Citas bibligráficas
Enciso, F., (2015). Rediseño estructural de un horno reverbero de plomo de 160 t/d por el método (LRFD) y el método de elementos finitos (MEF) en la fundición de la Oroya de DOE RUN PERÚ [Tesis, Universidad Nacional de Ingeniería]. http://hdl.handle.net/20.500.14076/4611
Enciso, F., Rediseño estructural de un horno reverbero de plomo de 160 t/d por el método (LRFD) y el método de elementos finitos (MEF) en la fundición de la Oroya de DOE RUN PERÚ [Tesis]. : Universidad Nacional de Ingeniería; 2015. http://hdl.handle.net/20.500.14076/4611
@mastersthesis{renati/707393,
title = "Rediseño estructural de un horno reverbero de plomo de 160 t/d por el método (LRFD) y el método de elementos finitos (MEF) en la fundición de la Oroya de DOE RUN PERÚ",
author = "Enciso Vargas, Fernando",
publisher = "Universidad Nacional de Ingeniería",
year = "2015"
}
The present research evaluates and analyzes the causal relationship between the following variables: “The structural redesign” and “Improving the installed 160 t / d Furnace Reverb Lead Smelter Oroya capacity”. Due to the antiqueness of the fur- nace, which began its operations in 1 928, many of its main structural components require to be changed and redesigned to provide a greater availability and reliabi- lity. In addition, the increase in the installed capacity will contribute to treat larger volumes of cold drossing derived from Furnaces Heat Lead Smelter. One of the economic benefits is that for every ton of processed drossing, an average of 4.5 k of silver is recovered. This metal is the most profitable element to the furnace operation because of the global demand of lead and silver used in manufacture industry. In this sense, the production capacity of the furnace is increased extending its struc- tural components over a length of 5’-6“. The proposed redesign will be verified using engineering calculations and structural design criteria of the AISC Steel Standard: Load and Design Resistance Factor (LRFD); and the application of modern CAD / CAM tools. Also, this research verifies the mechanical resistance of all structural components of the redesigned furnace, using the Finite Element Method (FEM) for static, buckling and thermo-mechanical analysis for the steel structures, and for the stress and strain analysis. KEYWORDS: Reactor, coke, lead work, reduction zone, melting zone, benchmar- king, availability mechanics, refractory material, refractory bricks, mortars.
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