Formulation of the problem. In the field of fire safety, the term "fire risk" is used, ie it is a measure of the possibility of realizing the fire danger of the objects of protection and its consequences for people and material values. Safeguarding the fire safety of security objects consists of identifying, analyzing and evaluating fire risk, which allows the development and implementation of appropriate measures to reduce it to an acceptable level. The most dangerous fires are fires in open warehouses of production facilities. In most cases, such fires, if not detected early, have time to spread over large areas and cause material damage. In most cases, fire protection at the open warehouses of production facilities, taking into account the fire risk, is practically non-existent. Therefore, investigating the issue of fire safety at these sites, taking into account the fire risk and the use of automatic fire alarms and fire alarm systems, is an urgent and timely task.The goal of the work. Develop a methodology for providing fire safety for open warehouses of manufacturing facili-ties, taking into account fire risk and using automatic fire alarms and alerts.Fire Safety, №36, 2020 39Formulation of the problem and its solution. The task of determining the area of service for fire detectors and detec-tors in open warehouses of production facilities was set and solved. In addition, dependencies were obtained to determine the components of fire risk. An example of determining fire risk for open timber composition was then considered. The results of the calculations performed for the above example confirmed the reliability of the developed methodology of en-suring fire safety for open warehouses of production facilities.Conclusions and specific suggestions:1. A methodology for ensuring fire safety for open warehouses of production facilities was developed, taking into account the fire risk and thereby ensuring the inadmissibility of serious consequences from the fire for the working warehouse.2. The following set of fire protection systems and systems provides acceptable fire risk for the object of protection for up to 10 years of their operation. Therefore, the arrangement of open warehouses with such fire-fighting equipment and systems is mandatory.3. The dependencies developed to determine the components of fire risk were based on the basic principles of the theory of reliability and showed high reliability and adequacy with the true values considered in the example.
Formulation of the problem. Minimizing the consequences of fires is the problem of particular importance for the cities of Ukraine. Closed and open warehouses in industrial enterprises are the buildings of the highest risk. Due to the results of the analysis, the problem is that insufficient consideration is given to the provision of fire protection of industrial warehouse facilities. Proceeding from the above it is possible to state that the elaboration of the main directions of provision of fire protection of industrial warehouse facilities is very important. The goal of the work. To develop a methodology for providing fire protection of industrial warehouse facilities taking into account the fire risk. Tasks setting and their solution. To ensure the fire protection of industrial warehouse facilities, the following tasks must be addressed as a priority: 1) to develop a classification of industrial warehouse facilities for the possible grouping of fire-prevention means for protection of such facilities during fires; 2) to develop mathematical dependencies for determining the required number of fire-prevention means for industrial warehouse facilities; 3) to develop a methodology for providing fire protection of industrial warehouse facilities taking into account the fire risk. To solve the first problem, recommendations were taken into account, on the basis of which the scheme of classification of industrial warehouse facilities was developed. In order to solve the second task in the first stage, all necessary fire protection facilities were determined to ensure the fire safety of industrial warehouse facilities. After accepting all necessary fire-fighting equipment for the provision of fire safety of industrial warehouse facilities, mathematical dependencies have been developed to determine their required quantity. To solve the third task the recommendations of the World Health Organization and the Decree of the Cabinet of Ministers of Ukraine dated February 29, 2012, № 306 was used. Taking into account the above mentioned fire protection systems, mathematical models of fire risk calculation for closed, semi-closed and open industrial and warehouse facilities were developed. Conclusions and specific suggestions: 1. The mathematical models of fire risks for closed, semi-closed and open industrial warehouse facilities are given, which make it possible to develop a methodology for determining the optimal amount of fire-fighting equipment and thereby provide fire protection for these objects. 2. To optimize the choice of the required number of fire-fighting equipment, it is necessary to establish an optimization criterion that would be based on the determined direct losses from the fire, expenses of the fire and rescue units for the elimination of fire and expenses for fire protection. 3. The developed mathematical models of fire risks require further improvement with the aim of their introduction and use on the basis of information technologies. These models allow to take all necessary measures for providing fire safety during the audit of closed, semi-closed and open industrial warehouse facilities.
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