Abstract
In spite of the immense resources of heavy oil and bitumen laid in naturally fractured reservoirs (NFR), the study of steam-assisted gravity drainage (SAGD) in this type of reservoirs is very limited and there is no study examining the impact of well configuration on the process performance. This numerical study investigates various steam-based gravity drainage process well patterns in NFR including conventional SAGD, off-set SAGD, staggered SAGD and vertical-injection SAGD. Furthermore, to obtain the best well location, sensitivity analysis of well spacing was carried out for each well pattern and the impacts of oil viscosity, preheating and fracture permeability and water saturation were assessed as well. The best well location case for staggered SAGD represented the ultimate oil recovery factor of 59 % among all the cases with the SOR of 4.1, while the best off-set SAGD case showed a low SOR of 3.7 with a moderate recovery factor of 57 %. With the exception of off-set well configuration, all well patterns illustrated their most efficient performance while having 8 m vertical well spacing. In cases of off-set and staggered patterns, horizontal well spacing is a crucial factor for oil production initiation. Original fracture water saturation is the key parameter to establish early communication between the wells and gives rise to fast steam chamber expansion as well. We found that preheating is a necessary part of the process in the off-set pattern due to horizontal well spacing. However, preheating operation does not play a significant role in processes with no horizontal well spacing even in high vertical well intervals and high oil viscosities, making SAGD process in NFR different from that in sandstones. We attributed these behaviors to zero irreducible water saturation in fracture which makes initial water saturation mobile. At the end, the term (where Swf: fracture water saturation, Kf: fracture permeability, Lhw: Horizontal well spacing and µo: oil viscosity) was introduced as the governing index of the oil production threshold.
Highlights
Due to the current decline in conventional oil reserves, the commodity prices are increasing globally
In spite of the immense resources of heavy oil and bitumen laid in naturally fractured reservoirs (NFR), the study of steam-assisted gravity drainage (SAGD) in this type of reservoirs is very limited and there is no study examining the impact of well configuration on the process performance
Staggered SAGD resulted in the highest oil recovery factor of 59 % among all of the patterns; it leads to an undesirable SOR of 4.1
Summary
Due to the current decline in conventional oil reserves, the commodity prices are increasing globally. Oil industry has turned its attention to production techniques for known heavy oil deposits to solve this problem. Viscous oil trapped in carbonates (over 1.6 trillion bbl) is perceived as a huge potential resource for future energy supply which needs application of new technologies. While steam injection in sandstone reservoirs is known as a successful technology, there is a limited study on this process in fractured reservoirs. There have been some thermal projects in fractured formations previously, all of which have been in pilot scale. Steam drive in Yates Field in Texas and Garland Field in Wyoming both in US, Cyclic steam stimulation in Cao-32
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
