Fully implicit compositional simulator for modeling of asphaltene deposition during natural depletion
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In: Fluid phase equilibria, Vol. 398.2015, No. 25 July, 01.04.2015, p. 15-25.
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TY - JOUR
T1 - Fully implicit compositional simulator for modeling of asphaltene deposition during natural depletion
AU - Fallahnejad, Gholamreza
AU - Kharrat, Riyaz
N1 - Publisher Copyright: © 2015 Elsevier B.V.
PY - 2015/4/1
Y1 - 2015/4/1
N2 - This paper describes development of a fully implicit compositional simulator for modeling of asphaltene deposition during natural depletion. In this paper, a new approach for multiphase flash calculation has been developed. This approach provides a more detailed description of the kinetic part of asphaltene deposition which needs to be explained more clearly. Due to a large number of unknowns, there are many ways to solve such a system by choosing different sets of independent variables. A new set of independent variables in a fully implicit model is considered for asphaltene deposition modeling. By incorporating an asphaltene precipitation model into a compositional simulator where the phase equilibrium equations, the volumetric constraint equation, the component transport equations, the multiphase flash equations and the deposition equation are solved simultaneously; a simulator for asphaltene deposition was developed with respect to natural depletion. The pure solid model is used to model asphaltene precipitation. The solid particles are considered to be separated into three parts: precipitated, flocculated and deposited solid. A first-order chemical reaction is used which models forward and reverse rates for the conversion of precipitated asphaltene to flocculated asphaltene. Also, a deposition model including adsorption, pore throat plugging, and re-entrainment was used. The simulator can also predict formation damage including porosity and permeability reduction in each block.
AB - This paper describes development of a fully implicit compositional simulator for modeling of asphaltene deposition during natural depletion. In this paper, a new approach for multiphase flash calculation has been developed. This approach provides a more detailed description of the kinetic part of asphaltene deposition which needs to be explained more clearly. Due to a large number of unknowns, there are many ways to solve such a system by choosing different sets of independent variables. A new set of independent variables in a fully implicit model is considered for asphaltene deposition modeling. By incorporating an asphaltene precipitation model into a compositional simulator where the phase equilibrium equations, the volumetric constraint equation, the component transport equations, the multiphase flash equations and the deposition equation are solved simultaneously; a simulator for asphaltene deposition was developed with respect to natural depletion. The pure solid model is used to model asphaltene precipitation. The solid particles are considered to be separated into three parts: precipitated, flocculated and deposited solid. A first-order chemical reaction is used which models forward and reverse rates for the conversion of precipitated asphaltene to flocculated asphaltene. Also, a deposition model including adsorption, pore throat plugging, and re-entrainment was used. The simulator can also predict formation damage including porosity and permeability reduction in each block.
KW - Asphaltene
KW - Compositional simulator
KW - Deposition
KW - Modeling
KW - Solid model
UR - http://www.scopus.com/inward/record.url?scp=84927918148&partnerID=8YFLogxK
U2 - 10.1016/j.fluid.2015.03.045
DO - 10.1016/j.fluid.2015.03.045
M3 - Article
AN - SCOPUS:84927918148
VL - 398.2015
SP - 15
EP - 25
JO - Fluid phase equilibria
JF - Fluid phase equilibria
SN - 0378-3812
IS - 25 July
ER -