SIST EN 16750:2017+A1:2020
(Main)Fixed firefighting systems - Oxygen reduction systems - Design, installation, planning and maintenance
Fixed firefighting systems - Oxygen reduction systems - Design, installation, planning and maintenance
This European standard specifies oxygen reduction systems that are used as fire prevention systems by creating an atmosphere in an area which is having a lower permanent oxygen concentration as in ambient conditions. The level of oxygen reduction is defined by the individual risks of these areas (see Annex A). Oxygen reduction is achieved by technical systems which are providing a flux of air containing a reduced concentration of oxygen.
This European standard specifies minimum requirements and defines the specifications governing the design, installation and maintenance of fixed oxygen reduction systems with oxygen reduced air in buildings and industrial production plants. The standard also applies to the extension and modification of existing systems.
This European standard applies to oxygen reduction systems using nitrogen which are designed for continual oxygen reduction in enclosed spaces.
NOTE Nitrogen is today the most suitable gas to be used for oxygen reduction. For other gases this European standard can be used as basis.
This European standard does not apply to oxygen reduction systems that use water mist or combustion gases.
The European standard does not apply to:
- explosion suppression systems;
- explosion prevention systems;
- fire extinguishing systems using gaseous extinguishing agents;
- inertization of portable containers;
- systems in which oxygen levels are reduced for reasons other than fire prevention (e.g. steel processing in the presence of inert gas to avoid the formation of oxide film);
- inerting required during repair work on systems or equipment (e.g. welding) in order to eliminate the risk of fire or explosion.
In addition to the conditions for the actual oxygen reduction system and its individual components this European standard also covers certain structural specifications for the protected area.
The space protected by an oxygen reduction system is a controlled and continuously monitored indoor climate for extended occupation. This standard does not cover unventilated confined spaces that may contain hazardous gases.
Ortsfeste Löschanlagen - Sauerstoffreduktionsanlagen - Auslegung, Einbau, Planung und Instandhaltung
Diese Europäische Norm legt Anforderungen an die Sauerstoffreduktionsanlagen fest, die als Brandvermeidungsanlagen verwendet werden, indem in einem Bereich eine Atmosphäre erzeugt wird, die eine niedrigere ständige Sauerstoffkonzentration aufweist als unter Umgebungsbedingungen. Der Grad der Sauerstoffreduktion ist durch die einzelnen Brandrisiken, die in diesen Bereichen vorherrschen, festgelegt (siehe Anhang A). Die Sauerstoffreduktion wird durch technische Systeme erreicht, die einen Volumenstrom sauerstoffreduzierter Luft erzeugen.
Diese Europäische Norm legt die Mindestanforderungen an die Auslegung, den Einbau und die Instandhaltung von ortsfesten Sauerstoffreduktionsanlagen mit sauerstoffreduzierter Luft in Gebäuden und Industrieanlagen fest und enthält die diesbezüglichen Festlegungen. Die Norm gilt auch für die Erweiterung und Änderung bereits vorhandener Anlagen.
Diese Europäische Norm gilt für Sauerstoffreduktionsanlagen mit Stickstoff zur kontinuierlichen Sauerstoffreduktion in umschlossenen Räumen.
ANMERKUNG Stickstoff ist gegenwärtig das geeignetste Gas für die Sauerstoffreduktion. Bezüglich weiterer Gase kann diese Europäische Norm als Grundlage dienen.
Diese Europäische Norm gilt nicht für Sauerstoffreduktionsanlagen, die Wassernebel oder Verbrennungsgase verwenden.
Diese Europäische Norm gilt nicht für:
Explosionsunterdrückungsanlagen;
Explosionsschutzanlagen;
Feuerlöschanlagen mit gasförmigen Feuerlöschmitteln;
die Inertisierung tragbarer Behälter;
Anlagen, bei denen der Sauerstoffgehalt aus anderen Gründen als der Brandvermeidung reduziert wird (z. B. Stahlverarbeitung unter Inertgas zur Vermeidung der Bildung einer Oxidschicht);
die Inertisierung, die bei Reparaturarbeiten von Anlagen oder Apparaturen (z. B. Schweißen) zur Vermeidung der Brand- oder Explosionsgefahr erforderlich ist.
Neben den Vorgaben für die eigentliche Sauerstoffreduktionsanlage und ihre einzelnen Bauteile behandelt die vorliegende Europäische Norm auch bestimmte bauliche Anforderungen an den Schutzbereich.
Der von einer Sauerstoffreduktionsanlage geschützte Bereich ist ein geregeltes und ständig überwachtes Innenraumklima für längere Nutzung. Diese Norm behandelt keine unbelüfteten engen Räume, in denen sich gefährliche Gase befinden können.
Installations fixes de lutte contre l'incendie - Systèmes d'appauvrissement en oxygène - Conception, installation, planification et maintenance
La présente Norme européenne spécifie les systèmes d’appauvrissement en oxygène qui sont utilisés comme systèmes de prévention incendie en créant, dans les zones protégées, une atmosphère dans laquelle la concentration en oxygène est réduite en permanence par rapport aux conditions ambiantes. Le niveau d’appauvrissement en oxygène est défini par les risques individuels identifiés dans les zones protégées (voir l’Annexe A). L’appauvrissement en oxygène est obtenu au moyen de systèmes qui fournissent un flux d’air ayant une concentration réduite en oxygène.
La présente Norme européenne spécifie les exigences minimales et définit les spécifications régissant la conception, l’installation et la maintenance des systèmes fixes d’appauvrissement en oxygène dans des bâtiments et dans des usines de production industrielle fonctionnant sous air appauvri en oxygène. La norme s’applique également à l’extension et à la modification des systèmes existants.
La présente Norme européenne s’applique aux systèmes d’appauvrissement en oxygène utilisant de l’azote, qui sont conçus pour assurer un appauvrissement continu en oxygène dans des espaces clos.
NOTE L’azote est à l’heure actuelle le gaz le mieux adapté pour réaliser un appauvrissement en oxygène. Pour les autres gaz, la présente Norme européenne peut être utilisée comme base.
La présente Norme européenne ne s’applique pas aux systèmes d’appauvrissement en oxygène comme le brouillard d’eau ou les systèmes d’extinction gaz.
La présente Norme européenne ne s’applique pas :
- aux systèmes anti-explosion ;
- aux systèmes de prévention des explosions ;
- aux systèmes d’extinction d’incendie utilisant des agents extincteurs gazeux ;
- à l’inertage des réservoirs portatifs ;
- aux systèmes dans lesquels les niveaux d’oxygène sont réduits pour des raisons autres que la prévention incendie (par exemple, transformation de l’acier en présence de gaz inerte pour éviter la formation d’un film d’oxyde) ;
- à l’inertage nécessaire pendant les travaux de réparation des systèmes ou de l’équipement (par exemple, soudage) afin d’éliminer le risque d’incendie ou d’explosion.
En plus des conditions qui s’appliquent au système d’appauvrissement en oxygène proprement dit et à ses composants individuels, la présente Norme européenne couvre également certaines spécifications structurelles relatives à la zone protégée.
Un espace protégé par un système d’appauvrissement en oxygène est une zone à l’intérieur d’un bâtiment dont l’environnement est contrôlé en continu pour permettre une occupation prolongée. A contrario, la présente norme ne concerne pas les espaces confinés non ventilés susceptibles de contenir des gaz dangereux.
Vgrajeni gasilni sistemi - Sistemi z zmanjšano koncentracijo kisika - Projektiranje, vgradnja, načrtovanje in vzdrževanje
General Information
Relations
Standards Content (Sample)
SLOVENSKI STANDARD
SIST EN 16750:2017+A1:2020
01-november-2020
Nadomešča:
SIST EN 16750:2017
Vgrajeni gasilni sistemi - Sistemi z zmanjšano koncentracijo kisika - Projektiranje,
vgradnja, načrtovanje in vzdrževanje
Fixed firefighting systems - Oxygen reduction systems - Design, installation, planning
and maintenance
Ortsfeste Löschanlagen - Sauerstoffreduktionsanlagen - Auslegung, Einbau, Planung
und Instandhaltung
Installations fixes de lutte contre l'incendie - Systèmes d'appauvrissement en oxygène -
Conception, installation, planification et maintenance
Ta slovenski standard je istoveten z: EN 16750:2017+A1:2020
ICS:
13.220.10 Gašenje požara Fire-fighting
SIST EN 16750:2017+A1:2020 en,fr,de
2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.
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SIST EN 16750:2017+A1:2020
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SIST EN 16750:2017+A1:2020
EN 16750:2017+A1
EUROPEAN STANDARD
NORME EUROPÉENNE
August 2020
EUROPÄISCHE NORM
ICS 13.220.20 Supersedes EN 16750:2017
English Version
Fixed firefighting systems - Oxygen reduction systems -
Design, installation, planning and maintenance
Installations fixes de lutte contre l'incendie - Systèmes Ortsfeste Löschanlagen - Sauerstoffreduktionsanlagen -
d'appauvrissement en oxygène - Conception, Auslegung, Einbau, Planung und Instandhaltung
installation, planification et maintenance
This European Standard was approved by CEN on 9 July 2017 and includes Amendment 1 approved by CEN on 12 July 2020.
CEN members are bound to comply with the CEN/CENELEC Internal Regulations which stipulate the conditions for giving this
European Standard the status of a national standard without any alteration. Up-to-date lists and bibliographical references
concerning such national standards may be obtained on application to the CEN-CENELEC Management Centre or to any CEN
member.
This European Standard exists in three official versions (English, French, German). A version in any other language made by
translation under the responsibility of a CEN member into its own language and notified to the CEN-CENELEC Management
Centre has the same status as the official versions.
CEN members are the national standards bodies of Austria, Belgium, Bulgaria, Croatia, Cyprus, Czech Republic, Denmark, Estonia,
Finland, France, Germany, Greece, Hungary, Iceland, Ireland, Italy, Latvia, Lithuania, Luxembourg, Malta, Netherlands, Norway,
Poland, Portugal, Republic of North Macedonia, Romania, Serbia, Slovakia, Slovenia, Spain, Sweden, Switzerland, Turkey and
United Kingdom.
EUROPEAN COMMITTEE FOR STANDARDIZATION
COMITÉ EUROPÉEN DE NORMALISATION
EUROPÄISCHES KOMITEE FÜR NORMUNG
CEN-CENELEC Management Centre: Rue de la Science 23, B-1040 Brussels
© 2020 CEN All rights of exploitation in any form and by any means reserved Ref. No. EN 16750:2017+A1:2020 E
worldwide for CEN national Members.
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SIST EN 16750:2017+A1:2020
EN 16750:2017+A1:2020 (E)
Contents Page
European foreword . 4
Introduction . 5
1 Scope . 6
2 Normative references . 7
3 Terms and definitions . 7
4 System requirements . 9
4.1 General . 9
4.2 Personnel safety . 9
4.3 Effectiveness and application . 10
4.4 Alarm organization and emergency plan . 10
5 Design . 10
5.1 Qualification of the designer . 10
5.2 Fire protection concept . 10
5.3 Structural specifications for the protected area . 11
5.4 Oxygen concentration . 11
5.5 Oxygen reduction to prevent fire . 12
5.6 Safety margins . 12
5.7 Oxygen reduced air quantity . 16
5.7.1 Continuous oxygen reduction . 16
5.7.2 Emergency plan . 16
5.7.3 Oxygen reduced air . 16
5.7.4 Gaseous supply . 17
5.7.5 Fault signals . 17
5.8 Technical areas . 18
5.8.1 Technical area for control panel . 18
5.8.2 Technical area for reduced oxygen air generation . 18
6 Distribution pipework . 19
6.1 Pipework . 19
6.2 Pipe supports . 19
6.3 Components in the pipework . 19
7 Monitoring the oxygen concentration . 20
8 Alarms and notifications . 21
9 Control equipment . 22
9.1 Function . 22
9.2 Requirements . 22
9.3 Electrical power supply . 22
9.4 Electrical installations . 22
9.5 Data recording . 22
10 System operation . 23
10.1 Instruction and training of personnel . 23
10.2 Inspections . 23
10.3 Operations log . 23
10.4 Further obligations . 23
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EN 16750:2017+A1:2020 (E)
11 Maintenance . 24
12 Documentation . 24
13 Installation . 25
13.1 Qualification of the installer . 25
13.2 General specifications, installation . 25
Annex A (normative) Ignition thresholds for oxygen reduction using nitrogen in fire
prevention . 26
A.1 Ignition thresholds . 26
A.2 Tests to ascertain ignition thresholds of unfamiliar materials . 27
A.2.1 Cup burner tests . 27
A.2.2 Ignition threshold tests . 28
A.2.2.1 General . 28
A.2.2.2 Test criteria . 29
A.2.2.3 Test documentation . 29
Annex B (informative) Information for health and safety – Working in oxygen-reduction
atmospheres for reasons of fire prevention . 31
B.1 General . 31
B.2 Principles of occupational health . 31
B.3 Risk classes . 31
B.4 Basic requirements, planning and installation . 32
B.5 Protective measures for all areas with oxygen-reduced atmospheres . 33
B.5.1 Structural and technical measures. 33
B.5.2 Organizational measures . 34
B.6 Risk classes and safety measures . 35
Annex C (informative) Existing national regulations for access and working in areas with
lower oxygen concentration . 36
Bibliography . 37
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SIST EN 16750:2017+A1:2020
EN 16750:2017+A1:2020 (E)
European foreword
This document (EN 16750:2017+A1:2020) has been prepared by Technical Committee CEN/TC 191
“Fixed firefighting systems”, the secretariat of which is held by BSI.
This European Standard shall be given the status of a national standard, either by publication of an
identical text or by endorsement, at the latest by February 2021, and conflicting national standards
shall be withdrawn at the latest by February 2021.
Attention is drawn to the possibility that some of the elements of this document may be the subject of
patent rights. CEN shall not be held responsible for identifying any or all such patent rights.
This document supersedes !EN 16750:2017".
This document includes Amendment 1 approved by CEN on 12 July 2020.
The start and finish of text introduced or altered by amendment is indicated in the text by tags !".
According to the CEN-CENELEC Internal Regulations, the national standards organisations of the
following countries are bound to implement this European Standard: Austria, Belgium, Bulgaria,
Croatia, Cyprus, Czech Republic, Denmark, Estonia, Finland, France, Germany, Greece, Hungary, Iceland,
Ireland, Italy, Latvia, Lithuania, Luxembourg, Malta, Netherlands, Norway, Poland, Portugal, Republic of
North Macedonia, Romania, Serbia, Slovakia, Slovenia, Spain, Sweden, Switzerland, Turkey and the
United Kingdom.
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SIST EN 16750:2017+A1:2020
EN 16750:2017+A1:2020 (E)
Introduction
Oxygen reduction systems are designed to prevent fires from starting or spreading, by means of the
introduction of oxygen reduced air. Oxygen reduction systems are not designed to extinguish fires. The
design and installation shall be based on detailed knowledge of the protected area, its occupancy and
the materials in question. It is important to suit the fire protection measures to the hazard as a whole.
It is important to emphasize that across the European Union there are several regulatory and legislative
limitations for access and working in areas with lower oxygen concentration, so it is important to take
these limitations into account. Use of this European Standard can vary based on the national legislation
in each country of the European Union.
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EN 16750:2017+A1:2020 (E)
1 Scope
This European standard specifies oxygen reduction systems that are used as fire prevention systems by
creating an atmosphere in an area which is having a lower permanent oxygen concentration as in
ambient conditions. The level of oxygen reduction is defined by the individual risks of these areas (see
Annex A). Oxygen reduction is achieved by technical systems which are providing a flux of air
containing a reduced concentration of oxygen.
This European standard specifies minimum requirements and defines the specifications governing the
design, installation and maintenance of fixed oxygen reduction systems with oxygen reduced air in
buildings and industrial production plants. The standard also applies to the extension and modification
of existing systems.
This European standard applies to oxygen reduction systems using nitrogen which are designed for
continual oxygen reduction in enclosed spaces.
NOTE Nitrogen is today the most suitable gas to be used for oxygen reduction. For other gases this European
standard can be used as basis.
This European standard does not apply to oxygen reduction systems that use water mist or combustion
gases.
The European standard does not apply to:
— explosion suppression systems;
— explosion prevention systems;
— fire extinguishing systems using gaseous extinguishing agents;
— inertization of portable containers;
— systems in which oxygen levels are reduced for reasons other than fire prevention (e.g. steel
processing in the presence of inert gas to avoid the formation of oxide film);
— inerting required during repair work on systems or equipment (e.g. welding) in order to eliminate
the risk of fire or explosion.
In addition to the conditions for the actual oxygen reduction system and its individual components this
European standard also covers certain structural specifications for the protected area.
The space protected by an oxygen reduction system is a controlled and continuously monitored indoor
climate for extended occupation. This standard does not cover unventilated confined spaces that may
contain hazardous gases.
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EN 16750:2017+A1:2020 (E)
2 Normative references
The following documents, in whole or in part, are normatively referenced in this document and are
indispensable for its application. For dated references, only the edition cited applies. For undated
references, the latest edition of the referenced document (including any amendments) applies.
EN 54 (all parts), Fire detection and fire alarm systems
EN 12094-1, Fixed firefighting systems — Components for gas extinguishing systems — Part 1:
Requirements and test methods for electrical automatic control and delay devices
EN 50104, Electrical apparatus for the detection and measurement of oxygen — Performance
requirements and test methods
3 Terms and definitions
For the purposes of this document, the following terms and definitions apply.
3.1
Alarms
3.1.1
external alarm
alarm to emergency services such as fire brigade or permanently attended location
3.1.2
local alarm
acoustic and possibly additional visual alarm in protected areas or their immediate surroundings
3.1.3
internal alarm
acoustic and visual displays at the detection panel, possibly with additional displays at other signalling
equipment
3.1.4
alarm threshold
value of a process parameter which, when reached, triggers an alarm and, where necessary, initiates
automatic protection measures
3.1.5
alarm signal
signal to warn people at risk and/or to summon help from the emergency services and/or to provide
information about automatic response measures
3.2
design concentration
ingnition threshold including a safety margin
Note 1 to entry: See also Figure 1.
Note 2 to entry: The design concentration represents the maximum oxygen concentration which cannot be
exceeded in any time.
3.3
emergency situation
deviation from normal operation
EXAMPLE For example a significant deviation from the threshold value (scale of risk).
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3.4
operating pressure
pressure of a system under normal operating conditions
3.5
combustible material
A material capable of combustion or being ignited
Note 1 to entry: For the purposes of this standard, whether the quantity of a combustible material is to be
regarded as significant or not can be determined by means of a risk analysis as part of the fire protection design.
3.6
ignition threshold
maximum oxygen concentration in a mixture of a combustible material with air and inert gas, in which
there can be no ignition, determined under established test conditions
Note 1 to entry: This is a specific characteristic of combustible material and inert gas (see A.1).
3.7
detection and alarm installation
remote detection system for the reliable detection of risk to people and property
Note 1 to entry: It creates alarm reports from automatic or manually input information, issues these and detects
any faults. The transmission channels for information and alarms are monitored. Special measures are in place to
prevent any malfunction as far as possible, which may be powered electrically or otherwise. Detection and alarm
systems cover facilities for the input, transmission (through wires or wirelessly), processing and issuing of alarms,
including the necessary power supply. This standard applies to detection and alarm systems which detect and
report the scale of the risk at an early stage.
3.8
measuring zones
virtual separation of the protected volume for oxygen measuring
3.9
normal operation
situation in which the equipment, protection systems and components are able to carry out their
designated functions within their design parameters
3.10
oxygen reduced air
ambient air with an oxygen concentration lower than natural air
3.11
oxygen reduced air supply
nitrogen enriched air stream with an oxygen concentration of less than natural air ready to be
introduced into a protected volume
3.12
oxygen reduction
reduction of oxygen which increases the nitrogen concentration to prevent the ignition or spread of fire
3.13
protected volume
effective volume of the space to be protected
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EN 16750:2017+A1:2020 (E)
3.14
system
combination of components whose function and compatibility guarantees the safety of the installation
3.15
technical areas
areas where either or the control panel, nitrogen production unit and other relevant system
components are placed
3.16
control panel
electrical device for monitoring, controlling and alarm of the oxygen reduction system
4 System requirements
4.1 General
An oxygen reduction system shall consist basically of:
a) a supply of oxygen reduced air;
b) a fixed pipework system with fittings, valves, nozzles, outlets;
c) oxygen sensors and control panel;
d) alarms.
Oxygen reduced air is produced by air separation or by injecting inert gas or gas mixture into the
protected area.
The oxygen concentration in the protected area shall be monitored by means of measuring equipment.
During operation, the supply of nitrogen shall be controlled automatically according to demand. Where
necessary as a result of a risk analysis additional means shall be provided to operate the supply
manually or an additional supply operated manually or automatically.
The oxygen reduction system can be equipped with automatic equipment designed to shut down
machinery and to close fire doors and other equipment, with the aim of creating and maintaining the
required oxygen concentration.
4.2 Personnel safety
Oxygen reduced air can be dangerous for personnel.
Adherence to this European Standard does not remove the user's statutory responsibility to comply
with the relevant national bodies and laws. In case no national laws exist, further information can be
found in Annex B.
Code requirements for unventilated confined spaces do not apply to space protected by oxygen
reduction system that control and continuously monitor indoor climate for extended occupation.
Personnel safety measures shall be made for the fact that neighbouring volumes can have a reduced
oxygen concentration. These areas may also need to be monitored and/or personnel safety measures
may need to be taken.
Technical or organizational measures shall be taken to prevent unauthorized people from entering
protected areas with permanently reduced oxygen levels.
The measurement system shall be designed in such a way that a loss of function or a measurement
error can in no event lead to the minimum oxygen threshold not being detected.
The spreading of the oxygen-reduced atmosphere to other areas not intended for this (e.g. through wall
openings, cable ducts, floor drainages, leaking doors, conveyor belts, etc.) shall be prevented.
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4.3 Effectiveness and application
A fire risk assessment detailing the key fire protection factors shall be done. The important aspects are:
— the type and quantity of material/materials requiring protection;
— the area(s) requiring protection;
— the right dimension of the oxygen reduced air supply to maintain the reduced oxygen concentration
on its design value;
— a back-up oxygen reduced air supply, if provided;
— alarm equipment.
Oxygen reduction systems provide preventive fire protection. The introduction of nitrogen reduces the
oxygen concentration of the air, thereby preventing the ignition or spread of fire except for the
following:
— chemicals containing their own supply of oxygen, such as cellulose nitrate;
— mixtures containing oxidizing materials, such as sodium chlorate or sodium nitrate;
— chemicals cable of undergoing auto-thermal decomposition, such as some organic peroxides;
— reactive metals (such as sodium, potassium, magnesium, titanium and zirconium), reactive
hydrides or metal amides, some of which may react violently.
4.4 Alarm organization and emergency plan
An alarm organization is required for the following purposes:
— to alert affected and responsible persons;
— to alert the permanently attended location;
— to initiate other necessary protective measures.
The responsibilities for the alarm organization shall be defined.
The emergency plan should cover keywords to designate the basic measures that need to be taken in
case of emergency, too low oxygen level or fire signal.
5 Design
5.1 Qualification of the designer
The designer shall be sufficiently technically qualified to ensure effective protection.
5.2 Fire protection concept
The system design shall be part of the fire safety concept of the building.
As part of the system design a fire risk assessment might lead to further fire protection measures.
EXAMPLE Since the oxygen reduction system cannot prevent or detect smouldering or pyrolizing processes
(e.g. overheated cables) suitable smoke detection systems for the protected volume e.g. high sensitive smoke
detection systems according to EN 54–20 class A, are recommended and should be part of the main fire alarm
system of the facility.
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EN 16750:2017+A1:2020 (E)
Where special circumstances deviate from what is covered in this standard, for example spatial
configuration, structure, installations, combustible materials, altitude different from sea level,
temperature different from normal, fumes or gases, require special measures, the designer shall take
these into account. In these cases the appropriate authorities shall be consulted.
5.3 Structural specifications for the protected area
Structural partitions shall comply with the criteria governing the protection target, as shown in Table 1.
Building regulation specifications are unaffected by these measures.
Table 1 — Structural partitions
Level Protection target Protected Specification Achieved by
volume
Enclosing elements (walls,
floor and roof) shall be
The contents of a room
a
1 shall be protected Room —
sufficiently air tight over the
from internal fires.
life time to protect from
internal fires.
Enclosing elements (walls,
The contents of a room The construction
floor and roof) shall be
shall be protected of fire
a
sufficiently air tight over the
from internal fires and compartments
2 Room
life time and provide
from fires spreading according to the
protection against the spread
from an external relevant
of fire from the surrounding
source. guidelines.
area.
a
Openings shall be constantly sealed or sealable; otherwise the openings shall be reflected in the
calculation of the nitrogen production.
The user should be aware of the relationship between leakage, reduced oxygen air supply and the
system duty cycle.
In the case of oxygen reduction systems all operational openings that are not included in the calculation
of the required levels of oxygen shall be provided with closing m
...
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