Bibliographic citations
Dolores, K., Ramos, J. (2024). Modelo de Sistema de Gestión de Seguridad basado en la Ley 29783 en las actividades del proceso de sostenimiento con shotcrete húmedo de las excavaciones de una mina subterránea del centro del Perú [Trabajo de suficiencia profesional, Universidad Peruana de Ciencias Aplicadas (UPC)]. http://hdl.handle.net/10757/674383
Dolores, K., Ramos, J. Modelo de Sistema de Gestión de Seguridad basado en la Ley 29783 en las actividades del proceso de sostenimiento con shotcrete húmedo de las excavaciones de una mina subterránea del centro del Perú [Trabajo de suficiencia profesional]. PE: Universidad Peruana de Ciencias Aplicadas (UPC); 2024. http://hdl.handle.net/10757/674383
@misc{renati/418881,
title = "Modelo de Sistema de Gestión de Seguridad basado en la Ley 29783 en las actividades del proceso de sostenimiento con shotcrete húmedo de las excavaciones de una mina subterránea del centro del Perú",
author = "Ramos Barrial, Juan Jose",
publisher = "Universidad Peruana de Ciencias Aplicadas (UPC)",
year = "2024"
}
The process of wet shotcrete support in subway mine excavations is a critical activity for the safety and health of workers, since exposure to risks such as rock falls, projection of particles, inhalation of silica dust and contact with hazardous chemicals can cause serious and even fatal accidents. In this study, priority is given to the human resource that comes to make workers, the most valuable asset in mining, in order to analyze each process that is performed before, during and after entering the subway mine, this research includes the accident rate profile of workers to develop strategies to reduce incidents and accidents at work. Workers categorized by area and function were included, both operational and supervisory personnel of the mining company. A participatory action research methodology was applied, collecting data through documentary review (legal regulations, safety manuals and company procedures), direct observation of the wet shotcrete support process and interviews with workers, supervisors and managers of the mine. As a result, the main occupational hazards associated with the wet shotcrete support process were identified and classified into four categories: physical, chemical, ergonomic and psychosocial. Based on these findings, a Safety Management System (SGS) model was designed that includes an occupational health and safety policy, specific and measurable objectives, risk planning, implementation and operation of the system, and a continuous improvement process.
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