Bibliographic citations
Torres, W., (2021). Evaluación y optimización energética del horno de tiro balanceado de la unidad de destilación al vacío de la nueva Refinería Talara [Trabajo de suficiencia profesional, Universidad Nacional de Ingeniería]. http://hdl.handle.net/20.500.14076/21925
Torres, W., Evaluación y optimización energética del horno de tiro balanceado de la unidad de destilación al vacío de la nueva Refinería Talara [Trabajo de suficiencia profesional]. PE: Universidad Nacional de Ingeniería; 2021. http://hdl.handle.net/20.500.14076/21925
@misc{sunedu/3926940,
title = "Evaluación y optimización energética del horno de tiro balanceado de la unidad de destilación al vacío de la nueva Refinería Talara",
author = "Torres Reynoso, Wilber Frances",
publisher = "Universidad Nacional de Ingeniería",
year = "2021"
}
The Talara refinery has presented modifications (revamping) throughout the years of operation, in order to maintain the quality of its products, strengthen its position in the market and maintain the energy matrix in the country. As a result of this need for improvement, the Talara Refinery Modernization Project (PMRT) was born, which aims to produce less sulfurized fuels and reduce emissions into the atmosphere. The PMRT contemplates the construction of various process units, among them is the new Vacuum Distillation III (DV3) unit. Said unit will have a balanced draft furnace, an equipment that is characterized by having a high theoretical efficiency compared to conventional natural, forced and induced draft furnaces. The objective of this work is to develop a tool that allows evaluating the efficiency of the balanced draft furnace, which is a fundamental piece of equipment for the energy optimization of the new Vacuum Distillation III (DV3) unit. The high efficiency of the vacuum oven (DV3-H-001) is mainly due to the type of configuration selected for the equipment, which is provided with an air preheating system and the inclusion of coils in the convective zone for superheating the steam. low and medium pressure. Through its configuration, the energy recovery of the combustion gases is optimized, increasing its efficiency, which means a reduction in fuel consumption, a reduction in atmospheric emissions, a greater operational panorama and an increase in economic resources for the company.
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