Experimental Study of Gas Solvent Flooding for Lloydminster Heavy Oil Reservoirs

///Experimental Study of Gas Solvent Flooding for Lloydminster Heavy Oil Reservoirs
Experimental Study of Gas Solvent Flooding for Lloydminster Heavy Oil Reservoirs 2016-10-25T11:54:23+00:00

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Experimental Study of Gas Solvent Flooding for Lloydminster Heavy Oil Reservoirs

Wu, J. and Kantzas, A.

DOI: 10.2118/2008-135
CIM 2008-135 presented at the 59th Annual Technical Meeting of the Petroleum Society held in Calgary, June 17-19, 2008.

ABSTRACT

How to economically recover the vast heavy oil/bitumen resources is still a major challenge of petroleum industry in Canada. In recent years, light hydrocarbon solvent-based heavy il recovery methods have attracted much attention as alternatives for thermal techniques.

The objective of this paper is to experimentally investigate the propane flooding efficiency and applicability for Lloydminster type heavy oil reservoirs. A series of model tests were conducted to simulate the performance obtained when gravity effects were present. Based on the fact that the target reservoirs pressure ranges from 500 kPa to 1000 kPa, and the propane dew point pressure under reservoir temperature is around 870 kPa, both pure propane injection and mixture gas injection of methane and propane were investigated. For the pure propane flooding process, three different operation pressures were tested. For each test both horizontal and vertical mode injections were investigated. The results showed that during horizontal mode injection, poor flood conformance and unfavorable gravity segregation effects dominated. Gravity segregation and displacement instability effects occurred due to the natural density and viscosity differences between the injected solvent and reservoir oil. The oil recovery efficiency was very low for all tested pressures, and the SOR was high. However, when the models were changed to vertical mode injection, much more incremental oil recovery was obtained under all operation pressures, and the SOR dramatically decreased. For the gas mixture flooding, vertical mode injection was directly applied based on the poor performance of horizontal mode injection of pure propane flooding, and the effect of solvent injection rates was investigated.

The results of this study indicate that gravity force is more important than viscous force for solvent gas flooding. Maintaining gravity stable is crucial for solvent gas flooding success. There is potential to use solvent gas or solvent mixture gas to in situ recover Lloydminster type heavy oil reservoirs.

A full version of this paper is available on OnePetro Online.

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