Banca de DEFESA: HELTON MAGNO DE ARAÚJO CIRÍACO

Uma banca de DEFESA de MESTRADO foi cadastrada pelo programa.
STUDENT : HELTON MAGNO DE ARAÚJO CIRÍACO
DATE: 12/06/2020
TIME: 14:00
LOCAL: Online
TITLE:

Central upwind finite volume method in unstructured meshes: Application for Polymer injection in porous media


KEY WORDS:

 Polymer flooding; Two-phase flow; Polymer transport; Central-Upwind Method; Unstructured meshes; Mechanical retention; Adsorption.


PAGES: 72
BIG AREA: Engenharias
AREA: Engenharia Civil
SUMMARY:

Polymer flooding in oil reservoirs has been one of the enhanced oil recovery (EOR) methods most applied in the last decades. The main objective of the technique is to increase the viscosity of the water, adjusting the unfavorable mobility ratio and increasing sweep and displacement efficiency. On the other hand, the polymer is subject to the effects of adsorption and mechanical retention, which may cause formation damage, and, in consequence, the injectivity loss. In this context, it is imperative to develop robust and accurate computation models in order to analyze the technical feasibility and to propose optimal scenarios for oil recovery. Therefore, in this work, a new mathematical and computational model applied to polymer flooding in porous media is proposed. The mathematical model proposes the Darcy's Law for the water and oil phases, where the water viscosity is a function of the polymer concentration. Furthermore, the polymer transport in the water phase is modeled by a transient differential equation in a convection-diffusion-reaction regime, where the reactive effects are associated with adsorption and mechanical retention. From a computational perspective, Darcy's velocity of the water phase is obtained analytically and the discreet solution for the motion of the water and the polymer transport is obtained making use of the finite volume Central-Upwind method, considering 2D and 3D domains with unstructured meshes. Finally, we propose several numerical simulations aiming to analyze the stability and accuracy of the semi-discrete formulation proposed to numerically simulate the process of polymer flooding in oil reservoirs


BANKING MEMBERS:
Externo à Instituição - ADOLFO PUIME PIRES - UENF
Presidente - 1288120 - ADRIANO DOS SANTOS
Externo à Instituição - JOSUÉ DOS SANTOS BARROSO - LNCC
Externo à Instituição - MARCIO ARAB MURAD - LNCC
Interno - 1646718 - SIDARTA ARAUJO DE LIMA
Notícia cadastrada em: 02/06/2020 15:09
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