Mathematics (Apr 2022)

Physical Modeling and Structural Properties of Small-Scale Mine Ventilation Networks

  • David-Fernando Novella-Rodriguez,
  • Emmanuel Witrant,
  • Christian Commault

DOI
https://doi.org/10.3390/math10081253
Journal volume & issue
Vol. 10, no. 8
p. 1253

Abstract

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This work is devoted to the modeling and structural analysis of ventilation networks in small-scale mines using a physically oriented modeling method that ensures power conservation. Small-scale mines are common in the mineral extraction industry of underdeveloped countries and their physical characteristics are taken into account in the modeling process. The geometrical topology of the ventilation network in addition with the conservation laws of the fluid distribution along the network are considered in order to obtain a simple modeling methodology. Non-linear characteristics of the interconnected fluid dynamics represent a challenge to determine significant features of the system from a control point of view. Observability and controllability properties are analyzed by considering the structural systems approach. An structural analysis provides information based on the network topology independently of the mine parameters allowing the number of sensors and actuators to be reduced while also preserving the observability and controllability of the ventilation system. Experimental results are provided by building a small-scale ventilation network benchmark to evaluate the proposed model and its properties.

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