Equipment
We own the full cycle — design, manufacturing, deployment, field support. So we can adapt tools to project conditions, iterate fast, and deliver a predictable result.
Engineering & modeling
We model the run for the specific well — all constraints, all risks — and turn that into a configuration you can trust.
Field support
Our engineers are on site during the run. We track placement, adjust scenarios on the fly, and document the outcome.
SSTR equipment
// FRS
Frameless composite friction reducers. Installed on the drill pipe in zones of maximum side load. The pipe rotates inside a stationary composite sleeve pressed against the wellbore wall.
- 01
Torque reduction at the rotary table / top drive
- 02
More weight on bit transferred downhole
- 03
Lower hook load when pulling out of hole
- 04
Extended reach
- 05
Less drilling vibration in the installation zone
- 06
Drill pipe and casing wear protection
// SVR
Shock and vibration reducer for the BHA. Wear-resistant composite sleeves stay stationary against the wall; the sub rotates inside.
- 01
Lateral and torsional vibration damping in the BHA
- 02
MWD/LWD and RSS protection from vibration
- 03
Torque reduction in the installation zone
- 04
Longer bit and BHA component life
// TRANSFER
TRANSFER multifunctional sub with stabilizing floating sections. Run in the open hole to damp vibrations and protect the drill pipe and BHA components.
- 01
BHA only — no surface Transfer sections
- 02
Drilling with high WOB
- 03
Suppress stick-slip and axial shocks at the bottom of the string
- 04
Protect PDC bits from cutter chipping
Case studies
FRS
Hor 90° · Western Siberia
−33% torque, −33 t on POOH, +13 t on slack-off. Actual μ ~0.17 vs 0.25–0.30 forecast.
FRS
Hor 90° · Eastern Siberia
Oscillator dropped. HD 2,661 m (actual) vs 2,096 m (no-FRS forecast). −19% torque, −14 t.
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Run the numbers on your well
Send your well data and constraints — we'll run T&D modeling and come back with a configuration and the expected impact.