Realização de projeto de lavra de mina subterrânea com utilização de aplicativos específicos

Neme, Milton Brigolini; Curi, Adilson; Silva, José Margarida da; Carneiro, Aida Carolina Borges

doi:10.1590/s0370-44672011000500019

Rem: Rev. Esc. Minas

2011

DOI: 10.1590/s0370-44672011000500019

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Realização de projeto de lavra de mina subterrânea com utilização de aplicativos específicos

Milton Brigolini Neme

Adilson Curi

José Margarida da Silva

et al.

Abstract: ResumoO planejamento de mina subterrânea constitui elemento importante para se alcançar a realização de empreendimentos no cenário atual altamente competitivo. Esse planejamento se torna essencial em função das particularidades das minas subterrâne-as, da dificuldade de se conhecer o corpo em profundidade e da locação das escavações subterrâneas.Aplicativos de computador permitem visualização espacial do corpo mineralizado, das seções geológicas e formação dos contornos do minério em 3D. Assim, tais aplicativo… Show more

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“…On the other hand, shock losses correspond to pressure drops resulting from the various changes in the geometry of a mine ventilation circuit that cause increased turbulence, whether related to the direction, section, or curves of the circuit (McPherson, 1993). Many scientists have used computational modeling (Dziurzyński et al, 2017), Computational Fluid Dynamics (CFD), and optimization algorithms to more efficiently simulate systems to design underground mine solutions (Xu et al, 2018;Neme et al, 2011).…”

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Modular ventilation laboratory for educational purposes

Santos,

Oliveira,

Silva

et al. 2024

REM, Int. Eng. J.

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Improving a technical work environment encourages creativity and enhances research efforts. The conception of a modular ventilation laboratory aims at free construction and assembly of the air circuit in different shapes, sizes, and operational variations. The modules allow the development of academic experiences, automatic data acquisition from sensors, data analysis, and verification of concepts related to ventilation in underground mines. The modular ventilation laboratory uses a teaching methodology based on a playful and low-cost way to teach engineering, mainly underground mine ventilation. The aim of this work is essentially to propose the creation of a modular underground mine ventilation laboratory to facilitate engineering teaching and allow the simulation of real situations. The Plan-Do-Check-Act (PDCA) methodology was used to develop a framework for building the modular educational ventilation laboratory. This methodology encompasses project planning and studying, applying the Ventsim ® software, and the design of a teaching laboratory with sensors and microcontrollers using the Internet of Things (IoT). The results involve the construction of a physical project with PVC (polyvinyl chloride) pipes and connections and electronic circuits. The project presents the main parameters monitored in underground mines and foresees the simulation of scenarios, aiming to facilitate an understanding of the concepts of fluid mechanics and mining ventilation. The conclusions indicate that using simulation in pedagogical practices develops several activities that contribute to innumerable learning and expands the network of constructive meanings as a learning strategy.

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mentioning

confidence: 99%

Modular ventilation laboratory for educational purposes

Santos,

Oliveira,

Silva

et al. 2024

REM, Int. Eng. J.

Self Cite

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Realização de projeto de lavra de mina subterrânea com utilização de aplicativos específicos

Cited by 1 publication

References 2 publications

Modular ventilation laboratory for educational purposes

Modular ventilation laboratory for educational purposes

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