Abstract
AbstractKadanwari is a major gas-producing field in Pakistan's Lower Indus Basin (LIB), extensively explored for optimized production. However, the reservoir sands of the Lower Goru Formation (LGF), deposited in a complex river-dominated delta, bear severe variability and hinder accurate facies approximation for optimal production. Furthermore, the regionally extended NNW-SSE directed horst and graben structures significantly compartmentalized these reservoir facies. The main E-sand interval is analyzed for its geological properties, depositional environment, and distribution. The integration of various approaches, including seismic interpretation, attribute extraction, well-based facies modeling, and petrophysical evaluation, proved significant in evaluating the heterogeneous and tectonically influenced E-sands. The discontinuity attribute substantially highlighted the structural style and aided in analyzing the geometries of faults. The low values of the frequency attribute (< 10 Hz) signified the entrapped gas-bearing sands along the faulted zones. The high responses of instantaneous amplitude and sweetness profoundly illuminated the gas-significant deposits throughout the field in association with the well-identified gas-prone sand facies. The outcomes of the neutron-density crossplot depicted gas-bearing sands having low density (< 2.3 g/cc) and good porosity (12%) with the assessment of various cements. The facies modeling distinguished between clean and intermixed sand-shale reservoir zones. Petrophysical analysis revealed a net pay of 14 m within E-sand having gas saturation of about 68%. The adopted approach is robust and efficient, employing a limited data set for developing well-associated seismic responses for potential zone delineation within structural arrangements. The techniques can be optimistic about the LGF's complex potential sands demarcation throughout the Indus Basin.
Publisher
Springer Science and Business Media LLC
Reference71 articles.
1. Adero B, Masinde A, Osukuku G (2017) Using seismic attributes for reservoir characterization. Oil, Gas and Mines Africa, Exhibition and Conference, Nairobi, Kenya
2. Afzal J, Kuffner T, Rahman A, Ibrahim M (2009) Seismic and well-log based sequence stratigraphy of the early Cretaceous, Lower Goru “C” sand of the Sawan gas field, middle Indus Platform, Pakistan. In: Proceedings, Society of Petroleum Engineers/Pakistan Association of Petroleum Geoscientists, Annual Technical Conference, Islamabad, Pakistan
3. Ahmad N, Chaudhry S (2002) Kadanwari gas field, Pakistan: a disappointment turns into an attractive development opportunity. Pet Geosci 8(4):307–316. https://doi.org/10.1144/petgeo.8.4.307
4. Ahmad S, Ghazi S (2022) Depositional trends and reservoir geometries of the Early Cretaceous Lower Goru Formation in Lower Indus Basin, Pakistan: evidence from sequence stratigraphy. J Petrol Explor Prod Technol 12:2981–3001. https://doi.org/10.1007/s13202-022-01489-y
5. Ahmad N, Fink P, Sturrock S, Mahmood T, Ibrahim M (2004) Sequence stratigraphy as predictive tool in lower goru fairway, lower and middle Indus platform, Pakistan. PAPG, ATC 1:85–104