Title A Downhole Catalytic Upgrading Process For Heavy Oil Using In Situ Combustion
Authors R. G. Moore, C. J. Laureshen, S. A. Mehta, M. G. Ursenbach, J. D. M. Belgrave, The University Of Calgary; J. G. Weissman, R. V. Kessler, Texaco Inc.
Journal Journal of Canadian Petroleum Technology
Volume Volume 38, Number 13
Date 1999
Copyright 1999. Petroleum Society of Canada
Language English
Preview Abstract
There currently exists a large supply of heavy crude oils which are relatively uneconomical to produce. However, there are processes available which can be used in a downhole environment to upgrade them, resulting in significantly less sulphur and lowered densities and viscosities. A process which is especially favourable for downhole implementation is the use of in situ combustion to generate reactive upgrading gases, such as CO, and to drive oil over a near wellbore heated bed of catalyst. Two laboratory combustion tube runs were completed to test this concept. These differed from normal combustion experiments in that they employed a heated processing zone over which combustion gases and fluids passed prior to production. The first run used sand in the processing zone, and the second a bed of catalyst. The Middle Eastern heavy crude oil used was amenable to combustion, and the presence of a heated production- end processing zone did not affect the combustion performance. Passing oil and combustion gases over the catalyst prior to production resulted in substantial upgrading of the produced oil, including a 50% level of hydrodesulphurization and substantial decreases in oil gravity and viscosity. The catalyst efficiently converted CO, generated at the combustion front, to H2, which then reacted with the oil to effect upgrading. The catalyst-bearing zone appeared to have a very low residual water saturation and was effectively oil wet, thus assuring that good oil-catalyst contacting occurred. However, it was found that the presence of a large amount of coke on the catalyst may indicate the need for periodic regeneration.
Introduction
Although there exists a large supply of heavy crude oil throughout the world, most of these reserves lie untapped for various reasons, chief among them being the poor economics of recovering heavy oils. The authors have recently described processes that could be used for significant downhole (in situ) upgrading of heavy crude oils(1, 2), despite previous reports which found that in situ processing has limited potential(3). In situ processing has several advantages over conventional surface upgrading technologies. Because in situ upgrading can be implemented on a well by well basis, there is no need for large capital intensive projects. Rather, the size of an in situ project, for a particular field, can be tailored to available production rates; thus, upgrading is practical even for those fields deemed too small to provide sufficient production for conventional processing. Additional advantages for in situ upgrading include the production of a more desirable and valuable product, increased ease in shipping/pipelining, and less demanding downstream processing.
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