TX 75083-3836, U.S.A., fax 01-972-952-9435. AbstractIn a large clastic reservoir of Saudi Arabia, rock typing by rock-quality-index (RQI) and flow-zone-indicator (FZI) proved to be an effective technique to develop porositypermeability transforms for 8 lithologic facies in a reservoir model. Moreover, capillary pressure and relative permeability curves could be grouped into defined rock types as well. This technique provided an effective tool to distribute permeability, initial water saturation, relative permeability, and residual oil saturation per lithologic facie. This paper presents through a case study the methodology applied for generating permeability and water saturation distribution by lithologic facies and hydraulic units and its impact on simulation history match and future prediction.
TX 75083-3836, U.S.A., fax 01-972-952-9435. AbstractIn a large clastic reservoir of Saudi Arabia, rock typing by rock-quality-index (RQI) and flow-zone-indicator (FZI) proved to be an effective technique to develop porositypermeability transforms for 8 lithologic facies in a reservoir model. Moreover, capillary pressure and relative permeability curves could be grouped into defined rock types as well. This technique provided an effective tool to distribute permeability, initial water saturation, relative permeability, and residual oil saturation per lithologic facie. This paper presents through a case study the methodology applied for generating permeability and water saturation distribution by lithologic facies and hydraulic units and its impact on simulation history match and future prediction.
The objective of this work was to investigate the viability of converting existing conventional vertical wells into horizontal wells with multiple transverse fractures in the Upper Bahariyia reservoirs of the Western Desert of Egypt. These reservoirs can be characterized as two thin, low permeability layers with no crossflow between them. The productivity of these reservoirs was very limited when producing by conventional vertical wells. Reservoir simulation was used to evaluate various combinations of transverse fractures in horizontal wells producing. These results were compared with simulation results for conventional vertical wells, with and without vertical fractures. Only infinite conductivity fractures were considered. Early transient behavior as well as pseudosteady-state behavior were simulated. The results show that horizontal wells with transverse fractures appear to make production of the Upper Bahariyia reservoirs economically feasible. It has been shown that the productivity index of horizontal wells with transverse fractures is mainly affected by the distance between the outermost fractures and not by the number of fractures nor the spacing between them. Between fractures perforations has been shown to have negligible effects on increasing the productivity of horizontal wells with transverse fractures in these reservoirs. Introduction Problem Description of Upper Bahariyia Reservoirs. In the Western Desert of Egypt, there exists a laminated shaly sand formation named the Baharivia formation. The Upper set of the Bahariyia formation (designated as Upper Bahariyia reservoirs) had significant hydrocarbon and oil reserves compared to the total Western Desert estimated reserves. Despite the high concentration of reserves in these reservoirs, it was difficult to produce them economically due to the lamination, relatively low permeability and thin layers. Also some of these reservoirs had high bubble point pressures (near its original reservoir pressure) which forced the wells to be produced below the bubble point pressure. This caused an additional reduction in oil rates due to reduction in the oil relative permeability caused by gas evolving and accumulating near the wellbore The Upper Bahariyia reservoir mainly consist of two thin layers (6 and 3ft), with permeability ranging in each layer from 2 to 10 md. In a large number of these reservoirs the bubble point pressure is around 200 to 300 psi below the original reservoir pressure. Attempts have been made on several wells to test and produce the Upper Bahariyia reservoirs in different areas of the Western Desert. Most of these tests showed negative results. A typical behavior of these wells is to initially produce with oil rates ranging from 200 to 600 bopd, then the production rates quickly decline and the well eventually dies within a few months. This typical performance is true even when lifting pumps are used. Also recent unsuccessful attempts included fracturing the vertical well producers and implementing secondary recovery methods as water flooding. Horizontal Wells With Transverse Fractures. Today horizontal drilling is a reliable and proven technique, providing operators of hydrocarbon reservoirs with a new tool for efficiently producing oil and gas reservoirs. Hydraulic fracturing can improve the performance of horizontal wells dramatically, especially in reservoirs with low transmissibility. It is now known that hydraulic fractures increases the candidate reservoirs for horizontal well applications. Figs. 1 and 2 presents the candidate reservoirs for both horizontal wells and horizontal wells with multiple hydraulic fractures. P. 47^
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