SPE-165174
•Download as PPT, PDF•
0 likes•217 views
Effectively Controlling Proppant Flowback to Maximize Well Production: Lessons Learned from Argentina
Recommended
More Related Content
What's hot
What's hot (20)
Viewers also liked
Viewers also liked (12)
Similar to SPE-165174
Similar to SPE-165174 (20)
More from Juan Carlos Bonapace
More from Juan Carlos Bonapace (20)
Recently uploaded
Recently uploaded (20)
SPE-165174
- 1. SPE 165174 Effectively Controlling Proppant Flowback to Maximize Well Production: Lessons Learned from Argentina P. D. Nguyen, J.C. Bonapace, G.F. Kruse, Halliburton L. Solis and D. Daparo, CAPSA
- 2. Major Basins in Argentina OIL GAS BPD Mscf/D Neuquina Basin 215,000 2,200 Golfo San Jorge (GSJ) Basin 254,000 500 Austral Basin 26,000 1,000
- 3. Solids Flowback Issues • Increased Operating Expense • Downhole and surface equipment failure (ESP, screens, chokes, etc.) • Disposal of material • Increased workover operations • Reduced Production • Fill across screens or perforations • Loss of fracture conductivityconductivity
- 4. Resin Pre-coated Proppant (RCP) vs. Liquid Curable Resin (LCR) RCP • Pre-coated • Curable or pre-cured • Requires temperature and closure stress • Availability of proppant LCR • On-the-fly coating • 100% curable • All temperatures • Closure stress not required • All proppant types or sizes
- 5. Heat to melt Apply closure Resin Pre-Coated Proppant
- 6. Viscous Flow to Contact Point LCR-Coated Proppant
- 8. Flowback Testing UCS (psi) Water Flow Rate per Perforation (BWPD) Proppant Flowback? 10 140* Yes 80 >300 None 330 >300 None 1,100 >300 None * Flow rate when proppant begins to produce out.
- 9. Field Application of LCR
- 11. Proppant Coated with LCR
- 12. Remedial Treatment – Low Viscosity LCR • Preflush fluid • Cleaning and conditioning proppant pack • Diluted LCR • Coating proppant and establishing consolidation • Post-flush fluid • Displacing excess resin
- 15. Argentina LCR Treatments Since 2005 • 240+ hydraulic fracturing treatments – proppant coated with LCR • > 95% success • 17 proppant remedial treatments applied with low-viscosity LCR • 100% success • BHST: 90°F to 250°F • Depths: 550 to 2,880 m TVD • Wellbores at perfs: 95% vertical or slightly deviated, 5% horizontal
- 16. Post-Treatment Results • Reduced number of wells with proppant flowback • Reduced number of workovers • Allowed high drawdown
- 17. Lessons Learned and Recommendations • Cleaning out wellbore and perforations • Fracturing fluid compatibility with LCR-coated proppant • Coating proppant throughout all stages • Early screenout • Forced closure • Aggressive breaker schedule • Shut-in time for curing
- 18. Conclusions • LCR can be combined with hydraulic fracturing treatment, or applied as part of remedial consolidating treatments, to treat any proppant for controlling proppant flowback. • Properly coating and curing of LCR onto proppant allows the consolidated proppant to handle the high drawdown of the well and the effects of stress- strain cycles during well production and shut-in.
Editor's Notes
- The footprints generated by the liquid resin system are prominent and distinct. Plenty of pore spaces left behind for fluid movement.
- 20/40 HS Ceramic
- .