Citas bibligráficas
Herrera, J., (2019). Elaboración de un plan de mantenimiento correctivo programado de motores eléctricos síncronos de 1250 HP para la empresa minera – Metalúrgica Shougang Hierro Perú S.A., 2018 [Tesis, Universidad Tecnológica del Perú]. https://hdl.handle.net/20.500.12867/2448
Herrera, J., Elaboración de un plan de mantenimiento correctivo programado de motores eléctricos síncronos de 1250 HP para la empresa minera – Metalúrgica Shougang Hierro Perú S.A., 2018 [Tesis]. PE: Universidad Tecnológica del Perú; 2019. https://hdl.handle.net/20.500.12867/2448
@misc{renati/807595,
title = "Elaboración de un plan de mantenimiento correctivo programado de motores eléctricos síncronos de 1250 HP para la empresa minera – Metalúrgica Shougang Hierro Perú S.A., 2018",
author = "Herrera Salas, José Denilson",
publisher = "Universidad Tecnológica del Perú",
year = "2019"
}
The synchronous motor of 1250 HP, 4 kV to 60 Hz of high performance and constant speed, corrects the power factor and drives the ball mill operating in the "Concentration" sub-process carried out in the Magnetic Plant of San Nicolás in the company Minera – Metalúrgica Shougang Hierro Perú S.A. The mill is called "milling medium" and uses 2" diameter carbon steel balls to obtain final products of iron ore with a diameter of 0.074 mm to 0.4 mm. In this subprocess, secondary milling is carried out, which consists in crushing and rectifying the ore. The interruptions in the productive process generated by operational problems in the synchronous motor, originate from the humid, highly corrosive and particulate contamination of the ore and are concentrated in the armature and field windings, constantly lowering the insulation resistance of these. Currently scheduled corrective maintenance is basic. The present "scheduled corrective maintenance plan of the synchronous motor" is elaborated, to significantly improve the continuity of the operation of the engine in question, achieving that the repair in the San Nicolás Electric Workshop (hereinafter, TE SN) is optimal. The electrical control tests are announced (procedural standards rules and compliance requirements: IEEE & IEC) and the finishing process through flow charts, quantifying costs and giving the objectives, conclusions and recommendations of the case to maintain the continuity of the production process.
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