Multidisciplinary Approach for Unconventional Reservoirs Characterisation by Integrating Wireline Openhole Logging Techniques – Electric and Sonic to Formation Testing
- Mohammed Kelkouli (Schlumberger) | Hedi Hadj Arab (Schlumberger) | Nasrine Bendali Amor (Schlumberger) | Kanza Kecili (Schlumberger) | Nabil Mokhtari (Sonatrach)
- Document ID
- Society of Petroleum Engineers
- SPE Reservoir Characterisation and Simulation Conference and Exhibition, 17-19 September, Abu Dhabi, UAE
- Publication Date
- Document Type
- Conference Paper
- 2019. Society of Petroleum Engineers
- Fluid Sampling, Wireline Technology Integration, Ordovician Hamra Quartzite, Tight Fractured Sandstone, Unconventional
- 24 in the last 30 days
- 45 since 2007
- Show more detail
- View rights & permissions
|SPE Member Price:||USD 9.50|
|SPE Non-Member Price:||USD 28.00|
This paper has an objective of identifying the nature of formation fluid from an extreme tight fractured reservoir. A good understanding of petrophysical properties of the reservoir rock as well as the fluid it contains constitutes a real challenge for tight reservoirs, that are the most common unconventional sources of hydrocarbons.
The front-line characterization mean is the Wireline logging which comes directly after drilling the well or while drilling, knowing that for low to extreme low porosity-permeability reservoirs any attempt of conventional well testing will not bring any added value not rather than a confirmation of reservoir tightness.
A tailored workflow was adopted to design the most appropriate formation testing module, select the best depths for fluid sampling, and distinguish hydrocarbon from water bearing intervals.
This workflow involves ultra-sonic and Electric Borehole Images in combination with Sonic Scanner for natural fractures detection, localization and characterization, integrating Dielectric recording and processing for petrophysical evaluation, then Formation Testing was carried out for fluid identification and sampling.
The use of borehole electric and sonic imager coupled with advanced sonic acquisition helped not only to identify the natural fractures depths, but also the nature of these fractures. This integration was used for selecting the sampling station. Successful fluid sampling was carried out in 4 different depths (2 gas and 2 water), then a dielectric measurement was integrated to map the continuity of the water zone and narrow the uncertainty on fluid contact.
This novel multidisciplinary approach that was adopted, integrates answer products from different domains to enable the interpreter, (the reservoir engineer, the geologist, and the Petrophysicist) to better understand and characterize the reservoir, toward a good reserve’s evaluation and appropriate development plan.
|File Size||2 MB||Number of Pages||16|
N. Bounoua, Sonatrach DP, G. Dozier, P. Montaggioni & A. Etchecopar, Schlumberger North Africa. Applied Natural Fracture Characterization Using Combination of Imagery and Transient Information: Case Studies from Combro-Ordovician Tight Sandstones of Algeria. Presented at the 2008 SPE North Africa Technical Conference and Exhibition help in Marrakech, Morocco. SPE-112303