Citas bibligráficas
Huauya, J., (2018). Propuesta de implementación de un sistema extractor de polvo para el aumento de producción en la empresa Unicon Planta Ancieta, El Agustino [Trabajo de suficiencia profesional, Universidad Privada del Norte]. https://hdl.handle.net/11537/15278
Huauya, J., Propuesta de implementación de un sistema extractor de polvo para el aumento de producción en la empresa Unicon Planta Ancieta, El Agustino [Trabajo de suficiencia profesional]. PE: Universidad Privada del Norte; 2018. https://hdl.handle.net/11537/15278
@misc{sunedu/4106157,
title = "Propuesta de implementación de un sistema extractor de polvo para el aumento de producción en la empresa Unicon Planta Ancieta, El Agustino",
author = "Huauya Quispe, Juan Pablo",
publisher = "Universidad Privada del Norte",
year = "2018"
}
In the block plant - Unicon, the products manufactured are not delivered to time, due to an increase in drying time (curing), causing customer dissatisfaction. It has been observed that one of the raw materials in the manufacture of concrete blocks is contaminated. The raw material confix "Huso 7” has a large amount of powder in its structure, which causes an increase in cement and water in the manufacture. As well as the increased drying of the product. From the foregoing, it is proposed to implement a dust extraction system taken together dosing system to optimize the quantity and quality of concrete block production and meet market demand. This is achieved by implementing an exhaust system, which is injection, extraction and transfer. In the injection process, pressurized air is introduced by directed metallic ducts (110 PSI), in the drop of the confectionery towards the aggregate strip, causing the greatest amount of dust in the hermetic located extractor hood. In the extraction process, the dust and trash (paper, plastic among others) is taken to the cyclone when they are larger diameter particles and the fine particles end up in the bag filters. The entire route is done through metal conduits. With the available area, the dust extraction system will be implemented, which will reduce 217.94 grams per each block of concrete manufactured. As well as a lower amount of cement and water in each mixture. The drying time (curing) will also be reduced. The optimal functioning of the system increases the work of the curing room (drying room), 2 times more per week, generating more products and meeting the demands. Reducing the reduction in the processes of stacking and storage.
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