Modelling of formation damage due to mud filtrate invasion in a radial flow system

This paper is a sequel of our previous paper that has addressed on mud filtrate invasion into oil formation in a linear flow system. As a natural extension, here we present a mathematical model to estimate skin factor due to mud filtrate invasion into oil formation in a radial flow system. In the mo...

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Veröffentlicht in:	Journal of petroleum science & engineering 2012-12, Vol.100, p.99-105
Hauptverfasser:	Windarto, Gunawan, Agus Yodi, Sukarno, Pudjo, Soewono, Edy
Format:	Artikel
Sprache:	eng
Schlagworte:	Applied sciences Cakes Crude oil, natural gas and petroleum products Energy Exact sciences and technology formation damage Fuels mathematical model Mathematical models Mud mud filtrate Permeability Radial flow Reduction Saturation skin factor vertical wells
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description	This paper is a sequel of our previous paper that has addressed on mud filtrate invasion into oil formation in a linear flow system. As a natural extension, here we present a mathematical model to estimate skin factor due to mud filtrate invasion into oil formation in a radial flow system. In the model, solid particle invasion and irreducible water saturation are taken into account. The present model consists of mud cake thickness model, flow rate of mud filtrate into oil formation, mud filtrate concentration, and penetration depth of mud filtrate. The estimation for reduction of oil effective permeability and skin factor near wellbore are also presented. The model is simulated and verified using three vertical well data cited from the literature. The estimation results of oil effective permeability reduction and skin factor from the model are in agreement with the data. Beside that, for the case of static filtration in radial flow, we find a critical mud cake thickness above which the rate change of thickness is increasing. ► We model mud filtrate invasion into oil formation in a radial flow system. ► A new thing in the model is the inclusion of solid particle invasion into the model. ► We also present a criterion to estimate invasion radius of mud filtrate. ► We simulate and validate the model using three vertical data cited from the literature. ► The estimation results of oil effective permeability reduction and skin factor are in agreement with the data.
doi_str_mv	10.1016/j.petrol.2012.11.003
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As a natural extension, here we present a mathematical model to estimate skin factor due to mud filtrate invasion into oil formation in a radial flow system. In the model, solid particle invasion and irreducible water saturation are taken into account. The present model consists of mud cake thickness model, flow rate of mud filtrate into oil formation, mud filtrate concentration, and penetration depth of mud filtrate. The estimation for reduction of oil effective permeability and skin factor near wellbore are also presented. The model is simulated and verified using three vertical well data cited from the literature. The estimation results of oil effective permeability reduction and skin factor from the model are in agreement with the data. 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subjects	Applied sciences Cakes Crude oil, natural gas and petroleum products Energy Exact sciences and technology formation damage Fuels mathematical model Mathematical models Mud mud filtrate Permeability Radial flow Reduction Saturation skin factor vertical wells
title	Modelling of formation damage due to mud filtrate invasion in a radial flow system
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