Litcius/Paper detail

Improving the efficiency of forest fire prevention and suppression with of forest fire machine

Maksim Gnusov, Петр Попиков, Sergey Malyukov, Nikita Aleksandrovich Sherstyukov, Anton Pozdnyakov

2020IOP Conference Series Materials Science and Engineering16 citationsDOIOpen Access PDF

Abstract

Abstract One of the main difficulties in combating forest fires with conventional water-based methods is the difficult topography and the fact that there are usually no accessible roads to bring firefighting techniques closer to the fire site. Today, a large number of scientific teams are working on the topic of extinguishing the edge of a forest fire with soil. The aim of the study is to increase the efficiency of forest fire prevention and extinguishing by ground-throwing machines by removing the upper combustible layer of forest soil, the formation of a loosened soil shaft from the mineralized layers of forest soil and throwing soil into the edge of a forest ground fire. The paper briefly describes the technical means for extinguishing forest fires using soil. The analysis of the structures of soil-throwing machines has been carried out. The promising directions for improving the technology and working bodies of fire-fighting ground launchers are described, the advantages and disadvantages of its designs are revealed, and ways of further improvement are outlined. A promising design of a strip-laying soil gun with a hydraulic drive of working bodies for preventing and extinguishing forest fires is presented. A distinctive feature of the developed design of the strip-laying soil launcher is the use of an auger to remove the upper fire-hazardous cover, consisting of plant residues, and cut spherical discs to improve the quality of loosening the soil shaft. As a result of the conducted studies of the working process of the strip-laying machine, it was found that the share of the soil covers with combustible materials in the soil flow decreased from 40 to 7%, and the quality of soil shaft loosening increased by 17%, due to which the average distance of soil ejection increased from 10 to 15 m and the power consumption of the rotor-thrower is reduced from 12 to 10 kW.

Topics & Concepts

Environmental scienceFirefightingWildfire suppressionFire preventionEngineeringFire protectionCivil engineeringArchitectural engineeringGeographyCartographyFire effects on ecosystemsForest Biomass Utilization and ManagementAgricultural Productivity and Crop Improvement