Application of Velocity String to Improve Productivity from Bottom pays after Hydraulic Fracturing in Multilayered Low Permeability Reservoir
- Saurabh Anand (Cairn Oil & Gas) | Nitin Johri (Cairn Oil & Gas) | Krishana Chandak (Cairn Oil & Gas) | Rachit Vijay (Cairn Oil & Gas) | Shobhit Tiwari (Cairn Oil & Gas) | Avinash Bohra (Cairn Oil & Gas) | Utkarsh Vijayvargiya (Cairn Oil & Gas) | Jivesh Khemchandani (Cairn Oil & Gas) | Ishaan Singh (Schlumberger) | Arpit Agarwal (Schlumberger)
- Document ID
- Society of Petroleum Engineers
- IADC/SPE Asia Pacific Drilling Technology Conference and Exhibition, 27-29 August, Bangkok, Thailand
- Publication Date
- Document Type
- Conference Paper
- 2018. IADC/SPE Asia Pacific Drilling Technology Conference
- 2.10 Well Integrity, 2.4 Hydraulic Fracturing, 2 Well completion, 5.8 Unconventional and Complex Reservoirs, 2.1.3 Completion Equipment, 3 Production and Well Operations, 5 Reservoir Desciption & Dynamics, 3 Production and Well Operations
- Multilayered Low Permeability Reservoir, Velocity String, Hydraulic Fracturing, Well Intervention, Water unloading
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Raageshwari gas field is located in RJ-ON 90/1 Block in western India with Cairn Oil & Gas, a vertical of Vedanta Limited as operator of the field. Multistage hydraulic fracturing is required to achieve commercial production from the highly laminated retrograde gas condensate reservoir. It has been observed in almost all wells that the top high PI zones produce a majority of the gas. The wells have a water column across bottom few fracs which prohibits production from these zones. Water unloading through increased drawdown was not successful because of higher PI of the upper fracs. Coiled tubing-based nitrogen lift of the water column is not commercially feasible. It is important to find a low-cost solution for water unloading since bottom zones account for approximately 30% of total gas in place. A solution has been developed using a customized velocity string design, which can unload the water while maintaining high well production.
Conventional velocity strings are only installed in late life of gas wells when liquid loading is observed. These conventional designs limit the maximum rate to 2-3 MMSCFD and therefore cannot be used in Raageshwari gas field for water unloading as high individual well rates (8 to 12 MMSCFD) is required to meet field plateau production. After reviewing various options, an innovative and unique velocity string system design was developed which incorporates a customized surface spool and string hanging system. This customized design allows combined or independent gas flow conduits as described below:
Through the annulus of velocity string and tubing when higher gas rates are required.
Through the velocity string to facilitate liquid unloading due to high gas velocity.
Production from both the conduits to meet higher demands than the annulus flow alone.
Well integrity was assured by maintaining two independent barriers during commissioning, production phase and also during future string retrieval.
This paper will discuss in detail the design considerations of the velocity string and surface hanger system to achieve liquid unloading while maintaining high rate gas production. It will also have details on the dual barrier selection process and the design customization that have been done to ensure cyclic liquid unloading and high rate gas production.
This innovative velocity string design is technically a dual completion with a much lower cost and footprint. The same design can be implemented across a wide variety of applications to address well integrity issues, selective zonal production etc. The application of this design in Raageshwari field will ensure planned recovery of gas from the field and will also support plateau production phase. This design can be an efficient and economic technique to develop similar fields.
|File Size||3 MB||Number of Pages||35|
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