Day 1. ( 10.00-17.00)

Water and foam AUP.

• NTD requirements for the installation of AUPT. Responsible persons, organization of installation supervision. Preparation of materials based on the results of installation. Features of acceptance into operation of AUPT. ...

More about the program

Day 1. ( 10.00-17.00)

Basic terms and definitions.

• Classification of fire extinguishing installations (AFS) by purpose, type, type of fire extinguishing agent, response time, duration of action, nature of automation, etc. The main design features of each type (AUP). A brief algorithm for the selection of fire extinguishing installations in relation to the object of protection.

Water and foam AUP.

• Analysis of current international and domestic standards and regulations. General information on the arrangement of water and foam AUPs and their technical means. The main design features of each type of AUP. The most important nomenclature of technical parameters and the main aspects of the use of AUP.
• Design of water and foam AUP.

Installation and complex adjustment of AUP.

• NTD requirements for the installation of AUPT. Responsible persons, organization of installation supervision. Preparation of materials based on the results of installation. Features of acceptance into operation of AUPT. Documentation presented upon acceptance.

• Operating rules. Maintenance organization. Carrying out repair work. AUP tests.

Fire robots (FR).

• The main design features of the FR. Prospects for the use of fire robots. The most important nomenclature of technical parameters and the main aspects of using FR. Basic requirements for the design of robotic fire extinguishing installations (RPS).

Day 2. ( 10.00-17.00)

Design of water AUPs (part 1).

• The procedure for the development of project documentation for AUP. The procedure for developing a task for the design of AUP. Initial requirements for the development of design documentation.

Application of powder fire extinguishing installations

• The main stages in the development of modern autonomous powder fire extinguishing means. Fire extinguishing powders and extinguishing principles. Powder fire extinguishing modules, types and features, applications. Operation of autonomous fire extinguishing installations based on powder modules.
• General principles for the design of AUPT. Normative-legal base of the Russian Federation and requirements for projects of automatic fire extinguishing systems. Calculation methods for the design of modular fire extinguishing installations.
• Modern methods of warning and control - types of fire and security alarms and control devices for automatic fire extinguishing systems. Wireless automatic fire extinguishing, signaling and warning system "Garant-R".
• Installation of modular fire extinguishing systems. Advantages and disadvantages of using wired and wireless systems. Maintenance and routine maintenance.

The use of water mist fire extinguishing installations on the example of MUPTV "TRV-Garant"

• Scope, performance characteristics, design and principle of operation of MUPTV "TRV-Garant". Design rules for MUPTV "TRV-Garant", a method for calculating the required number of fire extinguishing modules and determining their installation locations. Groups of homogeneous objects (premises and equipment). Requirements for installation of "TRV-Garant" modules.

Day 3 ( 10.00-17.00)

Design of gas fire extinguishing installations (part 1).

• Choice of gas extinguishing agent. Features of the use of specific fire extinguishing agents - Freon, Inergen, CO2, Novec 1230. Market overview of other gaseous fire extinguishing agents.
• Development of a design assignment. Type and composition of the project assignment. specific subtleties.
• Calculation of the mass of the gas fire extinguishing agent. Calculation of the opening area for overpressure relief

Design of gas fire extinguishing installations (part 2). Practical lesson.

• Development of an explanatory note. Basic technical solutions and the concept of the future project. Selection and placement of equipment
• Creation of working drawings. Where to start and what to look for. Design of piping. Calculation of hydraulic flows. Optimization methods. Demonstration of the calculation. Experience in application of programs on real objects.
• Preparation of specifications for equipment and materials. Development of tasks for related sections.

Day 4 (10.00-17.00)

Practical exercise on performing hydraulic calculation (part 2).

• Analysis and example of hydraulic calculation for water fire extinguishing.

Design of an internal fire water pipeline (ERW).

• Basic terms and definitions. ERW classification. Analysis of current international and domestic standards and regulations. The main design features of the component equipment of the ERW. The most important nomenclature and parameters of the technical means of the ERW. The main aspects of the choice of pumping units VPV. Features of the device for high-rise buildings. A brief algorithm for the hydraulic calculation of ERW. Basic requirements for the design of ERW and determining the distance between fire hydrants. Basic requirements for the installation and operation of ERW.

Day 5 (10.00.-13.00 )

Application of foam fire extinguishing

• Scope of foam fire extinguishing systems. The composition of the system. Regulatory and technical requirements. The history of the development of foam fire extinguishing systems. The concept of modern fire extinguishing technologies and their difference from traditional ones. Video demonstration of tests of foam concentrates according to GOST R. Foam concentrates. Classification, application features, regulatory requirements. Requirements for storage, use and disposal. Types of dosing systems. Typical design solutions Centralized and distributed systems for dosing foam concentrate. Methods of phased reconstruction.

AUP management based on S2000-ASPT

• Control of automatic fire extinguishing systems based on the S2000-ASPT fire control device. Functionality and design features. Features of gas, powder and aerosol extinguishing based on S200-ASPT. Gas and powder modules, features of monitoring the status of connected circuits. Working with Orion-Pro.

Final certification in the form of a test. Preparation of accounting documents. Issuance of certificates.

Timely detection of the source of ignition and the adoption of appropriate fire safety measures reduce the risk of further spread of fire. For these purposes, alarm systems and fire extinguishing installations have been created. The National Technological University (NTU), in accordance with the educational License from Mosobrnadzor, conducts advanced training in the course “Designing fire extinguishing installations, fire, security and fire alarm systems”. For a free consultation, please call or fill out an application on the website.

Why is it necessary to improve the qualifications of specialists in the fire alarm design program

A fire extinguishing installation is a system of technical means of extinguishing a fire using some type of fire extinguishing agent. The design of fire extinguishing installations should take into account all the necessary norms and rules, as well as based on the characteristics of the building. The presence of designers with updated qualifications in the course of designing fire and security alarms is a prerequisite for your company's membership in the SRO.

Learning Format

Security alarm design training lasts 72 hours and has a flexible format, since we offer an individual approach to choosing a schedule and provide several forms of study: full-time, part-time, part-time, remote. Experienced teaching staff and modern material and technical base provide high quality education in any form chosen by our clients.

About admission to the course of designing fire extinguishing installations

The advanced training course "Design of fire extinguishing installations, fire, security and fire alarm systems" lasts 72 hours and is taught as an additional to primary, secondary or higher professional education. The certificate of completion of the course is a certificate of the established form. Appointments can be made by phone or through our website.

Studying at NTU, you are guaranteed to receive:

• 467 training programs;
• The most favorable prices;
• The teaching staff of the level of the leading metropolitan university.
• Individual approach to each student, flexible training schedule;
• Personal manager and impeccable quality of service;
• Modern material and technical base and distance learning system (LMS);
• Free consulting help.