Npb 88 01 fire extinguishing and alarm systems. Fire extinguishing and signaling installations. norms and design rules

NPB 88-2001

FIRE EXTINGUISHING AND ALARM INSTALLATIONS.

REGULATIONS AND RULES FOR DESIGN

Fire-extinguishing and alarm systems.
Designing and regulations

Developed:
Federal government agency"All-Russian Order "Badge of Honor" Research Institute of Fire Defense of the Ministry of Internal Affairs Russian Federation"(FGU VNIIPO of the Ministry of Internal Affairs of Russia) (Ph.D. V.V. Pivovarov - head of the topic; D.Sc. S.G. Tsarichenko, Ph.D. V.A. Bylinkin, S.V. Panov - sections 1-4, 10; B.V. Potanin, A.A. Speransky - section 5; S.M. Dymov - section 6; Doctor of Technical Sciences V.M. Nikolaev, Ph.D. N.V. Smirnov - section 7; Ph.D. V.A. Kushchuk, Ph.D. A.V. Dolgovidov - section 8; Ph.D. A.F. Zhevlakov, N. B. Arbuzov, Doctor of Technical Sciences A. N. Baratov - section 9; Ph.D. V. A. Alexandrov, M. B. Filaretov, B. P. Starshinov - sections 2, 3, 11-15).The main department of the State Fire Service of the Ministry of Internal Affairs of the Russian Federation (E.P. Shastitko, V.A. Dubinin) CJSC "Engineering Center - Spetsavtomatika" (V.D. Smirnov, V.V. Grishin, E .G. Wechheiser, V.G. Nosova) - except for sections 9 and 10.

Submitted and prepared for approval by the regulatory and technical department of the Main Directorate of the State Fire Service (GUGPS) of the Ministry of Internal Affairs of Russia.

Agreed with the Gosstroy of Russia (letter No. 9-18/238 of 04/23/01).

Instead of SNiP 2.04.09-84, NPB 21-98, NPB 22-96, NPB 56-96.

sprinkler installations
Deluge installations
Piping installations
Fixing pipelines
Control nodes
Plant water supply
Pumping stations

Application area
Design

Application area
Classification and composition of installations
Design
Safety requirements

Application area
Design

Safety requirements

Application area
Design
Requirements for protected premises
Safety requirements

Water and foam fire extinguishing
Gas and powder fire extinguishing installations
Aerosol fire extinguishing installations
Water mist extinguishing systems

General provisions when choosing types of fire detectors for a protected object
Requirements for the organization of control zones fire alarm
Placement of fire detectors
Fire control devices, fire control devices
Equipment and its placement
Fire alarm loops
Connecting and supply lines for fire alarm systems and control equipment

APPS

Clause 1.1.3; d.t.s. V.A. Gorshkov, d.t.s. Yu.N. Shebeko- Appendix );

Main Directorate of the State Fire Service of the Ministry of the Russian Federation for Civil Defense, Emergencies and Elimination of Consequences natural Disasters (V.E. Tatars, E.P. Shastitko, V.A. Dubinin);

CJSC "Engineering Center - Spetsavtomatika" ( V.D. Smirnov, V.V. Grishin, E.G. Wechheiser, V.G. Nosova) - except for sections and .

INTRODUCED and prepared for approval by the regulatory and technical department of the Main Directorate of the State Fire Service (GUGPS of the Ministry of Internal Affairs of Russia).

AGREED with the Gosstroy of Russia (letter No. 9-18/238 dated April 23, 2001).

Prepared taking into account Amendments No. 1, approved by order of the GUGPS EMERCOM of Russia dated December 31, 2002 No. 60.

Items, tables and formulas that have been modified are marked with an asterisk.

FIRE SAFETY STANDARDS

FIRE EXTINGUISHING INSTALLATIONS
AND ALARMS.
REGULATIONS AND RULES FOR DESIGN

FIRE-EXTINGUISHING AND ALARM SYSTEMS.
DESINGING AND REGULATIONS NORMS

Introduction date 2002-01-01

1 AREA OF USE

1.1*. These standards apply to the design of automatic fire extinguishing and fire alarm systems for buildings and structures for various purposes, including those built in areas with special climatic and natural conditions. The need to use fire extinguishing and fire alarm installations is determined by NPB 110-99, the relevant SNiP and other documents approved in in due course.

1.2. These standards do not apply to the design of automatic fire extinguishing and fire alarm installations:

buildings and structures designed according to special standards;

technological installations located outside buildings;

warehouse buildings with mobile racks;

warehouse buildings for storing products in aerosol packaging;

warehouse buildings with a cargo storage height of more than 5.5 m.

1.3. These standards do not apply to the design of fire extinguishing installations for extinguishing class D fires (according to GOST 27331), as well as chemically active substances and materials, including:

reacting with a fire extinguishing agent with an explosion (aluminum-organic compounds, alkali metals);

decomposing when interacting with a fire extinguishing agent with the release of combustible gases (organolithium compounds, lead azide, aluminum, zinc, magnesium hydrides);

interacting with a fire extinguishing agent with a strong exothermic effect (sulfuric acid, titanium chloride, thermite);

spontaneously combustible substances (sodium hydrosulfite, etc.).

2*. TERMS AND DEFINITIONS

In these standards, the following terms are used with their respective definitions.

Automatic water feeder- a water feeder that automatically provides the pressure in the pipelines necessary for the operation of the control units.

Automatic fire detector- a fire detector that responds to factors associated with a fire (according to GOST 12.2.047).

Autonomous fire detector- a fire detector that responds to a certain level of concentration of aerosol products of combustion (pyrolysis) of substances and materials and, possibly, other fire factors, in the case of which an autonomous power source and all components necessary for detecting a fire and direct notification of it are structurally combined (according to the airbag 66-97).

Automatic fire extinguishing installation- a fire extinguishing installation that automatically operates when the controlled fire factor (factors) exceeds the established threshold values in the protected area.

Autonomous fire extinguishing installation- a fire extinguishing installation that automatically performs the functions of detecting and extinguishing a fire, regardless of external sources power supply and control systems.

Addressable fire detector- a fire detector that transmits to the addressable control panel code of your address along with a fire notice (according to NPB 58-97).

Accelerator- a device that, when the sprinkler is triggered, reduces the response time of the sprinkler air signal valve.

Battery gas fire extinguishing - a group of gas fire extinguishing modules, united by a common manifold and a manual start device.

Auxiliary water feeder- a water feeder that automatically provides the pressure in the pipelines necessary to operate the control units, as well as the estimated flow and pressure of water and / or aqueous solution before the main water feeder enters the operating mode.

Gas fire detector- a fire detector that responds to gases released during smoldering or burning materials (according to NPB 71-98).

Fire extinguishing aerosol generator- a device for obtaining a fire-extinguishing aerosol with specified parameters and supplying it to the protected room.

Remote switching on (start) of the unit- switching on (starting) from starting elements installed in or near the protected room, in the control room or at the fire post, near the protected structure or equipment.

Differential thermal fire detector- a fire detector that generates a fire notification when the temperature rise rate exceeds environment the established threshold value (according to NPB 85-2000).

dispenser- a device designed for dosing foam concentrate (additives) to water in fire extinguishing installations.

deluge sprinkler- sprinkler with an open outlet (according to GOST R 51043).

Drencher fire extinguishing installation- fire extinguishing installation equipped with deluge sprinklers.

Smoke ionization (radioisotope) fire detector- a fire detector, the principle of operation of which is based on the registration of changes in the ionization current resulting from exposure to combustion products.

Optical smoke detector- a fire detector that reacts to combustion products that can affect the absorbing or scattering ability of radiation in the infrared, ultraviolet or visible ranges of the spectrum (according to NPB 65-97).

Smoke detector- a fire detector that reacts to particles of solid or liquid products of combustion and (or) pyrolysis in the atmosphere (according to NPB 65-97).

Stock of fire extinguishing agent- the required amount of fire extinguishing agent stored at the facility in order to quickly restore the estimated amount and reserve of fire extinguishing agent (according to GOST 12.3.046).

Locking and starting device- a locking device installed on a vessel (cylinder) and ensuring the release of a fire extinguishing agent from it.

Fire alarm control zone (fire detectors)- a set of areas, volumes of the premises of the object, the appearance of fire factors in which will be detected by fire detectors.

Installation inertia- the time from the moment the controllable fire factor reaches the response threshold of the sensitive element until the start of the fire extinguishing agent (composition) supply to the protected area.

Note . For fire extinguishing installations, which provide for a delay in the release of a fire extinguishing agent during the evacuation of people from the protected premises and the shutdown of process equipment, this time is not included in their inertia.

The intensity of the supply of fire extinguishing agent- the amount of fire extinguishing agent supplied per unit area (volume) per unit time.

Delay camera- a device installed in the line of a pressure alarm designed to minimize the possibility of false alarms caused by the opening of the alarm valve due to sharp fluctuations in the pressure of the water supply.

Combined fire detector- a fire detector that responds to two or more fire factors.

Linear fire detector (smoke, heat)- a fire detector that responds to fire factors in an extended, linear zone.

Main pipeline- a pipeline connecting the switchgears of gas fire extinguishing installations with distribution pipelines.

Maximum differential thermal fire detector- a fire detector that combines the functions of maximum and differential thermal fire detectors (according to NPB 85-2000).

Maximum thermal fire detector- a fire detector that generates a fire notice when the ambient temperature exceeds the set threshold value - the detector response temperature (according to NPB 85-2000).

Local switching (start) of the installation- switching on (starting) from starting elements installed in the room pumping station or fire extinguishing station, as well as from starting elements installed on fire extinguishing modules.

Modular fire extinguishing installation- a fire extinguishing installation, consisting of one or more modules capable of independently performing the fire extinguishing function, located in or near the protected room.

Fire extinguishing module- a device, in the body of which the functions of storing and supplying a fire extinguishing agent are combined when a starting pulse is applied to the module drive.

Pulse fire extinguishing module- a fire extinguishing module with a fire extinguishing agent supply duration of up to 1 s.

nozzles- a device for the release and distribution of fire extinguishing agent.

Normative intensity of supply of fire extinguishing agent- the intensity of the supply of fire extinguishing agent, set in normative documentation.

Normative fire extinguishing concentration- fire extinguishing concentration established in the current regulatory documents.

Fire extinguishing aerosol- products of combustion of an aerosol-forming composition, which have a fire-extinguishing effect on the fire.

extinguishing agent- a substance with physical and chemical properties that allow you to create conditions for the cessation of combustion (according to GOST 12.1.033).

Fire extinguishing concentration- the concentration of the fire extinguishing agent in the volume, creating an environment that does not support combustion.

Sprinkler- a device for spraying or spraying water and / or aqueous solutions (according to GOST R 51043).

Main water feeder- a water feeder that ensures the operation of the fire extinguishing installation with the estimated flow rate and pressure of water and / or aqueous solution for a specified time.

Room leakage parameter- a value that numerically characterizes the leakage of the protected premises and is defined as the ratio of the total area of permanently open openings to the volume of the protected premises.

Supply pipeline- a pipeline connecting the control unit with distribution pipelines.

incentive system- pipeline filled with water, aqueous solution, compressed air, or a cable with thermal locks, designed for automatic and remote activation of deluge fire extinguishing installations, as well as gas or powder fire extinguishing installations

Supply pipeline- a pipeline connecting the source of fire extinguishing agent with control units.

fire detector- a device for generating a fire signal (according to GOST 12.2.047).

Flame fire detector- a device that reacts to the electromagnetic radiation of a flame or smoldering hearth (according to NPB 72-98).

fire station- a special room of the facility with a round-the-clock stay of personnel on duty, equipped with devices for monitoring the state of fire automatics.

fire alarm- a device for generating a signal about the operation of fire extinguishing installations and / or locking devices.

Fire control device- a device designed to generate control signals for automatic fire extinguishing equipment, monitor their condition, control light and sound annunciators, as well as various information displays and mnemonic diagrams (according to NPB 75-98).

Fire alarm control device- a device designed to receive signals from fire detectors, provide power to active (current-consuming) fire detectors, output information to light, sound annunciators and centralized monitoring consoles, as well as generate a starting impulse for starting a fire control device (according to NPB 75-98).

Fire control and control device- a device that combines the functions of a fire control and fire control device (according to NPB 75-98).

Distribution pipeline- a pipeline with sprinklers (nozzles) installed on it for distributing a fire extinguishing agent in the protected area.

Switchgear - a locking device installed on the pipeline and ensuring the passage of a gas fire extinguishing agent into a certain main pipeline.

Estimated amount of fire extinguishing agent- the amount of fire extinguishing agent determined in accordance with the requirements of regulatory documents and stored in the fire extinguishing installation, ready for immediate use in the event of a fire.

Reserve of extinguishing agent- the required amount of fire extinguishing agent, ready for immediate use in cases of re-ignition or failure of the fire extinguishing installation to fulfill its task (according to GOST 12.3.046).

Manual fire detector- a device designed to manually turn on the fire alarm signal in fire alarm and fire extinguishing systems (according to NPB 70-98).

Fire alarm system- a set of fire alarm installations mounted at one facility and controlled from a common fire station.

Connecting lines- wires and cables that provide the connection between the components of the fire alarm system.

sprinkler sprinkler- a sprinkler with a locking device for the outlet opening when the thermal lock is activated (according to GOST R 51043).

Sprinkler water-filled fire extinguishing installation- sprinkler fire extinguishing installation, all pipelines of which are filled with water (water solution).

Sprinkler air fire extinguishing installation- sprinkler fire extinguishing installation, the supply pipeline of which is filled with water (water solution), the rest - with air under pressure.

Sprinkler fire extinguishing installation- automatic fire extinguishing installation equipped with sprinklers.

fire extinguishing station- vessels and equipment of fire extinguishing installations located in a special room.

The degree of leakage of the room- expressed as a percentage, the ratio of the total area is constant open openings to the total surface area of the room.

thermal lock- a locking thermosensitive element that opens at a certain temperature value.

Thermal fire detector- a fire detector that responds to a certain temperature value and (or) its rate of increase (according to NPB 85-2000).

Finely sprayed jet (torch) of water- water obtained as a result of crushing a water jet into drops, the arithmetic mean diameter of which is 150 microns or less.

Point fire detector (smoke, heat)- a fire detector that reacts to fire factors in a compact area.

Control node- a set of locking and signaling devices with accelerators (decelerators) of their operation, pipe fittings and measuring instruments located between the suitable and supply pipelines of water and foam fire extinguishing installations and intended for their start-up and performance monitoring.

Installation of local fire extinguishing by volume- installation of volumetric fire extinguishing, affecting a part of the volume of the room and / or a separate technological unit.

Installation of local fire extinguishing on the surface- installation of surface fire extinguishing, affecting part of the area of the room and / or on a separate technological unit.

Volumetric fire extinguishing installation- fire extinguishing installation to create an environment that does not support combustion in the volume of the protected room (structure).

Surface fire extinguishing installation- a fire extinguishing installation that acts on a burning surface.

Fire alarm installation- aggregate technical means for detecting a fire, processing, presenting a fire notice in a given form, special information and / or issuing commands to turn on automatic fire extinguishing installations and technical devices.

Fire extinguishing installation- a set of stationary technical means for extinguishing a fire by releasing a fire extinguishing agent.

Centralized gas fire extinguishing installation- installation of gas fire extinguishing, in which cylinders with gas are placed in the premises of the fire extinguishing station.

Fire alarm loop- connecting lines laid from fire detectors to junction box or control panel.

3. GENERAL PROVISIONS

3.1*. Automatic settings fire extinguishing should be designed taking into account the regulatory documents in force in this area, as well as building features protected buildings, premises and structures, the possibility and conditions for the use of fire extinguishing agents based on the nature technological process production.

3.2*. Automatic fire extinguishing installations must simultaneously perform the functions of an automatic fire alarm.

Extinguishing class C fires is possible if this does not create an explosive atmosphere.

3.3*. The type of fire extinguishing installation, method of extinguishing, fire extinguishing agent are determined by the design organization, taking into account fire hazard and physical and chemical properties of produced, stored and used substances and materials, as well as features of the protected equipment.

3.4*. When installing fire extinguishing installations in buildings and structures with the presence of separate rooms in them, where, according to the standards, only a fire alarm is required, instead of it, taking into account the feasibility study, it is allowed to provide for the protection of these premises by fire extinguishing installations, taking into account the requirements of clause 1.6 of NPB 110 -99* . In this case, the intensity of the fire extinguishing agent supply should be taken as standard, and the flow rate should not be dictated.

3.5 When the fire extinguishing installation is triggered, a signal should be provided to turn off the process equipment in the protected room in accordance with the process regulations or the requirements of these standards.

4. FIRE EXTINGUISHING INSTALLATIONS WITH WATER, LOW AND MEDIUM EXPENSION FOAM

4.1. The execution of water fire extinguishing installations must comply with the requirements of GOST R 50680, foam - GOST R 50800.

4.3. Installations of water, low expansion foam, as well as water fire extinguishing with a wetting agent are divided into sprinkler and deluge.

4.4. The area for calculating the flow rate and the operating time of installations in which water with an additive is used as a fire extinguishing agent are determined similarly to water fire extinguishing installations according to Table 1.

Room group	Irrigation intensity, l / (s ∙ m 2), not less than		Maximum area controlled by one sprinkler or thermal lock of the incentive system, m 2	Area for calculating the consumption of water, foam concentrate solution, m 2	Duration of operation of water fire extinguishing installations, min	Maximum distance between sprinklers or fusible locks, m
Room group	water	foam concentrate solution				Maximum distance between sprinklers or fusible locks, m
	0,08
	0,12	0,08
	0,24	0,12
		0,15			60 9
Notes : 2. When equipping the premises with deluge installations, the area for calculating the flow rate of water, foam concentrate solution and the number of simultaneously operating sections should be determined depending on the technological requirements. 3. The duration of operation of foam fire extinguishing installations with low and medium multiplicity should be taken: 15 min - for rooms of categories A, B, C1 for explosion and fire hazard; 10 minutes - for rooms of categories B2, B3 for fire hazard. 4. For fire-extinguishing installations in which water is used as an extinguishing agent with the addition of a wetting agent based on a foam concentrate general purpose, the intensity of irrigation is taken 1.5 times less than for water. 5. For sprinkler installations, the values of irrigation intensity and area for calculating the flow rate of water and foam concentrate solution are given for rooms up to 10 m high, as well as for lamp rooms with a total area of lanterns not more than 10% of the area. The height of the lantern room with an area of lanterns of more than 10% should be taken before the lantern is covered. The indicated installation parameters for rooms with a height of 10 to 20 m should be taken from Table 3. 6. The table shows the intensity of irrigation with a general purpose foam concentrate solution. 7. If the area protected by water and foam fire extinguishing installations less area to calculate the water consumption indicated in the table, then the consumption of water or foam solution for the fire extinguishing installation is determined based on the actual area.

0,16

0,08

St. 1 to 2

0,16

0,08

0,32

St. 2 to 3

0,24

0,12

0,24

St. 3 to 4

0,32

0,16

0,32

St. 4 to 5.5

0,32

Notes :

1. Groups of premises are given in the appendix.

2. In group 6, it is recommended to extinguish rubber, rubber, resins with water with a wetting agent or low-expansion foam.

3. For warehouses with a storage height of up to 5.5 m and a room height of more than 10 m, the intensity and area values \u200b\u200bfor calculating the flow rates of water and foam concentrate solution in groups 5-7 should be increased at the rate of 10% for every 2 m of room height.

4. The table shows the intensity of irrigation with a general purpose foam concentrate solution.

There are two opposing opinions, and mienno:

1st from Yu.I. Deshevykh: http://www.mchs.gov.ru/interviews/de...

"As I said, all mandatory fire safety requirements are contained in the Technical Regulations, codes of practice and national standards. In addition, I have already said, Article 151 of the Technical Regulations establishes that all regulatory documents that were previously issued in the field of ensure fire safety and do not contradict the requirements of the Technical Regulations.

2nd from Vladimir Puchkov: http://www.mchs.gov.ru/interviews/de...

"After the entry into force of the technical regulation from May 1, 2009, sets of rules and national standards come into force. First of all, they should be used to confirm the fire safety requirements established by the technical regulation .... Only 12 sets of rules and only 84 national standard .... One or two more documents will be adopted in the near future. These are the main regulatory documents that will be in force on the territory of the Russian Federation in the field of fire safety. "

How they should find out everything among themselves remains a mystery. The country is slowly plunging into the darkness of a legal misunderstanding of fire safety standards.

THERE WAS A QUESTION:

Federal Law of December 30, 2009 No. 384-FZ " Technical regulation on the Safety of Buildings and Structures” (hereinafter referred to as the Federal Law) provides that the safety of buildings and structures, as well as the processes of design (including surveys), construction, installation, commissioning, operation and disposal (demolition) associated with buildings and structures, is ensured through compliance with the requirements Federal law and the requirements of standards and codes of practice included in:

A list of national standards and codes of practice (parts of such standards and codes of practice), as a result of which, on a mandatory basis, compliance with the requirements of this Federal Law (approved by Order of the Government of the Russian Federation of June 21, 2010 No. 1047-r) is ensured;

The list of documents in the field of standardization, as a result of which, on a voluntary basis, compliance with the requirements of this Federal Law (approved by the Order of Rostekhregulirovanie dated June 1, 2010 No. 2079) is ensured.

Since 01 01 2013, a number of joint ventures have been adopted and approved (by orders of the Ministry of Regional Development and the Ministry of Emergency Situations). Please tell me what standards should be followed in the design of buildings and structures at the present time, before changes are made to the above lists?

Thanks in advance for clarifications.

ANSWERS RECEIVED:

No. 130-39/1203 dated 04/26/2013

Ministry of Regional Development of Russia

We send according to the affiliation received to Rosstandart to electronic form appeal dated 04/12/2013 on the issue of standards in the design of buildings and structures.

Application: per 1 liter. in 1 copy. only to the first address.

Head of Technical Department

regulation and standardization V.N. Klyushnikov

Serebryakova T.A.

from the Ministry of Regional Development:

8377-10/VL-OG dated 06/20/2013

The Ministry of Regional Development of the Russian Federation considered your appeal received from the Federal Agency for Technical Regulation and Metrology by letter No. 130-39/1203 dated April 26, 2013, and reports the following.

To confirm the compliance of buildings and structures at all stages of their life cycle you should use the requirements of the regulatory documents included in the "List of documents in the field of standardization, as a result of which, on a voluntary basis, compliance with the requirements of the federal law of December 30, 2009 N 384-FZ "Technical regulation on the safety of buildings and structures", approved by order federal agency on technical regulation and metrology dated 06/01/2010 N 2079 and "List of national standards and codes of practice (parts of such standards and codes of rules), as a result of which, on a mandatory basis, compliance with the requirements of the Federal Law "Technical Regulations on the Safety of Buildings and Structures" is ensured, approved by Decree of the Government of the Russian Federation of June 21, 2010 No. 1047-r” in those editions that are in effect at the time these requirements are applied.

Director of the Department of State Policy in the Sphere

construction and architecture V.I. Levdikov

Use Bugaeva N.N.

In my answer, I did not say that NPB 88-2001 does not work.

On the contrary, I wrote that this document was not repealed by any normative act.

However, another document SP 5.13130.2009 was adopted, which does not cancel NPB 88-2001.

I expressed my opinion that if the norms of documents NPB 88-2001 and SP 5.13130.2009 contradict each other, then the norms of SP 5.13130.2009 apply.

That is, NPB 88-2001 is valid to the extent that it does not contradict SP 5.13130.2009.

Thus, the Federal Antimonopoly Service of the Volga District in its Decree dated August 28, 2012 in case N A72-9003 / 2011 stated the following: “The design of fire alarm systems is currently regulated by SP 5.13130.2009, which is a document of voluntary use, and not NPB 88-2001“ Fire extinguishing installations and signaling. Norms and design rules "approved by Order of the GUGPS of the Ministry of Internal Affairs of the Russian Federation dated 04.06.2001 N 31. "

In addition, the Federal Law of June 22, 2008 N 123-FZ "Technical Regulations on Fire Safety Requirements", defining the main provisions of technical regulation in the field of fire safety and establishing General requirements fire safety to objects of protection (products), provides that from the date of entry into force of this Federal Law until the date of entry into force of the relevant technical regulations, the requirements for objects of protection (products), processes of production, operation, storage, transportation, sale and disposal (withdrawal out of service) established by regulatory legal acts Russian Federation and normative documents federal executive bodies are subject to mandatory execution in the part that does not contradict the requirements of the said Federal Law (Article 151).

Question #4607793 asked the following:

1. "Manual on fire safety (NPB88-01) has lost its legal force or not?"

I answered: “Fire safety standards “Fire extinguishing and alarm installations. Design standards and rules. NPB 88-2001”, approved. By order of the GUGPS of the Ministry of Internal Affairs of the Russian Federation of 04.06.2001 N 31, not canceled by any normative act.

That is, they have not completely lost their power.

2. Fire inspectors have a nightmare that this document is not valid. Refer to the set of rules (SP-5)

I replied: "The second document ... has more legal force than the first."

That is, if the norms of documents NPB 88-2001 and SP 5.13130.2009 contradict each other, then the norms of SP 5.13130.2009 apply.

There was no question of the mandatory application of SP 5.13130.2009.

In addition, the question did not indicate which facilities were in question, which were put into operation or underwent major official repairs before the entry into force of 123-FZ "Technical Regulations on Fire Safety Requirements" and the Code of Rules or later.

I was not asked to comment on my answer.

I don't think my answer is correct.

Presents to the attention of users the materials to NPB 88 2001 - the norms and rules for the design of alarms and fire extinguishing installations. A whole section of the system is devoted to the answers of our specialists, explaining the features of the application of certain legal acts.

Here are just some of the topics related to NPB 88 01, on which our experts advised:

Which document prescribes the procedure and deadline for the implementation of fire alarm documentation?
Is the statement of the supervisory authorities demanding the replacement of heat detectors and specify the exact timing of the replacement?
Is it possible to install a powder fire extinguishing system in warehouse space located in the basement of the railway station?

NPB 88 2001 “Fire extinguishing and alarm installations” were approved by the Decree of the Ministry of Emergency Situations of the Russian Federation No. 60 dated 31. 12. 2002, thus, today the norms are in force. At the same time, citizens whose professional activity intersects with fire safety and fire extinguishing systems, often refer to search engines, and to specialists "Techexpert: Fire safety» with the question: are NPB 88 2001 valid or not?

Is NPB 88 01 valid after the entry into force of FZ-123?

Doubts about the status of these norms and rules are associated with the adoption of FZ-123 on technical regulations for fire safety requirements. However, neither this technical regulation, nor SP 5.13130.2009 cancel or reduce the importance of the rules and regulations for fire alarms.

The main principle of the application of NPB 88 2001 is non-contradiction with the requirements of 123-FZ, which entered into force on 01.05. 2009. NPB 88 01 "Fire extinguishing and signaling installations" are applied when it comes to erected buildings, as well as objects that are at the design stage. At the same time, the list of objects to which NPB 88 2001 does not apply is quite wide, among them:

structures, the project of which is created according to special programs;
technological installations located outside buildings;
warehouses with mobile racks;
warehouses where goods sealed in aerosol packaging are stored.

Here are just some of the topics related to NPB 88 01, on which our experts advised:

Which document prescribes the procedure and deadline for the implementation of fire alarm documentation?
Is the statement of the supervisory authorities lawful, requiring the replacement of heat detectors and specifying the exact replacement time?
Is it possible to install a powder fire extinguishing system in a warehouse located in the basement of a railway station?

NPB 88 2001 “Fire extinguishing and alarm installations” were approved by the Decree of the Ministry of Emergency Situations of the Russian Federation No. 60 dated 31. 12. 2002, thus, today the norms are in force. At the same time, citizens whose professional activities intersect with fire safety and fire extinguishing systems often turn to search engines, and even to specialists. "Techexpert: Fire safety" with the question: are NPB 88 2001 valid or not?

Is NPB 88 01 valid after the entry into force of FZ-123?

structures, the project of which is created according to special programs;
technological installations located outside buildings;
warehouses with mobile racks;
warehouses where goods sealed in aerosol packaging are stored.