FIRE SPREAD INVESTIGATION METHODOLOGY FROM A WIND POWER PLANT TO ADJACENT OBJECTS
DOI:
https://doi.org/10.33042/2522-1809-2025-1-189-377-383Keywords:
wind power plant, fire protection distance, fire spreadAbstract
The research is devoted to the development and disaggregation of the carbon methodology to the extension of processes from wind power plants to adjacent objects. It has been determined that the most unsafe and unpleasant scenario for the development of fires for wind power plants is “ruin-fire” or “fire-ruin”. The authors carried out an analysis of the main shortcomings in the approaches to the rozrokhunkovogo identification of the opposite relations between the bodies and spores and the identification of problematic nutritional issues to the development of the scientific foundations of the assessment of the necessary values of the opposite ones between objects with specific geometric parameters, as well as other areas of interest. Fire safety measures and restrictions during full-scale fire experimental studies are justified, and environmental conditions and external wind influences are determined. Based on the most significant parameters that are involved in the process of assessing anti-fire structures, a proprietary methodology for conducting full-scale fire experimental investigations for the processes of fire expansion under wind has been developed. electrical installations to small objects. It is determined that the type, characteristics and extent of the necessary equipment and features of vimiruval technology for conducting experimental fire investigations are determined. The parameters of the fire platform and the main components of the imitation model of the wind power plant have been determined, as well as safety precautions for personnel have been determined. Further investigations will be aimed at the practical implementation of the fragmented methodology, by conducting a series of full-scale fire investigations. Also, the significance of the deposits is transferred to the infusion of design parameters of wind power plants in the process of expansion of the same objects, as a scientific basis for improving the basic rozrunkov method of assessing contrasting sections between everyday objects.
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