Journal of Canadian Petroleum Technology
Volume 48,
Number 9,
September 2009,
54-61
Abstract
Certain Athabasca reservoirs have low pressures because they have been depleted
due to production of overlying gas. Other reservoirs are naturally occurring
low pressure shallow bitumen reservoirs. Hence, there is a need to develop or
investigate recovery processes under which such low pressure reservoirs can be
developed. As a result of this, experiments were initiated to extend the
Expanding Solvent-SAGD (ES-SAGD) process application to low pressure Athabasca
reservoirs in order to evaluate oil recovery from such reservoirs. The goal of
these experiments is to develop a low pressure ES-SAGD process with better
performance than, or comparable performance to, that of the high pressure SAGD
process.
This paper describes five sets of laboratory experiments examining recovery
processes, which includes a low pressure (500 kPag +/- 50 kPag) SAGD
experiment, a propane-SAGD experiment, multi-component ES-SAGD (at low and high
concentrations) experiments and a high pressure (2,100 kPag +/- 50 kPag) SAGD
experiment. The results of these experiments are presented and analyzed in
order to evaluate the performance of low pressure ES-SAGD in comparison to SAGD
(at low and high pressure) and propane-SAGD at low pressure. The processes were
assessed for recovery, recovery time, heat loss, steam chamber growth and
energy efficiency.
The principal conclusion is that the low pressure multi-component ES-SAGD at
the right concentration (mostly at low concentration) is fairly competitive
with SAGD at a high pressure. The energy consumption in the steam or
steam/solvent zone per oil recovered (ECDZ) for low pressure multi-component
ES-SAGD experiments is much lower than the low pressure and high pressure SAGD
tests. The propane-SAGD test recovery is very low, even at higher energy
consumption, than that of the ES-SAGD experiment at low concentration. The work
presented in this paper shows that the application of a multi-component ES-SAGD
process in the field at low pressure is a practical option. It also shows that
bitumen/heavy oil reservoirs that would have remained untapped due to low
reservoir pressure could be produced at lower energy consumption per oil
recovered if a low pressure ES-SAGD process at low concentration of the
diluents is employed in the recovery of the oil.
Introduction
Certain Athabasca reservoirs have low pressures because they have been depleted
due to production of overlying gas. Other reservoirs are naturally occurring
low pressure shallow bitumen reservoirs. The application of Expanding
Solvent-SAGD (ES-SAGD)(1-2) to these low pressure reservoirs has
been a major area of attention at the Alberta Research Council (ARC) in recent
years. As a result of this, experiments were initiated to extend the ES-SAGD
application to low pressure Athabasca reservoirs. The goal is to develop a low
pressure ES-SAGD process with better performance than, or comparable
performance to, that of the high pressure SAGD process and extend the ES-SAGD
process application to gas-over-bitumen reservoirs and naturally occurring low
pressure reservoirs.
In this paper, four low pressure experiments and one high pressure experiment
conducted in a 2D experimental facility at the Alberta Research Council are
presented and analyzed in order to evaluate the performance of ES-SAGD at low
pressure.
© 2009. Petroleum Society of Canada (now Society of Petroleum Engineers)
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History
- Original manuscript received:
26 March 2008
- Meeting paper published:
17 June 2008
- Revised manuscript received:
26 June 2009
- Manuscript approved:
3 August 2009
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