Evaluación del régimen de temperatura del fluído multifásico para la optimización energética del proceso de bombeo hacia la separación, en el campo Edén Yuturi, bloque 12, de la empresa Petroamazonas EP, durante el año 2015. Propuesta de una metodología para la operación de rendimiento eficiente.

Evaluación del régimen de temperatura del fluído multifásico para la optimización energética del proceso de bombeo hacia la separación, en el campo Edén Yuturi, bloque 12, de la empresa Petroamazonas EP, durante el año 2015. Propuesta de una metodología para la operación de rendimiento eficiente.

This theoretical and practical study was developed during the year 2015 and propose functional relations for pressure variations of pipes transporting the multiphase non-stationary fluid extracted from the Block 31 operated by Petroamazonas EP. The literature review is consistent with the work devel...

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書誌詳細
第一著者: Rodríguez, Marco Xavier (author)
フォーマット: masterThesis
言語:spa
出版事項: 2016
主題:
Gestión de energías
Comportamiento seudoplástico
Caracterización
Fluído multifásico
オンライン・アクセス:http://repositorio.utc.edu.ec/handle/27000/6072
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その他の書誌記述
要約:This theoretical and practical study was developed during the year 2015 and propose functional relations for pressure variations of pipes transporting the multiphase non-stationary fluid extracted from the Block 31 operated by Petroamazonas EP. The literature review is consistent with the work developed including the mathematical models and the empirical correlations used for evaluating the simultaneous effects of the viscosity and mixing during pumping. From an experimental study the characterization of the fluid using rheological behavior was developed. This study discovered that the changes in the temperature has few influence in the flow index, with an average percentage of 0.64. The fluid characterization was used for simulating the viscosity changes as a function of the velocity and temperature. This characterization discovered that the fluid exhibits a pseudo-plastic behavior within the temperature range analyzed. This project proposed several models to obtain the optimum temperature for the multi-phase fluid pumping. This work presented a method to simulate the pressure losses and hydraulic power for pseudo-elastics fluids by using computational analysis. In addition, this project also included the analyses of the operational costs and demonstrated that the fluids high temperature from the reservoirs represents a saving of approximately 113,913.40 USD per year.

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