1. 1
  2. 2
  3. 3
 
 

  PRODUCTION

GIO-PE considers all possible well architectures that could be used, given specific reservoir and geomechanical parameters. GIO-PE can work together with the client operators D&C department to develop a suitable philosophy and design, that can provide significant improvements in drilling pattern, well orientation, development well spacing and optimal completion design.

From simple vertical perforated wells, to complex multi-lateral multi-fracture horizontal wellbores, understanding the reservoir and wellbore interaction is crucial to providing specific drainage shapes and optimized field production and application of enhanced recovery (EOR/IOR) techniques.

 
 

  WELL

GIO-PE is able to recommend optimized well stimulation treatments for productivity enhancement, as we have competency in both production chemicals and engineering. GIO-PE understands that different reservoirs require different techniques to enhance productivity and our personnel specialize in designing solutions that are optimized for each reservoir.

GIO-PE works world-wide with all major service providers, to ensure proper implementation of production enhancement techniques that provide optimized inflow performance from the reservoir to the wellbore. It is only from effective project management that potentially large-scale savings that are compounded over the remaining life of the well.

 
 

  RESERVOIR

Matching appropriate drilling, stimulation and drainage patterns to an optimized reservoir management strategy can significantly increase ultimate recovery, reserves and cashflow. It is important that when looking to optimize well performance that operators consider a number of candidates and ultimately, start to look at an optimised field and reservoir management strategy as the optimum way to maximize, sustainable field performance.

eFrac Logo eFrac Logo
  • Innovation
  • Evolution
  • ReSolution
  • Knowledge
  • Information
  • Blog
  • Contact
 
 

GIO-PE PUBLICATIONS

1

SPE Papers

SPE106269

“Development of a Methodology for Hydraulic Fracturing Models in Tight, Massively Stacked, Lenticular Reservoirs”

C.A. Green, Perenco UK Ltd.; R.D. Barree, Barree & Associates; J.L. Miskimins, Colorado School of Mines. This paper was prepared for presentation at the 2007 SPE Hydraulic Fracturing Technology Conference held in College Station, Texas, U.S.A., 29–31 January 2007.

SPE106270-PA

“Hydraulic Fracture Model Sensitivity Analyses of a Massively Stacked, Lenticular, Tight Gas Reservoir”

C.A. Green, Perenco; R.D. Barree, Barree & Associates; J.L. Miskimins, Colorado School of Mines. This paper was prepared for presentation at the 2007 SPE Production and Operations Symposium held in Oklahoma City, Oklahoma, U.S.A., 31 Mar – 3 Apr 2007

SPE166550-MS

“Offshore Horizontal Well Fracturing: Operational Optimisation in the Southern North Sea”

B Bocaneala, SLB; B Holland, M. E. Langford, Centrica; C. A. Green, G Frac; M.R. Norris, SLB. This paper was prepared for presentation at the SPE Offshore Europe Oil and Gas Conference and Exhibition, 3-6 Sept 2013.

SPE18144-MS

Permanent Downhole Gauges Selection for HPHT and Fractured Basement Reservoirs, Vietnam

H.V. Pham, Cuulong JOC; C.A. Green, G Frac; C Yapp, Weatherford; T.M. Le and A. Butt, Cuulong JOC. This paper was prepared for presentation at the IPTC in Kuala Lumpur, Malaysia 10-12
December 2014.


2

OTHER REPORTS & INFORMATION

Principal author of DECC report for advice on mitigation of earthquake risk during HF operations (findings later included into a Royal Society report)
http://www.decc.gov.uk/assets/decc/11/meeting-energy-demand/oil-gas/5055-preese-hall-shalegas-fracturing-review-and-recomm.pdf

DECC shale gas technical note
http://www.decc.gov.uk/assets/decc/11/meeting-energy-demand/oil-gas/5057-background-noteon-shale-gas-and-hydraulic-fractur.pdf

Author of technical sections in reply to public consultation on Shale gas development
https://www.gov.uk/government/uploads/system/uploads/attachment_data/file/49542/7268-sgqa.pdf

CONTACT NUMBERS

UK  +44 7799 382 371

US  +1 720 236 3227

EMAIL

info@efrac.net

© e-Frac® 2022   |  All Rights ReservedWebsite made by helloweb