill up to 600mm Ref
FSD-TD M4A-r4 Mounted
using 2 x 10mm Ø
threaded steel studs, 1
either side of the damper
casing fixed to steel cleats
welded to the top & bottom
of the damper casing in a
Firetherm Intubatt 1 fire
barrier partition.
EN 1366-2
Fire
performance
(min)
Integrity/
Insulation/
Leakage
240 / 0 / 240
Standard
120 / 0 / 120
Standard
120 / 0 / 120
Standard
LPS
1162
Class
(see
note 1)
LPCB
Ref.
No.
(See Note 5)
S, C & O /
Vertical
plane BF
1000
1000
1000
Infill greater than 600mm
Ref FSD-TD M4B-r4
mounted using 2x 10mm
Ø threaded steel studs, 1
either side of the damper
casing fixed to steel cleats
welded to the top & bottom
of the damper casing in a
Firetherm Intubatt 1 fire
barrier partition.
120 / 0 / 120
Standard
S, C & O /
Vertical
plane SA
1000
1000
1000
Ref FSD-TD M5-r5
mounted using a sleeve
and angles method in a
min 100mm max 200mm
thick steel stud partition.
120 / 0 / 120
Standard
Ref FSD-TD M6-r4
Mounted using 2 x 10mm
Ø threaded steel studs, 1
either side of the damper
casing fixed to steel cleats
welded to the top & bottom
of the damper casing in a
steel stud partition within
an opening in a masonry
wall minimum 100mm
thick & of minimum
nominal density 650kg/m3.
120 / 0 / 120
Standard
(See Note 5 & 6)
(See Note 7)
S, C & O /
Vertical
plane CL
1000
1000
1000
(See Note 7)
12
05 Feb 2015
PART 3: SECTION 1
FIRE DAMPERS
Product
Name
Model /
Installation
frame
Maximum
Duct size
Width
(mm)
Maximum
Duct size
Height
(mm)
Maximum
Duct size
Diameter
(mm)
Approved
Installation/Construction
S, C & O /
Vertical
plane BF
1000
1000
1000
Infill up to 600mm
Ref.FSD-TD M7A-r4
mounted using 2 x 10mm
Ø threaded steel studs, 1
either side of the damper
casing fixed to steel cleats
welded to the top & bottom
of the damper casing in a
Firetherm Intubatt 1 fire
barrier partition within an
opening in a steel stud
partition minimum 140mm
thick.
FSDTD
S, C & O /
Vertical
plane BF
1000
1000
1000
FSD-TD
S, C & O /
Vertical
plane BF
1000
1000
1000
EN 1366-2
Fire
performance
(min)
Integrity/
Insulation/
Leakage
120 / 0 / 120
Standard
Infill greater than 600mm
Ref. FSD-TD M7B-r4
mounted using 2 x 10mm
Ø threaded steel studs, 1
either side of the damper
casing fixed to steel cleats
welded to the top & bottom
of the damper casing in a
Firetherm Intubatt 1 fire
barrier partition within an
opening in a steel stud
partition minimum 140mm
thick.
120 / 0 / 120
Standard
Infill greater than 600mm
Ref FSD-TD M8-r5
mounted using 2 x 10mm
Ø threaded steel studs, 1
either side of the damper
casing fixed to steel cleats
welded to the top & bottom
of the damper casing in a
Firetherm Intubatt 1 fire
barrier partition within an
opening in a masonry wall
minimum 100mm thick &
of minimum nominal
density 650kg/m3.
120 / 0 / 120
Standard
LPS
1162
Class
(see
note 1)
LPCB
Ref.
No.
(See Note 5 & 7)
(See Note 5, 6 & 7)
(See Note 5 & 6)
S, C & O /
Vertical
plane AF
1200
1200
1200
Ref. FSD-TD M9-r5
mounted using an angle
frame in a min 100mm max 200mm thick steel
stud partition.
120 / 0 / 120
Standard
A, B, I, C &
O / Vertical
plane HF
1200
1000
1000
Ref FD M1-r1 mounted
using a HEVAC/HVAC
frame in a minimum
150mm-thick reinforced
aerated concrete floor of
minimum nominal density
580kg/m 3.
240 / 0 / 0
Standard
A, B, I, C &
O / Vertical
plane HF
1200
1000
1000
Ref FD M2-r1 mounted
using HEVAC/HVAC
frame into an aperture in
minimum 150mm-thick
lightweight aerated block
wall of minimum nominal
density 650kg/m 3.
240 / 0 / 0
Standard
(See Note 8)
FD
05 Feb 2015
828a/04
13
PART 3: SECTION 1
FIRE DAMPERS
Product
Name
Model /
Installation
frame
Maximum
Duct size
Width
(mm)
Maximum
Duct size
Height
(mm)
Maximum
Duct size
Diameter
(mm)
Approved
Installation/Construction
A, B, I, C &
O / Vertical
plane SA
1200
1000
1000
A, B, I, C &
O / Vertical
plane BF
1200
1000
1000
Ref FD M3-r1 mounted
using a sleeve & angles
method in a min 100mm max 200mm thick
blockwork wall of minimum
nominal density 650kg/m 3.
(See Note 4)
Infill up to 600mm Ref FD
M4A-r1 mounted using 2 x
10mm Ø threaded steel
studs, 1 either side of the
damper casing fixed to
steel cleats welded to the
top & bottom of the
damper casing in a
Firetherm Intubatt 1 fire
barrier partition.
A, B, I, C &
O / Vertical
plane BF
1200
1000
1000
A, B, I, C &
O / Vertical
plane SA
1200
1000
A, B, I, C &
O / Vertical
plane CL
1200
A, B, I, C &
O / Vertical
plane BF
1200
EN 1366-2
Fire
performance
(min)
Integrity/
Insulation/
Leakage
120 / 0 / 0
Standard
120 / 0 / 0
Standard
Infill greater than 600mm
Ref FD M4B-r1 mounted
using 2 x 10mm Ø
threaded steel studs, 1
either side of the damper
casing fixed to steel cleats
welded to the top & bottom
of the damper casing in a
Firetherm Intubatt 1 fire
barrier partition.
120 / 0 / 0
Standard
1000
Ref FD M5-r1 mounted
using a sleeve and angles
method in a min 100mmmax 200mm thick steel
stud partition.
120 / 0 / 0
Standard
1000
1000
Ref FD M6-r1
mounted using 2 x 10mm
Ø threaded steel studs, 1
either side of the damper
casing fixed to steel cleats
welded to the top & bottom
of the damper casing in a
steel stud partition within
an opening in a masonry
wall minimum 100mm
thick & of minimum
nominal density 650kg/m3.
120 / 0 / 0
Standard
1000
1000
Infill up to 600mm Ref FD
M7A-r1 mounted using 2
x 10mm Ø threaded steel
studs, 1 either side of the
damper casing fixed to
steel cleats welded to the
top & bottom of the
damper casing in a
Firetherm Intubatt 1 fire
barrier partition within an
opening in a steel stud
partition minimum 140mm
thick.
120 / 0 / 0
Standard
LPS
1162
Class
(see
note 1)
LPCB
Ref.
No.
(See Note 5)
(See Note 5 & 6)
(See Note 4 & 7)
(See Note 7)
(See Note 5 & 7)
14
05 Feb 2015
PART 3: SECTION 1
FIRE DAMPERS
Product
Name
Model /
Installation
frame
Maximum
Duct size
Width
(mm)
Maximum
Duct size
Height
(mm)
Maximum
Duct size
Diameter
(mm)
Approved
Installation/Construction
A, B, I, C &
O / Vertical
plane BF
1200
1000
1000
Infill greater than 600mm
Ref FD M7B-r1
mounted using 2 x 10mm
Ø threaded steel studs, 1
either side of the damper
casing fixed to steel cleats
welded to the top & bottom
of the damper casing in a
Firetherm Intubatt 1 fire
barrier partition within an
opening in a steel stud
partition minimum 140mm
thick.
A, B, I, C &
O / Vertical
plane BF
1200
1000
1000
A, B, I, C &
O / Vertical
plane AF
1200
1000
1000
EN 1366-2
Fire
performance
(min)
Integrity/
Insulation/
Leakage
120 / 0 / 0
Standard
Infill greater than 600mm
Ref FD M8-r1 mounted
using 2 x 10mm Ø
threaded steel studs, 1
either side of the damper
casing fixed to steel cleats
welded to the top & bottom
of the damper casing in a
Firetherm Intubatt 1 fire
barrier partition within an
opening in a masonry wall
minimum 100mm thick &
of minimum nominal
density 650kg/m3.
120 / 0 / 0
Standard
Ref. FD M9 mounted
using an angle frame in a
min 100mm - max 200mm
thick steel stud partition.
120 / 0 / 0
Standard
LPS
1162
Class
(see
note 1)
LPCB
Ref.
No.
(See Note 5, 6 & 7)
(See Note 5 & 6)
(See Note 8)
Notes:
1. See LPS 1162: Issue 4. Table 1
2. LPCB Ref No. 828a/04 approval covers FD dampers constructed from galvanised steel only.
3.. LPCB Ref No. 828a/03, approval covers FSD-TD dampers constructed from a galvanised steel casing with stainless steel blades,
with the exception of the FSD-TD-AF damper which has galvanised steel casing with galvanised blades.
4. The sleeve protrudes from each face of the wall by at least 20mm. The continuous external angles (minimum 40mm x 40mm) are
riveted to the sleeve on both sides of the wall at maximum 150mm centres. Similar internal angles secure the sleeve to the damper
casing.
5. The Firetherm Intubatt 1 fire barrier system comprises of 2 layers of 50mm-thick Firetherm Intubatt 1 (minimum density 180kg/m³)
seperated by a cavity of 40mm and factory coated on both faces with a 1mm-thick coating of ablative mastic. The perimeter of the
coated batts is retained within galvanised steel angles, 50mm x 50mm x 2m, secured at maximum 300mm centres. The junctions
between the damper and the coated batt are pattressed on both sides of the barrier with strips of Firetherm Intubatt 1, 50mm thick x
150mm wide, which are secured by bedding on a layer of Intucoat mastic and fixing with steel pig-tail screws at maximum 200mm
centres. Maximum distance between the damper and the reveal of the wall opening is 600mm.
6. A perimeter frame work of steel angles 50mm x 50mm x 2mm is secured on each side of the opening between the damper and the
reveal of the wall at 300mm centres. Steel angles are then fixed back-to-back at 300mm centres to form T-sections, which are then
fixed around the damper to form a frame, of which its sides are no more than 600mm from the damper. The T-section from is
secured to the perimeter frame using a series of T-sections positioned at maximum 600mm centres in one direction and 1200mm
centres in the other direction. For barriers where the distance between the top of the damper and the top of the barrier is greater than
1.5m, a deflection head detial is required. The maximum distance between the damper and the wall or floor must not exceed 3m.
7. The Partition comprised of a steel framework of 50mm studs clad on each face with two layers of 12.5mm-thick Firecheck GTEC
plasterboard, with the voids between the studs insulated with one layer of 25mm-thick Knauf Acoustic Partition Roll (minimum density
19.5kg/m³) with the aperture to be lined with one layer of 12.5mm-thick Firecheck GTEC plasterboard. The dry fit sleeve & angle
system comprises of a 1.2mm-thick top hat section damper casing and 300mm long sleeves with 40mm x 40mm angle type frame
work riveted to the sleeve using 4.8mm Ø steel rivets, centrally positioned within the aperture to act as a carrier frame.
8. The Partition comprised of a steel framework, of 50mm studs clad on each face with two layers of 12.5mm-thick Firecheck GTEC
plasterboard, with the voids between the studs insulated with one layer of 50mm-thick Rockwool Flexi Slab (minimum density
35kg/m³), with the aperture to be lined with one layer of 12.5mm-thick Firecheck GTEC plasterboard. The angle frame comprises of a
steel angle formed from 1.2mm steel and is secured to one side of the damper casing using stitch welds 6-10mm long, at nominal
150mm centres. The leg of the angle fixed to the damper casing is 35mm long. The other leg of the angle must be long enough to
overlap the partition and be secured at nominal 300mm centres. On the other side of the partition the damper is pattressed on all four
05 Feb 2015
15
PART 3: SECTION 1
FIRE DAMPERS
sides using one or more layers of 12.5mm-thick Firecheck GTEC plasterboard cover strips which must overlap the partition by at least
65mm. The cover strips are secured using suitable screws at 300mm centres. A bead of fire/acoustic sealant must be applied
between the edges of each pattress and the spigot & between each pattress and the spigot & between each pattress and the face of
the partition.
To view the applicable drawing, please click on the product name in the entry on www.RedBookLive.com
16
05 Feb 2015
PART 3: SECTION 2
FIRE RESISTANT DUCTS
Fire resistant ductwork is installed:


To maintain compartmentation when air distribution ducts pass through compartment walls and floors
where fire resisting dampers are not used to provide the compartmentation
To achieve the same fire resistance in terms of integrity, and if required insulation, as required for the
compartment walls or floors.
All the fire resistant ducts listed in Section 2 of this part of the list have been tested and assessed against the
requirements of BS 476:Part 24 Fire tests on building materials and structures: Method for determination of
the fire resistance of ventilation ducts.
Certification is limited to the applications and fire resistances given.
Fenland Fire Contracts Limited
Unit 1, Someries Farm, Someries, Near Luton, Bedfordshire LU2 9PL, United Kingdom
Tel: +44 (0)1582 723979 • Fax: +44 (0)1582 723980
E-mail: [email protected] • Website: www.ffcducting.co.uk
Certificate No: 1176a to SD198 / BS 476: Part 24
Fire Resistant Ducts
Product
Name
Duct Type
Condition
Type / density
of insulation
Fire
Resistance/
Stability)
240
Fire
Resistance
LPCB
Ref. No.
None
Insulation
thickness
(mm)
-
Fenland Fire
Rated
Ductwork
Ventilation,
Smoke extract or
Kitchen extract
Ventilation,
Smoke extract or
Kitchen extract
Ventilation,
Smoke extract or
Kitchen extract
Ventilation,
Smoke extract or
Kitchen extract
Ventilation and
Smoke extract
Fire outside
-
1176a/01
Fire inside
and outside
None
-
240
-
Fire outside
None
-
120
-
Fire inside
and outside
None
-
120
-
Fire outside
Stone mineral
wool/160kg/m³
30
240
30
Ventilation and
Smoke extract
Fire outside
Stone mineral
wool/160kg/m³
40
240
60
Ventilation and
Smoke extract
Fire outside
Stone mineral
wool/160kg/m³
45
240
90
Ventilation and
Smoke extract
Fire outside
Stone mineral
wool/160kg/m³
50
240
120
Ventilation and
Smoke extract
Fire ouside
Stone mineral
wool/160kg/m³
30
120
30
Ventilation and
Smoke extract
Fire outside
Stone mineral
wool/160kg/m³
40
120
60
Ventilation and
Smoke extract
Fire outside
Stone mineral
wool/160kg/m³
45
120
90
Ventilation and
Smoke extract
Ventilation and
Smoke extract
Fire outside
Stone mineral
wool/160kg/m³
Stone mineral
wool/160kg/m³
50
120
120
40
240
30
05 Feb 2015
Fire inside
and outside
1176a/02
17
PART 3: SECTION 2
FIRE RESISTANT DUCTS
Product
Name
Duct Type
Condition
Type / density
of insulation
Ventilation and
Smoke extract
Ventilation and
Smoke extract
Ventilation and
Smoke extract
Ventilation and
Smoke extract
Ventilation and
Smoke extract
Ventilation and
Smoke extract
Ventilation and
Smoke extract
Kitchen extract
Fire inside
and outside
Fire inside
and outside
Fire inside
and outside
Fire inside
and outside
Fire inside
and outside
Fire inside
and outside
Fire inside
and outside
Fire outside
Kitchen extract
Fire outside
Kitchen extract
Fire outside
Kitchen extract
Fire outside
Kitchen extract
Fire outside
Kitchen extract
Fire outside
Stone mineral
wool/160kg/m³
Stone mineral
wool/160kg/m³
Stone mineral
wool/160kg/m³
Stone mineral
wool/160kg/m³
Stone mineral
wool/160kg/m³
Stone mineral
wool/160kg/m³
Stone mineral
wool/160kg/m³
Stone mineral
wool/160kg/m³
Stone mineral
wool/160kg/m³
Stone mineral
wool/160kg/m³
Stone mineral
wool/160kg/m³
Stone mineral
wool/160kg/m³
Stone mineral
wool/160kg/m³
Insulation
thickness
(mm)
55
Fire
Resistance/
Stability)
240
Fire
Resistance
70
240
90
90
240
120
40
120
30
55
120
60
70
120
90
90
120
120
45
120
30
90
120
60
135
120
90
45
240
30
90
240
60
135
240
90
LPCB
Ref. No.
60
Notes:
1
LPCB Ref. No’s 1176a/01 and 1176a/02 - Uninsulated and insulated ductwork systems to be manufactured and installed to the
specification and tables as detailed in BRE Global Assessment Report CC258339 issue 2 dated 04 October 2010.
2. LPCB Ref. No’s 1176a/01 and 1176a/02 - The maximum allowable duct sizes are, rectangular ductwork up to 3000mm wide and
2500mm deep, flat oval ductwork up to 1700mm wide x 400mm deep (3.83m2 surface area per metre length) and circular ductwork
up to 1250mm diameter
Fire Protection Limited
Flamebar House, South Road, Templefields, Harlow, Essex CM20 2AR, United Kingdom
Tel: +44 (0)1279 634 230 • Fax: +44 (0)1279 634 231
E-mail: [email protected] • Website: www.fireprotection.co.uk
Certificate No: 277a to BS 476: Part 24
Product Name
Duct Type
Condition
Type of
Insulation
(kg/m3)
Insulation
Thickness
(mm)
Flamebar BW11
Ventilation
Ventilation
Ventilation
Ventilation
Ventilation
Ventilation
Ventilation
Ventilation
Ventilation
Ventilation
Ventilation
Ventilation
Ventilation
Ventilation
Ventilation
Ventilation
Ventilation
Ventilation
Ventilation
Fire outside
Fire outside
Fire outside
Fire outside
Fire outside
Fire outside
Fire outside
Fire outside
Fire outside
Fire outside
Fire outside
Fire outside
Fire outside
Fire outside
Fire inside
Fire inside
Fire inside
Fire inside
Fire inside
45
45
60
60
60
105
105
105
60
105
105
105
45
45
60
25
60
40
50
120
50
80
50
120
80
120
100**
25
60
50
18
Fire
Resistance
Integrity / Stability
(min)
120
240
120
120
120
120
120
120
120
240
240
240
240
240
120
240
120
120
120
Fire
Resistance
Insulation
(min)
15
15
60
60
90
118
120
120
120
208
240
240
240
240
30
30
45
LPCB Ref. No.
277a/01
05 Feb 2015
PART 3: SECTION 2
FIRE RESISTANT DUCTS
Product Name
Duct Type
Condition
Type of
Insulation
(kg/m3)
Insulation
Thickness
(mm)
Ventilation
Ventilation
Ventilation
Ventilation
Ventilation
Ventilation
Ventilation
Ventilation
Ventilation
Smoke outlet
Smoke outlet
Smoke outlet
Smoke outlet
Smoke outlet
Smoke outlet
Smoke outlet
Smoke outlet
Smoke outlet
Smoke outlet
Smoke outlet
Smoke outlet
Smoke outlet
Smoke outlet
Smoke outlet
Smoke outlet
Smoke outlet
Smoke outlet
Smoke outlet
Smoke outlet
Smoke outlet
Smoke outlet
Smoke outlet
Smoke outlet
Smoke outlet
Smoke outlet
Smoke outlet
Smoke outlet
Kitchen extract
Kitchen extract
Kitchen extract
Kitchen extract
Kitchen extract
Kitchen extract
Kitchen extract
Kitchen extract
Kitchen extract
Kitchen extract
Kitchen extract
Kitchen extract
Kitchen extract
Kitchen extract
Kitchen extract
Kitchen extract
Kitchen extract
Kitchen extract
Kitchen extract
Kitchen extract
Kitchen extract
Kitchen extract
Kitchen extract
Kitchen extract
Kitchen extract
Kitchen extract
Kitchen extract
Fire inside
Fire inside
Fire inside
Fire inside
Fire inside
Fire inside
Fire inside
Fire inside
Fire inside
Fire outside
Fire outside
Fire outside
Fire outside
Fire outside
Fire outside
Fire outside
Fire outside
Fire outside
Fire outside
Fire outside
Fire outside
Fire outside
Fire outside
Fire inside
Fire inside
Fire inside
Fire inside
Fire inside
Fire inside
Fire inside
Fire inside
Fire inside
Fire outside
Fire inside
Fire inside
Fire inside
Fire inside
Fire outside
Fire outside
Fire outside
Fire outside
Fire outside
Fire outside
Fire outside
Fire outside
Fire outside
Fire outside
Fire outside
Fire outside
Fire outside
Fire inside
Fire inside
Fire inside
Fire inside
Fire inside
Fire inside
Fire inside
Fire inside
Fire inside
Fire inside
Fire inside
Fire inside
Fire inside
Fire inside
105
60
105
105
105
60
105
105
105
45
45
60
60
60
105
105
105
60
105
105
105
45
45
60
105
60
105
105
105
60
105
105
105
60
60
105
60
105
105
105
60
105
105
105
45
45
60
105
60
105
105
105
60
105
105
105
50
120
80
120
100**
120
80
120
100**
25
60
40
50
120
50
80
50
120
80
120
100**
25
60
50
50
120
80
120
100**
120
80
120
100**
50
60
50
120
80
100**
50
120
80
120
100**
25
60
50
50
120
80
120
100**
120
80
120
100**
Fire
Resistance
Integrity / Stability
(min)
120
120
120
120
120
240
240
240
240
120
240
120
120
120
120
120
120
120
240
240
240
240
240
120
240
120
120
120
120
120
120
120
120
240
240
240
240
120
240
120
120
120
120
120
120
240
240
240
240
240
120
240
120
120
120
120
120
120
120
120
240
240
240
240
Fire
Resistance
Insulation
(min)
60
90
90
120
120
90
90
120
120
15
15
60
60
90
118
120
120
120
208
240
240
240
240
30
30
45
60
90
90
120
120
90
90
120
120
15
15
28*
30*
44*
45*
45*
60**
44*
45*
45*
60*
60*
30
30
45
60
90
90
120
120
90
90
120
120
LPCB Ref. No.
* Refers to internal face inside furnace.
** Includes 500mm x 25mm x 105kg/m3 density mineral wool collar around duct on both sides of penetration seals through fire
compartment walls and floors.
05 Feb 2015
19
PART 3: SECTION 2
FIRE RESISTANT DUCTS
Notes:
1.
2.
3.
4.
All ducts are protected with 0.7mm to 1.0mm nominal thickness of Flamebar BW11 Fire Proofing.
Maximum hanger centres are 1500mm for fire ratings up to two hours and 1000mm for fire ratings up to four hours.
The 50mm thick x 60kg/m3 density mineral wool insulation may be in the form of either slabs or wrap.
Please refer to BRE Global report CC88343 Review 4 Issue 2 for minimum wall thickness for the steel ducts protected with Flamebar
BW11 Fireproofing.
Firespray International Limited
Flamebar House, South Road, Templefields, Harlow, Essex CM20 2AR, United Kingdom
Tel: +44 (0)1279 634 230 • Fax: +44 (0)1279 634 232
E-mail: [email protected] • Website: www.firespray.eu.com
Certificate No: 415a to BS 476: Part 24
Product Name
Duct Type
Condition
Type of
Insulation
(kg/m3)
Insulation
Thickness
(mm)
Flamebar BW11
Ventilation
Ventilation
Ventilation
Ventilation
Ventilation
Ventilation
Ventilation
Ventilation
Ventilation
Ventilation
Ventilation
Ventilation
Ventilation
Ventilation
Ventilation
Ventilation
Ventilation
Ventilation
Ventilation
Ventilation
Ventilation
Ventilation
Ventilation
Ventilation
Ventilation
Ventilation
Ventilation
Ventilation
Smoke outlet
Smoke outlet
Smoke outlet
Smoke outlet
Smoke outlet
Smoke outlet
Smoke outlet
Smoke outlet
Smoke outlet
Smoke outlet
Smoke outlet
Smoke outlet
Smoke outlet
Smoke outlet
Smoke outlet
Smoke outlet
Smoke outlet
Smoke outlet
Smoke outlet
Smoke outlet
Smoke outlet
Smoke outlet
Smoke outlet
Fire outside
Fire outside
Fire outside
Fire outside
Fire outside
Fire outside
Fire outside
Fire outside
Fire outside
Fire outside
Fire outside
Fire outside
Fire outside
Fire outside
Fire inside
Fire inside
Fire inside
Fire inside
Fire inside
Fire inside
Fire inside
Fire inside
Fire inside
Fire inside
Fire inside
Fire inside
Fire inside
Fire inside
Fire outside
Fire outside
Fire outside
Fire outside
Fire outside
Fire outside
Fire outside
Fire outside
Fire outside
Fire outside
Fire outside
Fire outside
Fire outside
Fire outside
Fire inside
Fire inside
Fire inside
Fire inside
Fire inside
Fire inside
Fire inside
Fire inside
Fire inside
45
45
60
60
60
105
105
105
60
105
105
105
45
45
60
105
60
105
105
105
60
105
105
105
45
45
60
60
60
105
105
105
60
105
105
105
45
45
60
105
60
105
105
25
60
40
50
120
50
80
50
120
80
120
100**
25
60
50
50
120
80
120
100**
120
80
120
100**
25
60
40
50
120
50
80
50
120
80
120
100**
25
60
50
50
120
80
120
20
Fire
Resistance
Integrity / Stability
(min)
120
240
120
120
120
120
120
120
120
240
240
240
240
240
120
240
120
120
120
120
120
120
120
120
240
240
240
240
120
240
120
120
120
120
120
120
120
240
240
240
240
240
120
240
120
120
120
120
120
120
120
Fire
Resistance
Insulation
(min)
15
15
60
60
90
118
120
120
120
208
240
240
240
240
30
30
45
60
90
90
120
120
90
90
120
120
15
15
60
60
90
118
120
120
120
208
240
240
240
240
30
30
45
60
90
90
120
LPCB Ref. No.
415a/01
05 Feb 2015
PART 3: SECTION 2
FIRE RESISTANT DUCTS
Product Name
Duct Type
Condition
Type of
Insulation
(kg/m3)
Insulation
Thickness
(mm)
Smoke outlet
Smoke outlet
Smoke outlet
Smoke outlet
Smoke outlet
Kitchen extract
Kitchen extract
Kitchen extract
Kitchen extract
Kitchen extract
Kitchen extract
Kitchen extract
Kitchen extract
Kitchen extract
Kitchen extract
Kitchen extract
Kitchen extract
Kitchen extract
Kitchen extract
Kitchen extract
Kitchen extract
Kitchen extract
Kitchen extract
Kitchen extract
Kitchen extract
Kitchen extract
Kitchen extract
Kitchen extract
Kitchen extract
Kitchen extract
Kitchen extract
Kitchen extract
Fire inside
Fire inside
Fire inside
Fire inside
Fire inside
Fire outside
Fire outside
Fire outside
Fire outside
Fire outside
Fire outside
Fire outside
Fire outside
Fire outside
Fire outside
Fire outside
Fire outside
Fire outside
Fire inside
Fire inside
Fire inside
Fire inside
Fire inside
Fire inside
Fire inside
Fire inside
Fire inside
Fire inside
Fire inside
Fire inside
Fire inside
Fire inside
105
60
105
105
105
60
60
105
60
105
105
105
60
105
105
105
45
45
60
105
60
105
105
105
60
105
105
105
100**
120
80
120
100**
50
60
50
120
80
100**
50
120
80
120
100**
25
60
50
50
120
80
120
100**
120
80
120
100**
Fire
Resistance
Integrity / Stability
(min)
120
240
240
240
240
120
240
120
120
120
120
120
120
240
240
240
240
240
120
240
120
120
120
120
120
120
120
120
240
240
240
240
Fire
Resistance
Insulation
(min)
120
90
90
120
120
15
15
28*
30*
44*
45*
45*
60
44*
45*
45*
60*
60*
30
30
45
60
90
90
120
120
90
90
120
120
LPCB Ref. No.
* Refers to internal face inside furnace.
** Includes 500mm x 25mm x 105kg/m3 density mineral wool collar around duct on both sides of penetration seals through fire
compartment walls and floors.
Notes:
1.
2.
3.
4.
All ducts are protected with 0.7mm to 1.0mm nominal thickness of Flamebar BW11 Fire Proofing.
Maximum hanger centres are 1500mm for fire ratings up to two hours and 1000mm for fire ratings up to four hours.
The 50mm thick x 60kg/m3 density mineral wool insulation may be in the form of either slabs or wrap.
Please refer to BRE Global report CC88343 Review 4 Issue 2 for minimum wall thickness for the steel ducts protected with Flamebar
BW11 Fireproofing.
Flameshield Products Limited
9 Zillah Gardens, Wigmore, Gillingham, Kent ME8 0EE, United Kingdom
Tel: 0800 3289980
E-mail: [email protected]
Certificate No: 785a to BS 476: Part 24
Product
Name
Duct Type
Condition
Type / density of
insulation
Insulation
Thickness
(mm)
Flameshield
Ventilation
Smoke
outlet
Kitchen
extract
Ventilation
Fire inside
Fire inside
None
None
Fire inside
Fire
outside
05 Feb 2015
Fire
Resistance
(Insulation)
LPCB Ref.
No.
-
Fire
Resistance
(Integrity/
stability)
240
120
-
785a/03
None
-
120
-
None
-
120
-
21
PART 3: SECTION 2
FIRE RESISTANT DUCTS
Product
Name
Duct Type
Condition
Type / density of
insulation
Insulation
Thickness
(mm)
Smoke
outlet
Kitchen
extract
Ventilation
Fire
outside
Fire
outside
Fire inside
None
Ventilation
Fire inside
Ventilation
Fire inside
Ventilation
Fire inside
Ventilation
Fire
outside
Fire
outside
Fire
outside
Fire
outside
Fire inside
Ventilation
Ventilation
Ventilation
Smoke
outlet
Smoke
outlet
Smoke
outlet
Smoke
outlet
Smoke
outlet
Smoke
outlet
Smoke
outlet
Smoke
outlet
Kitchen
extract
Kitchen
extract
Kitchen
extract
Kitchen
extract
Fire inside
Fire inside
Fire inside
Fire
outside
Fire
outside
Fire
outside
Fire
outside
Fire inside
Fire inside
Fire
outside
Fire
outside
Fire
Resistance
(Insulation)
-
Fire
Resistance
(Integrity/
stability)
120
None
-
120
-
Mineral wool 165
kg/m3
Mineral wool 165
kg/m3
Mineral wool 165
kg/m3
Mineral wool 165
kg/m3
Mineral wool 165
kg/m3
Mineral wool 165
kg/m3
Mineral wool 165
kg/m3
Mineral wool 165
kg/m3
Mineral wool 165
kg/m3
Mineral wool 165
kg/m3
Mineral wool 165
kg/m3
Mineral wool 165
kg/m3
Mineral wool 165
kg/m3
Mineral wool 165
kg/m3
Mineral wool 165
kg/m3
Mineral wool 165
kg/m3
Mineral wool 165
kg/m3
Mineral wool 165
kg/m3
Mineral wool 165
kg/m3
Mineral wool 165
kg/m3
40
120
30
55
120
60
70
120
90
90
240
120
30
120
30
40
120
60
45
120
90
50
120
120
40
120
30
55
120
60
70
120
90
90
120
120
30
120
30
40
120
60
45
120
90
50
120
120
45
120
30
90
120
60
45
120
30
90
120
60
LPCB Ref.
No.
785a/04
Notes:
1. LPCB Ref. No's. 785a/03 and 785a/04 - Uninsulated and Insulated ductwork systems to be manufactured and installed to the
specifications as detailed in BRE Assessment Report CC 255037 Issue 7 dated 11 January 2012.
2. LPCB Ref. No's 785a/03 and 785a/04 - Covers rectangular and flat oval ductwork up to 3000mm wide x 2000mm deep, reference
Flameshield Tables 1 - Issue F & 4 - Issue E and circular ductwork up to 1250mm diameter, reference Flameshield Tables 5 - Issue D
and 6 - Issue D. The Flameshield systems may also be employed as attenuator casings as defined in BRE Assessment Report CC
255037 Issue 7 dated 11 January 2012 however the LPCB approval does not cover the attenuator itself.
4. LPCB Ref. No's 785a/03 and 785/04 - Approval also covers Uninsulated and Insulated ductwork systems manufactured to
Flameshield Table 20 - Issue F for ventilation duct applications only with a fire resistance intergrity and stability period of up to 120
minutes and where applicable, an insulation period as detailed in BRE Assessment Report CC 255037 Issue 7 dated 11 January
2012.
Ductwork manufacturers:
The following Companies manufacture the products listed on this certificate to a specification issued and controlled by Flameshield.
These companies are audited by the LPCB to ensure the product certification requirements are met.
Kent Ductwork Limited (LPCB Ref. 785a(1))
Unit 7/9 Crayford Industrail Estate
Swaisland Drive
Crayford
Dartford
DA1 4HS
E & S Heating and Ventilation Limited (LPCB Ref. 785a(2))
22
05 Feb 2015
PART 3: SECTION 2
FIRE RESISTANT DUCTS
Diplocks Way
Hailsham
East Sussex
BN27 3JF
Gardner & Co. (Kent) Limited (LPCB Ref. 785a(3))
Unit 2, 23 Revenge Road
Lordswood Industrial Estate
Chatham
Kent
ME5 8UD
Whitehouse Engineering Company Limited (LPCB Ref. 785a(4))
14 Trench Road
Mallusk
Newtownabbey
County. Antrim
Northern Ireland
BT36 4UU
Gulf Duct Industries LLC (LPCB Ref. 1150)
Dubai Investment Park 2
Dubai 282009
United Arab Emirates
Qatar Air Distribution Network Manufacturing Factory WLL (QAD-NET) (LPCB Ref. 1183)
New Small Industrial Area
Pink Zone 81
Street No. 7
Building No. 150
PO Box 40852
Doha
Qatar
Rockwool Limited
Wern Tarw, Pencoed, Bridgend, Mid Glamorgan CF35 6NY, United Kingdom
Tel: +44 (0)1656 862621 • Fax: +44 (0)1656 862302
E-mail: [email protected] • Website: www.rockwool.co.uk
Certificate No: 022f to BS476 : Part 24 : 1987
Product
Name
Duct Type
Condition
FirePro
Ventilation
vertical
orientation
Ventilation
vertical
orientation
Ventilation
vertical
orientation
Ventilation
vertical
orientation
Ventilation
vertical
orientation
Ventilation
vertical
orientation
Ventilation
vertical
orientation
Ventilation
vertical
orientation
Fire
Outside
05 Feb 2015
Maximum
Duct
size (ht x wt)
(mm)
100 x 1000
Insulation
Thickness
(mm)
Fire
Outside
25
Fire
Resistance
Integrity
(min)
30
Fire
Resistance
Insulation
(min)
30
1000 x 1000
30
60
60
Fire
Outside
1500 x 1500
50
90
90
Fire
Outside
1500 x 1500
70
120
120
Fire
Outside
1525 dia.
25
30
30
Fire
Outside
1525 dia.
30
60
60
Fire
Outside
1525 dia.
50
90
90
Fire
Outside
1525 dia.
70
120
120
LPCB Ref.
No.
022f/01
23
PART 3: SECTION 2
FIRE RESISTANT DUCTS
Product
Name
24
Duct Type
Condition
Maximum
Duct
size (ht x wt)
(mm)
1000 x 1000
Insulation
Thickness
(mm)
Ventilation
horizontal
orientation
Ventilation
horizontal
orientation
Ventilation
horizontal
orientation
Ventilation
horizontal
orientation
Ventilation
horizontal
orientation
Ventilation
horizontal
orientation
Ventilation
horizontal
orientation
Ventilation
horizontal
orientation
Ventilation
vertical
orientation
Ventilation
vertical
orientation
Ventilation
vertical
orientation
Ventilation
vertical
orientation
Ventilation
vertical
orientation
Ventilation
vertical
orientation
Ventilation
vertical
orientation
Ventilation
vertical
orientation
Ventilation
horizontal
orientation
Ventilation
horizontal
orientation
Ventilation
horizontal
orientation
Ventilation
horizontal
orientation
Ventilation
horizontal
orientation
Ventilation
horizontal
orientation
Ventilation
horizontal
orientation
Fire
Outside
Fire
Outside
25
Fire
Resistance
Integrity
(min)
30
Fire
Resistance
Insulation
(min)
30
1500 x 1500
40
60
60
Fire
Outside
1200 x 1200
70
90
90
Fire
Outside
1000 x 1000
90
120
120
Fire
Outside
1525 dia.
25
30
30
Fire
Outside
1525 dia.
40
60
60
Fire
Outside
1525 dia.
70
90
90
Fire
Outside
1525 dia.
90
120
120
Fire Inside
1000 x 1000
25
30
30
Fire Inside
1000 x 1000
30
60
60
Fire Inside
1500 x 1500
50
90
90
Fire Inside
1500 x 1500
70
120
120
Fire Inside
1525 dia.
25
30
30
Fire Inside
1525 dia.
30
60
60
Fire Inside
1525 dia.
50
90
90
Fire Inside
1525 dia.
70
120
120
Fire Inside
1000 x 1000
25
30
30
Fire Inside
1500 x 1500
40
60
60
Fire Inside
1200 x 1200
70
90
90
Fire Inside
1000 x 1000
90
120
120
Fire Inside
1525 dia.
25
30
30
Fire Inside
1525 dia.
40
60
60
Fire Inside
1525 dia.
70
90
90
LPCB Ref.
No.
05 Feb 2015
PART 3: SECTION 2
FIRE RESISTANT DUCTS
Product
Name
Duct Type
Condition
Ventilation
horizontal
orientation
Ventilation
vertical
orientation
Ventilation
vertical
orientation
Ventilation
vertical
orientation
Ventilation
vertical
orientation
Ventilation
vertical
orientation
Ventilation
vertical
orientation
Ventilation
vertical
orientation
Ventilation
vertical
orientation
Ventilation
horizontal
orientation
Ventilation
horizontal
orientation
Ventilation
horizontal
orientation
Ventilation
horizontal
orientation
Ventilation
horizontal
orientation
Ventilation
horizontal
orientation
Ventilation
horizontal
orientation
Ventilation
horizontal
orientation
Ventilation
vertical
orientation
Ventilation
vertical
orientation
Ventilation
vertical
orientation
Ventilation
vertical
orientation
Ventilation
vertical
orientation
Ventilation
vertical
orientation
Fire Inside
05 Feb 2015
Maximum
Duct
size (ht x wt)
(mm)
1525 dia.
Insulation
Thickness
(mm)
Fire
Outside
90
Fire
Resistance
Integrity
(min)
120
Fire
Resistance
Insulation
(min)
120
1000 x 1000
25
30
30
Fire
Outside
1000 x 1000
30
60
60
Fire
Outside
1500 x 1500
50
90
90
Fire
Outside
1500 x 1500
70
120
120
Fire
Outside
1525 dia.
25
30
30
Fire
Outside
1525 dia.
30
60
60
Fire
Outside
1525 dia.
50
90
90
Fire
Outside
1525 dia.
70
120
120
Fire
Outside
1000 x 1000
25
30
30
Fire
Outside
1500 x 1500
40
60
60
Fire
Outside
1200 x 1200
70
90
90
Fire
Outside
1000 x 1000
90
120
120
Fire
Outside
1525 dia.
25
30
30
Fire
Outside
1525 dia.
40
60
60
Fire
Outside
1525 dia.
70
90
90
Fire
Outside
1525 dia.
90
120
120
Fire Inside
1000 x 1000
25
30
30
Fire Inside
1000 x 1000
30
60
60
Fire Inside
1500 x 1500
50
90
90
Fire Inside
1500 x 1500
70
120
120
Fire Inside
1525 dia.
25
30
30
Fire Inside
1525 dia.
30
60
60
LPCB Ref.
No.
25
PART 3: SECTION 2
FIRE RESISTANT DUCTS
Product
Name
26
Duct Type
Condition
Insulation
Thickness
(mm)
Fire Inside
Maximum
Duct
size (ht x wt)
(mm)
1525 dia.
Ventilation
vertical
orientation
Ventilation
vertical
orientation
Ventilation
horizontal
orientation
Ventilation
horizontal
orientation
Ventilation
horizontal
orientation
Ventilation
horizontal
orientation
Ventilation
horizontal
orientation
Ventilation
horizontal
orientation
Ventilation
horizontal
orientation
Ventilation
horizontal
orientation
Kitchen
extract
Kitchen
extract
Fire Inside
50
Fire
Resistance
Integrity
(min)
90
Fire
Resistance
Insulation
(min)
90
1525 dia.
70
120
120
Fire Inside
1000 x 1000
25
30
30
Fire Inside
1500 x 1500
40
60
60
Fire Inside
1200 x 1200
70
90
90
Fire Inside
1000 x 1000
90
120
120
Fire Inside
1525 dia.
25
30
30
Fire Inside
1525 dia.
40
60
60
Fire Inside
1525 dia.
70
90
90
Fire Inside
1525 dia.
90
120
120
Fire
Outside
Fire
Outside
1500 x 1500
40
30
30
1000 x 1000
90
60
60
LPCB Ref.
No.
05 Feb 2015
PART 3: SECTION 3
SMOKE CURTAINS
Smoke curtains are used:



To create a smoke reservoir by containing and limiting the travel of smoke.
To channel smoke in a predetermined direction.
To prevent or retard smoke entry to another area or void.
All the smoke curtains listed in Section 3 of this part of the list have been tested and assessed against the
requirements of LPS 1182 Requirements and tests for fixed fabric smoke curtains, fixed metal smoke curtains
and powered smoke curtains.
Currently there are no products listed in this section.
05 Feb 2015
27
PART 3: SECTION 4
POWERED SMOKE AND HEAT EXHAUST VENTILATION
Powered smoke and heat exhaust ventilation fans are used:


To channel heat and smoke in a predetermined direction.
To prevent smoke logging of the protected space.
All the fans listed have been approved against the requirements of BSEN 12101-3 Smoke and heat control
systems. Part 3 Specification for powered smoke and heat exhaust ventilation.
Elta Fans Limited
17 Barnes Wallis Road, Segensworth East Industrial Estate, Farnham, Hampshire PO15 5ST, United
Kingdom
Tel: +44 (0) 1489 566555 • Fax: +44 (0) 1489 566555
E-mail: [email protected] • Website: www.eltafans.com
Additional Manufacturing Site
46 Third Avenue, Pensnett Trading Estate, Kingswinford, West Midlands DY6 7US, United Kingdom
Certificate No: 937a to BS EN 12101-3: 2002
28
05 Feb 2015
PART 3: SECTION 4
POWERED SMOKE AND HEAT EXHAUST VENTILATION
Product Name
SmokeVent axial fan (notes 2, 5, 6,
7, 8)
SmokeVent axial fan (notes 5, 7, 8,
9)
JetVent Impulse (flanged - standard
thrust) axial fan (notes 2, 5, 6, 7, 8)
05 Feb 2015
Model
LCS025,
LCS031,
LCS035,
LCS040,
LCS045,
LCS050,
LCS056,
LCS063,
LCS071,
LCS080,
LCS090,
LCS100,
LCS112,
LCS125,
LCS140,
LCS160,
LCS180,
LCS200,
SCS025,
SCS031,
SCS035,
SCS040,
SCS045,
SCS050,
SCS056,
SCS063,
SCS071,
SCS080,
SCS090,
SCS100,
SCS112,
SCS125,
SCS140,
SCS160,
SCS180,
SCS200,
LCSCR025,
LCSCR031,
LCSCR035,
LCSCR040,
LCSCR045,
LCSCR050,
LCSCR056,
LCSCR063,
LCSCR071,
LCSCR080,
LCSCR090,
LCSCR100,
LCSCR112,
LCSCR125,
LCSCR140,
LCSCR160,
LCSCR180,
LCSCR200
LCS040k2A10/34/B,
LCS125R4A12/37B
JFSU-CPA-315
2/4-3,
JFSU-CPA-400
2/4-3,
JFSU-CPA-400
2-3,
JFSR-CPA-315
2/4-3,
JFSR-CPA-400
2/4-3,
JFSR-CPA-400
2-3
Application
Classes
Response
delay
N/A
Resistance
to fire
class
F200
Motor
temp.
rating1
Class F
/
Class H
insulated or
uninsulated;
smoke reservoir or
non smoke
reservoir; dual
purpose or
emergency use
uninsulated;
smoke reservoir;
dual purpose
N/A
F200
Class F
/
Class H
insulated or
uninsulated;
smoke reservoir or
non smoke
reservoir;
dual purpose or
emergency use
N/A
F200
Class F
/
Class H
LPCB Ref.
No.
937a/01
29
PART 3: SECTION 4
POWERED SMOKE AND HEAT EXHAUST VENTILATION
Product Name
JetVent Impulse (flanged enhanced thrust) axial fan (notes 2,
5, 6, 7, 8)
SmokeVent axial fan (notes 2, 5, 6,
7, 8)
SmokeVent axial fan (notes 3, 5, 7,
9)
30
Model
LCS031-CPU
2/4-3,
LCS035-CPU
2/4-3,
LCS040-CPU
2/4-3,
LCS031-CPR
2/4-3,
LCS035-CPR
2/4-3,
LCS040-CPR
2/4-3
LCS025,
LCS031,
LCS035,
LCS040,
LCS045,
LCS050,
LCS056,
LCS063,
LCS071,
LCS080,
LCS090,
LCS100,
LCS112,
LCS125,
LCS140,
LCS160,
LCS180,
LCS200,
SCS025,
SCS031,
SCS035,
SCS040,
SCS045,
SCS050,
SCS056,
SCS063,
SCS071,
SCS080,
SCS090,
SCS100,
SCS112,
SCS125,
SCS140,
SCS160,
SCS180,
SCS200,
LCSCR025,
LCSCR031,
LCSCR035,
LCSCR040,
LCSCR045,
LCSCR050,
LCSCR056,
LCSCR063,
LCSCR071,
LCSCR080,
LCSCR090,
LCSCR100,
LCSCR112,
LCSCR125,
LCSCR140,
LCSCR160,
LCSCR180,
LCSCR200
JFSR-CPA 400
2-3,
LCS125-R4A12/29/B
Application
Classes
Response
delay
Motor
temp.
rating1
Class F
/
Class H
LPCB Ref.
No.
N/A
Resistance
to fire
class
F200
insulated or
uninsulated;
smoke reservoir or
non smoke
reservoir;
dual purpose or
emergency use
insulated or
uninsulated;
smoke reservoir or
non smoke
reservoir;
dual purpose or
emergency use
N/A
F3004
Class F
/
Class H
937a/02
uninsulated;
smoke reservoir;
dual purpose
N/A
F3004
Class F
/
Class H
05 Feb 2015
PART 3: SECTION 4
POWERED SMOKE AND HEAT EXHAUST VENTILATION
Product Name
JetVent impulse (flanged - standard
thrust) axial fan (notes 2, 5, 6, 7, 8)
JetVent impulse (flanged enhanced thrust) axial fan (notes 2,
5, 6, 7, 8)
SmokeVent axial fan (notes 2, 5, 6,
7, 8)
JetVent centrifugal (Mark I) fan
(notes 3, 5, 8)
05 Feb 2015
Model
JFSU-CPA-315
2/4-3,
JFSU-CPA-400
2/4-3,
JFSU-CPA-400
2-3,
JFSR-CPA-315
2/4-3,
JFSR-CPA-400
2/4-3,
JFSR-CPA-400
2-3
LCS031-CPU
2/4-3,
LCS035-CPU
2/4-3,
LCS040-CPU
2/4-3,
LCS031-CPR
2/4-3,
LCS035-CPR
2/4-3,
LCS040-CPR
2/4-3
LCS025,
LCS031,
LCS035,
LCS040,
LCS045,
LCS050,
LCS056,
LCS063,
LCS071,
LCS080,
LCS090,
LCS100,
LCS112,
LCS125,
SCS025,
SCS031,
SCS035,
SCS040,
SCS045,
SCS050,
SCS056,
SCS063,
SCS071,
SCS080,
SCS090,
SCS100,
SCS112,
SCS125,
LCSCR025,
LCSCR031,
LCSCR035,
LCSCR040,
LCSCR045,
LCSCR050,
LCSCR056,
LCSCR063,
LCSCR071,
LCSCR080,
LCSCR090,
LCSCR100,
LCSCR112,
LCSCR125
JISU-CPC-50N,
JISU-CPC-100N,
Application
Classes
Response
delay
N/A
Resistance
to fire
class
F3004
Motor
temp.
rating1
Class F
/
Class H
insulated or
uninsulated;
smoke reservoir or
non smoke
reservoir;
dual purpose or
emergency use
insulated or
uninsulated;
smoke reservoir or
non smoke
reservoir;
dual purpose or
emergency use
N/A
F3004
Class F
/
Class H
insulated or
uninsulated;
smoke reservoir or
non smoke
reservoir;
dual purpose or
emergency use
N/A
F400
Class F
/
Class H
937a/03
uninsulated;
smoke reservoir;
dual purpose or
emergency use
N/A
F300
Class F
/
Class H
937a/04
LPCB Ref.
No.
31
PART 3: SECTION 4
POWERED SMOKE AND HEAT EXHAUST VENTILATION
Product Name
JetVent -centrifugal (Mark II) fan
(notes 3, 5, 8)
JetVent impulse (unflanged standard thrust) axial fan (notes 3,
5, 8)
Model
JISU-2-CPC50N,
JISU-2-CPC60N,
JISU-2-CPC100N,
JISU-2-CPC120N
JVSU-CPA-315
2/4-3,
JVSU-CPA-400
2-3,
JVSU-CPA-400
2/4-3,
JVSR-CPA-315
2/4-3,
JVSR-CPA-400
2-3
JVSR-CPA-400
2/4-3
Application
Classes
Response
delay
Motor
temp.
rating1
Class F
/
Class H
LPCB Ref.
No.
N/A
Resistance
to fire
class
F3004
uninsulated;
smoke reservoir;
dual purpose or
emergency use
uninsulated; smoke
reservoir;
dual purpose or
emergency use
N/A
F3004
Class F
/
Class H
937a/06
937a/05
Notes:
1. Motor temperature rating - classes given refer to temperature rise at ambient and motor insulation as detailed in section 4.2 of EN
12101-3: 2002.
2. Both horizontal and vertical installation is permitted.
3. Horizontal installation only is permitted.
4. Tested to 300°C for 120 minutes.
5. Only certified accessories should be used.
6. Use of guide vanes is permitted. Where this is the case the model code has +GV added, e.g. LCS025+GV.
7. Fan coding of units held within Select stock will be prefixed by the letter ‘S’, and the size expressed in mm (i.e. LCS025 becomes
SLCS250)
8. No ducted cooling air is required.
9. Vertical installation only is permitted.
32
05 Feb 2015
PART 3: SECTION 5
GREASE FILTERS USED IN COMMERCIAL KITCHEN EXTRACT SYSTEMS
LPS 1263 Requirements for the LPCB Approval and Listing of the Fire Performance of Grease Filters Used in
Commercial Extract systems.
This standard covers the test procedures and method of calculating the fire performance rating of grease
filters used for the reduction of flammable and volatile grease droplets from the cooking exhaust of
commercial cooking equipment in such situations as restaurant kitchens, canteens or similar food preparation
areas where it is necessary to reduce the cooking exhause via a ventilation system.
Halton Foodservice Limited
11 Laker Road, Airport Industrial Estate, Rochester, Kent ME1 3QX, United Kingdom
Tel: +44 (0)1634 666111 • Fax: +44 (0)1634 666333
E-mail: [email protected] • Website: www.halton.com/foodservice
Certificate No: 996a to LPS 1263 issue 1.2
Product Name
KSA Filter
Nominal
filter size
(w x h x t) (mm)
498 x 330 x 51.6
Nominal
flow rate
(m3/h)
786
LPS 1263 Grade
LPCB Ref. No.
GF90
996a/01
Notes:
1. LPCB ref 996a/01 The KSA filter is manufactured from Grade 304 S16 stainless steel with 0.4mm thick filter fins and 0.8mm casing.
2. LPCB ref 996a/01 KSA filter is approved as part of a Kitchen Ventilation system with 400, 555 and 555UV canopy profiles only.
05 Feb 2015
33