Expro Excellence
Drilling Technologies Well Construction
HI TOOL® Harmonic Isolation Tool reduces vibrations in challenging Papua New Guinea formation
Customer challenges
  • An operator in Papua New Guinea wanted to reduce vibrations in the challenging Darai Limestone Formation
    An operator wanted a solution to reduce lateral and axial vibrations in the challenging Darai Limestone Formation found in the highlands of Papua New Guinea. The stratigraphy sequence in this area is unreliable with lithology sometimes repeating itself due to faulting and folding which can lead to losses and potential stuck pipe
Expro Excellence
  • The 800 Series HI TOOL® was initially planned to run above the measurement while drilling (MWD) pulsar on a rotary steerable system (RSS) assembly. However, once the likelihood of repeating lithology in the Darai formation was determined, it was decided to start with a cost- effective rotary assembly. The HI TOOL® was used on all of the assemblies in the 8 1/2” hole, and the RSS was picked up later, once out of the Darai formation
Value to client
  • The 800 Series HI TOOL® successfully mitigated stick-slip and reduced lateral shocks in the 8 1/2” hole section, with lateral shocks being almost nonexistent on the RSS assemblies in the lower section
  • The first 8 1/2” run on a rotary drop assembly (20° to 17° inclination) with the HI TOOL® was comparable to the last run in the 12 1/4” section on a rotary packed assembly (build to 20°). The green plot shows the lateral shock reduction from the HI TOOL® versus the 12 1/4” section in red
  • Reduced lateral shocks from 3Gs at the base of the 12 1/4” hole to 0.75G for the upper section of the 8 1/2” hole in the limestone
  • Reduced stick-slip in the 8 1/2” hole section
  • Lateral shocks in the lower 8 1/2” hole almost nonexistent on the RSS assemblies
  • Lower section with almost zero shocks on RSS over a continued build to 45°
Contact

HI TOOL® Harmonic Isolation Tool reduces vibrations in challenging Papua New Guinea formation

In Brief
The 800 Series HI TOOL® successfully mitigated stick-slip and reduced lateral shocks in the 8 1/2” hole section, with lateral shocks being almost nonexistent on the RSS assemblies in the lower section
Product Line
  • Drilling Technologies
  • Well Construction
Region
Asia-Pacific
Customer challenges
  • An operator in Papua New Guinea wanted to reduce vibrations in the challenging Darai Limestone Formation
    An operator wanted a solution to reduce lateral and axial vibrations in the challenging Darai Limestone Formation found in the highlands of Papua New Guinea. The stratigraphy sequence in this area is unreliable with lithology sometimes repeating itself due to faulting and folding which can lead to losses and potential stuck pipe
Expro Excellence
  • The 800 Series HI TOOL® was initially planned to run above the measurement while drilling (MWD) pulsar on a rotary steerable system (RSS) assembly. However, once the likelihood of repeating lithology in the Darai formation was determined, it was decided to start with a cost- effective rotary assembly. The HI TOOL® was used on all of the assemblies in the 8 1/2” hole, and the RSS was picked up later, once out of the Darai formation
Value to client
  • The 800 Series HI TOOL® successfully mitigated stick-slip and reduced lateral shocks in the 8 1/2” hole section, with lateral shocks being almost nonexistent on the RSS assemblies in the lower section
  • The first 8 1/2” run on a rotary drop assembly (20° to 17° inclination) with the HI TOOL® was comparable to the last run in the 12 1/4” section on a rotary packed assembly (build to 20°). The green plot shows the lateral shock reduction from the HI TOOL® versus the 12 1/4” section in red
  • Reduced lateral shocks from 3Gs at the base of the 12 1/4” hole to 0.75G for the upper section of the 8 1/2” hole in the limestone
  • Reduced stick-slip in the 8 1/2” hole section
  • Lateral shocks in the lower 8 1/2” hole almost nonexistent on the RSS assemblies
  • Lower section with almost zero shocks on RSS over a continued build to 45°
Contact

For further information, please contact:

[email protected]